Yoga for Starters Infographic

VOLUME 41 NUMBER 4
DECEMBER 2009
KMJ
KUWAIT MEDICAL JOURNAL
The Official Journal of The Kuwait Medical Association
EDITORIAL
279
Deschooling Doctors and Patients
Belle M Hegde
REVIEW ARTICLE
282
Present and Future Biochemical Markers of Cardiac Diseases
Shivaraj Gowda, Prakash B Desai, Avinash A K Math, Sonal Vernekar, Shruthi S Kulkarni, Vinayak Hull
ORIGINAL ARTICLES
288
Recurrence of Primary Spontaneous Pneumothorax: Rate and Risk Factors
Alia Al-Alawi, Adel Khader Ayed
Diagnostic Significance of Tissue Doppler Imaging in Patients with Acute Inferior Myocardial Infarction and
Precordial ST Segment Depression
292
Mousa AJ Akbar, Ahmad Ali Al-Dousary, Saleh El-Enezy, Ali Hegazy
Return to Work Following Cardiac Rehabilitation in Patients Undergoing Cardiac Procedures with an
Approach to Patient’s Viewpoints and Attitude
Abbas Soleimani, Abbas Salehi Omran, Ali Mohammad Haji Zeinali, Mehrdad Sheikhvatan, Iman Feyzi
302
307
Perceptions and Attitude towards Lumbar Puncture (LP) among Parents in Kuwait
Ehab Farag, Entesar H Husain, Hussein Fathy, Ahmad Shawky
311
Students’ Learning Approaches at Medical Schools Applying Different Curricula in Turkey
Cihat Tetik, Erol Gurpinar, Hilal BatД±
317
Allergic Sensitization in Healthy School Children in Kuwait: An Emerging Public Health Concern
Mahdi Al-Mousawi, Massuma Ali G Ramadan, Mahmood Mahdi Taher, Nasser Behbehani
322
Violence against Medical Staff: Prevalence and Effects of Violence against Psychiatrists in Kuwait
Farid Ali Atawneh, Khalid Al-Saleh, Muhammad Ajmal Zahid
CASE REPORTS
327
McKusick Kaufman Syndorme: A Rare Case Report with Review of Literature
Adnan EL- Kishawi, Aymen H ELEmmawie, Santosh K Surana
330
Tuberculosis of the Shoulder: An Unusual Presentation
Margaret Linny Austin, Raja Shaikh, Adel Ahmed
334
AIDS Encephalopathy in a 14 Year-Old Girl
Manal Alsuraikh, Mapkar Osman, Kobolo YM Prasad
Child Survived with Complete Neurological Recovery after Prolonged Out-of-Hospital Cardiac Arrest due to
Electric Shock
337
Hashim E Al-Hashemi, Yasser A Shalan, Akram Zakaria
Gyrate Atrophy of the Choroid and Retina with Hyperornithinemia: Report of Three Cases and Review of
Literature
Adnan Al Wayel, Morad Nasr, Sherif Sadik
346
Double Aneuploidy: Down Syndrome Associated with Klinefelter Syndrome
Fouad Abdulla Ali
350
Cutaneous Tuberculosis (Scrofuloderma) in a Five Year-Old Boy: Case Report
Mohammad Dehghan, Vahideh Kazeminezhad, Laily Najafi
KU ISSN 0023-5776
341
Continued inside
Vol. 41 No. 4
DECEMBER 2009
KUWAIT MEDICAL JOURNAL
C O N T E N T S
Continued from cover
SELECTED ABSTRACTS OF ARTICLES PUBLISHED ELSEWHERE BY AUTHORS
IN KUWAIT
353
FORTHCOMING CONFERENCES AND MEETINGS
356
WHO-FACTS SHEET
363
1. A Strategy to Prevent and Treat Diarrhoea – the Second Biggest Killer of Children
2. Antiviral Use and the Risk of Drug Resistance Pandemic (H1N1) 2009
3. International Day for Disaster Reduction
4. Cardiovascular Diseases (CVDs)
5. Visual Impairment and Blindness
YEARLY AUTHOR INDEX – KUWAIT MEDICAL JOURNAL (KMJ) 2009;
VOLUME 41
369
YEARLY TITLE INDEX – KUWAIT MEDICAL JOURNAL (KMJ) 2009;
VOLUME 41
371
вќ€вќ€вќ€
Open access for articles at: www.kma.org.kw/KMJ
Indexed and abstracted in:
EMBASE (The Excerpta Medica Database)
Science Citation Index Expanded (also known as SciSearchВ®)
Journal Citation Reports/Science Edition
IMEMR Current Contents (Index Medicus for the Eastern Mediterranean Region;
available online at: www.emro.who.int/EMRJorList/online.aspx
THE PUBLICATION OF ADVERTISEMENTS IN THE KUWAIT MEDICAL JOURNAL DOES NOT CONSTITUTE ANY GUARANTEE OR ENDORSEMENT BY THE KUWAIT
MEDICAL ASSOCIATION OR THE EDITORIAL BOARD OF THIS JOURNAL, OF THE ADVERTISED PRODUCTS, SERVICES, OR CLAIMS MADE BY THE ADVERTISERS.
THE PUBLICATION OF ARTICLES AND OTHER EDITORIAL MATERIAL IN THE JOURNAL DOES NOT NECESSARILY REPRESENT POLICY RECOMMENDATIONS OR
ENDORSEMENT BY THE ASSOCIATION.
PUBLISHER: The Kuwait Medical Journal (KU ISSN-0023-5776) is a quarterly publication of THE KUWAIT MEDICAL ASSOCIATION.
Address: P.O. Box 1202, 13013 Safat, State of Kuwait; Telephone: 25316023, 1881181 Fax: 25317972, 25333276. E-mail : kmj @kma.org.kw
COPYRIGHT: The Kuwait Medical Journal. All rights reserved. No part of this publication may be reproduced without written
permission from the publisher. Printed in Kuwait.
INSTRUCTIONS FOR AUTHORS: Authors may submit manuscripts prepared in accordance with the Uniform Requirements for
Manuscripts Submitted to Biomedical Journals. These Requirements are published in each issue of the Kuwait Medical Journal.
CHANGE OF ADDRESS: Notice should be sent to the Publisher six weeks in advance of the effective date. Include old and new
addresses with mail codes.
KUWAIT MEDICAL JOURNAL (previously The Journal of the Kuwait Medical Association) is added to the list of journals adhering to
the “Uniform Requirements for Manuscripts Submitted to Biomedical Journals”, American College of Physicians, Independence Mall
West, Sixth Street at Race, Philadelphia, PA 19106-1572, USA, and can be located at http://www.icmje.org/jrnlist.html
Kuwait Medical Journal (KMJ)
Published by the Kuwait Medical Association
Previously known as The Journal of the Kuwait Medical Association (Est. 1967)
Honorary President: Abdulaziz Al-Babtain
EDITORIAL BOARD
Editor-in-Chief:
Editor:
International Editor:
Associate Editors:
Fuad Abdulla M Hasan, Kuwait
Adel Khader Ayed, Kuwait
Pawan K Singal, Canada
Adel A Alzayed, Kuwait
Ignacio Rodriguez, USA
Michael Redmond, USA
Mousa Khoursheed, Kuwait
Mustafa M Ridha, Kuwait
Nasser Behbehani, Kuwait
Noura Al-Sweih, Kuwait
INTERNATIONAL ADVISORY BOARD
Ananda S Prasad, USA
Anders Lindstrand, Sweden
Andrew J Rees, UK
Belle M Hegde, India
Bengt Jeppsson, Sweden
Charles A Dinarello, USA
Christian Imielinski, Poland
Elizabeth Dean, Canada
Fiona J Gilbert, UK
Frank D Johnston, UK
George Russell, UK
Graeme RD Catto, UK
Giuseppe Botta, Italy
James W Roach, USA
Jan T Christenson, Switzerland
Jasbir S Bajaj, India
John V Forester, UK
Julian Little, Canada
Kostadin L Karagiozov, Japan
Lewis D Ritchie, UK
Lubomir Karagiosov, Bulgaria
Mechael M. Meguid, USA
Mohammed Zayer, Sweden
Neva E Haites, UK
Nirmal K Ganguli, India
Oleg Eremin, UK
Peter RF Bell, UK
Philip M Moody, USA
Raymond M Kirk, UK
Samuel Dagogo-Jack, USA
S Muralidharan, India
Stig Bengmark, Sweden
Tulsi D Chugh, India
William A Tweed, Canada
William B Greenough, USA
Zoheir Bshouty, Canada
REGIONAL ADVISORY BOARD
Abdulla Behbehani
Abeer K Al-Baho
Alexander E Omu
Ali Al-Mukaimi
Ali Al-Sayegh
Asmahan Al-Shubaili
Chacko Mathew
Eiman M Mokaddas
Faisal A Al-Kandari
Habib Abul
John F Greally
Joseph C Longenecker
Kamal Al-Shoumer
Kefaya AM Abdulmalek
Khalid Al-Jarallah
Mazen Al Essa
Mohamed AA Moussa
Mousa Khadadah
Mustafa Al-Mousawi
Nasser J Hayat
Nawaf Al-Mutairi
Nebojsa Rajacic
Sami Asfar
Soad Al-Bahar
Sukhbir Singh Uppal
Waleed Alazmi
Waleed A Aldhahi
EDITORIAL OFFICE
Editorial Manager : Babichan K Chandy
Editorial Asst. : Reena Alexander
Language Editor : Abhay U Patwari
EDITORIAL ADDRESS
P.O. Box: 1202, 13013-Safat, Kuwait
Telephone: (00-965) 25316023, 1881181 - Fax: (00-965) 25317972,, 25333276
E-mail: kmj@kma.org.kw
Website: www.kma.org.kw/KMJ
KUWAIT MEDICAL JOURNAL
KUWAIT MEDICAL JOURNAL (KMJ)
Instructions for Authors
INTRODUCTION
Formerly known as �The Journal of the Kuwait
Medical Association’, the Kuwait Medical Journal
(KMJ) was established in the year 1967. It is the official
publication of the Kuwait Medical Association and
published quarterly and regularly in March, June,
September and December.
drawings, charts, Excel presentation, etc. shall be
submitted as separate attachments. Incomplete/
improper submissions will not be processed, and will
be returned.
Following a peer review process, the corresponding
author will be advised of the status; acceptance/
recommendation for revision or rejection of the paper, in
a formal letter sent through post and/or e-mail. A galley
proof will be forwarded to the corresponding author
through e-mail before publication of the accepted papers
which must be returned to the journal office within 48
hours with specific comments, if any. Corrections in the
galley proof, in case any, must be limited to typographical
errors, or missing contents only.
AIMS AND SCOPE
KMJ aims to publish peer-reviewed manuscripts
of international interest. Submissions on clinical,
scientific or laboratory investigations of relevance to
medicine and health science come within the scope
of its publication. Original articles, case reports, brief
communications, book reviews, insights and letters
to the editor are all considered. Review articles are
solicited. Basic medical science articles are published
under the section �Experimental Medicine’.
ETHICAL CONSIDERATIONS
Where human investigations or animal experiments
are part of the study, the design of the work has to
be approved by local ethics committee. A relevant
statement of approval should be added in the �Subjects
and Methods’ section of the manuscript.
GENERAL
The Kuwait Medical Journal is a signatory journal to
the Uniform Requirements for Manuscripts Submitted
to Biomedical Journals, the п¬Ѓfth (1997) revision of a
document by the international Committee of Medical
Journal Editors. A description of important features
of this document is available on the Lancet website at
http://www.thelancet.com. Alternatively, you may
consult the following: N Engl J Med 1997; 336:307315 or order the leaflet “Uniform Requirements for
Manuscripts Submitted to Biomdical Journals” by
writing to the Editor of the British Medical Journal
(BMJ), BMA House, Tavistock Square, London WC1H
9JR, UK.
To present your original work for consideration,
one complete set of the manuscript, written in English
(only), accompanied by tables, and one set of п¬Ѓgures
(if applicable), should be submitted to the Editor.
Authors should also provide the manuscript on an
IBM compatible medium such as floppy, CD (in MS
word format) or pen-drive, if not submitted through
e-mail. The KMJ editorial office uses Microsoft �Office
2007’ word processing and �Excel’ programs. Details of
the type of computer used, the software employed and
the disk system, if known, would be appreciated.
PREPARATION OF THE MANUSCRIPT
The manuscript should be typed as �normal text’
with no hyphenation and no hard returns within
paragraphs (use automatic word wrap) on A4 size (29.7
x 21 cm) paper in single column format, preferably in
font size no.12. Cell format for paragraphs, artwork
and/or special effects for the text and/or table(s) are
not acceptable. Italics shall be used only for foreign/
Latin expressions and/or special terminologies such
as names of micro organisms. Maintain a minimum
of 2 cm margin on both sides of the text and a 3 cm
margin at the top and bottom of each page. No part
of the text other than abbreviations and/or subtitles
shall be written in upper case (ALL capital). Header/
foot notes, end notes, lines drawn to separate the
paragraphs or pages etc. are not acceptable. Do not
submit articles written/saved in �Track-change’ mode
THE ORDER OF THE TEXT
Original Articles: Title page, Abstract (in structured
format for original articles) of no more than 250
words, Key Words (no more than п¬Ѓve), followed by
Introduction, Subjects (or Materials) and methods,
Results, Discussion, Conclusion, Acknowledgment/s
(if any), References, Legends to п¬Ѓgures, Tables, and
Figures. Each section should begin on a new page.
ELECTRONIC SUBMISSIONS
A manuscript could be submitted through e-mail
as an attached word-document (.doc), together with
a scanned copy of the signed consent letter of the
author(s). The consent letter could otherwise be faxed
to the journal office at (00965) 25312630 or 25333276.
Figures, if any, need to be in .jpg/.jpeg/.bmp format
with 300 dpi resolution and illustrations such as
Review Articles (solicited): Title Page, Abstract of
no more than 250 words, Key Words (no more than
п¬Ѓve), followed by Introduction, Methods/History
(if applicable), Literature Review, Conclusion,
i
Instructions for Authors
Acknowledgment/s (if any), References, Legends
to п¬Ѓgures, Tables, and Figures. Each section should
begin on a new page.
about to begin randomized controlled studies may
wish to study the CONSORT statement (JAMA 1996;
276:637-639).
Case Studies: Title page followed by Abstract (a
short summary of not more than 200 words), Key
Words, Introduction, Case history/report, Discussion,
Conclusion, Acknowledgment/s (if any), References,
Legends to п¬Ѓgures, Tables, and Figures.
Manuscript should be paginated consecutively,
commencing with the title page. Main headings,
introduction, subjects and methods, etc., should
be placed on separate lines. Key Words should be
preferably MeSH terms, and must not duplicate
words already in the manuscript title; MesH terms
can be checked at: <http://www.nlm.nih.gov/mesh/
MBrowser.html>.
ILLUSTRATIONS
Photographs, Photomicrographs, line drawings,
transparencies, etc. must be of high quality and
supplied in original (not photocopies or laser prints)
of size 10 x 15 cm (4” x 6”). Regarding scanned
image requirements, see �Electronic Submissions’.
Photographs should п¬Ѓt within a print area of 164 x
235 mm. All the п¬Ѓgures must be numbered serially
(Fig 1, Fig 2 etc.) and the п¬Ѓgure number written on
the back of each, together with an arrow drawn to
indicate the top edge. Figures where patient’s identity
is not concealed, authors should submit a written
consent of the patient or of the patient’s guardian,
in case of minors. Figure legends should be listed
separately after the �References’ section. If any of the
tables, illustrations or photomicrographs have been
published elsewhere previously, a written consent for
re-production is required from the copyright holder
along with the manuscript. Charts and drawings must
be professionally done, duly titled and submitted
in Excel format as separate п¬Ѓles. When charts are
submitted, the numerical data on which they were
based should be supplied.
THE TITLE PAGE
Title page of the submitted manuscript should
provide a clear title of the study followed by full
names of all authors, the highest academic degree
and affiliations if any, the name and address of the
institution/s where the work was done including
the department, the name and complete address
of the corresponding author to whom proofs and
correspondences shall be sent, duly supported with
contacts such as telephone, mobile/cell, fax and e-mail
address (if available).
ABBREVIATIONS
Except for units of measurement, abbreviations
should be defined on first use and then applied
consistently throughout the article. Non-standard
abbreviations or those appearing fewer than three
times are not accepted. Use abbreviated units of
measure, only when used with numbers.
STRUCTURED ABSTRACT
A structured abstract (no more than 250 words)
is required for studies under the section “Original
Articles”. It must provide an overview of the entire
paper, and should contain succinct statements on the
following, where appropriate: Objective(s), Design,
Setting, Subjects, Intervention(s), Main Outcome
Measure(s), Result(s), and Conclusion(s). (See: Haynes
RB, Mulrow CD, Huth AJ, Altman DG, Gardner MJ.
More informative abstracts revisited. Annals of Internal
Medicine 1990; 113:69-76). Abstract for all other category
of submissions shall be a short summary followed by
Key words and the report or review.
NUMBERS AND UNITS
Measurements of length, height, weight and volume
must be reported in metric units (meter, kilogram, liter
etc.) or their decimal multiples. Temperature should
be given in degrees Celsius. Blood pressure in mm Hg,
and hematological and biochemical measurements in
SystГЁme International (SI) units. For decimal values,
use a point, and not a comma, e.g., 5.7. Use a comma
for numbers > 10,000 (i.e., 103) and for numbers < 9999,
do not use a comma (e.g., 6542).
TABLES
Tables typed on separate pages using table
format should follow the list of references. All
tables must be numbered consecutively and
provided with appropriate titles. Contents of the
table should be simple, and information therein
not duplicated, but duly referred to, in the main
text. Tables recording only a few values are not
appreciated, since such information can be more
accurately, usefully and concisely presented as a
sentence or two in the text.
DRUG NAMES
Non-proprietary (generic) names of product
should be employed. If a brand name for a drug is
used, the British or international non-proprietary
(approved) name should be given in parentheses. The
source of any new or experimental preparation should
also be given.
REFERENCES
Indicate references in the text in sequence using
Arabic numerals within square brackets and as
superscripts (e.g.,[1, 3-5] etc). Do not quote additional
DESIGN OF THE WORK
This should be stated clearly. The rationale behind
the choice of sample size should be given. Those
ii
KUWAIT MEDICAL JOURNAL
hereby assign all copyrights ownership to the KMJ and shall
have no right to withdraw its publication. It is expressly
certified that I/we, have done/actively participated in
this study and agree to the accuracy of contents of this
manuscript. It was conducted in accordance with current
ethical considerations and meets with the committee’s
approval. I/all of us agree to its publication in KMJ and to
the authorship as expressed in this declaration and in the
title page of our manuscript”. The participation of the
authors must include: conception, design, analysis,
interpretation, or drafting the article for critically
important intellectual content. A change in authorship
after initial submission of a manuscript should be duly
supported with a documented request from the main
author, duly endorsed by the author removed and/
or-added. No chnages in authorship will be permitted
after acceptance for publication of a manuscript.
More than six authors are not appreciated for an
article and if listed, the authors may be asked to justify
the contribution of each individual author. For case
reports, not more than three authors are acceptable.
Regarding contributions of authors over the limit
mentioned above, read the �Acknowledgment’
section.
data (like part of the title, year of publication etc.)
from the references with citations in the text, unless
very important. In the References section, list them
in the same sequence as they appeared in the text.
Include the names and initials of all authors if not
more than six (≤ 6); when authorship exceeds six, use
et al after three author names. Do not use automatic
numbering, end notes or footnotes for references.
References to manuscripts either in preparation or
submitted for publication, personal communications,
unpublished data, etc. are not acceptable.
The author’s name should be followed by the
title of the article, the title of the journal abbreviated
in the style of the Index Medicus, the year of
publication, the volume number and the п¬Ѓrst and
last page numbers. References to books should
give the title of the book, followed by the place of
publication, the publisher, the year and the relevant
pages. Journal titles should be abbreviated according
to the style in Index Medicus. References should be
limited to those relating directly to the contents of
the paper and should be set out in Vancouver style,
as shown in the examples below.
EXAMPLES
Article
Burrows B, Lebowitz MD. The Гџ agonists dilemma
(editorial). N Engl J Med 1992; 326:560-561.
ACKNOWLEDGMENT
The objective of this section is to disclose affiliations
with or association of any organization with a direct
п¬Ѓnancial interest in the study. Otherwise, it will be
considered as having no such interests. Contributions
of others who have involved in the study, such as
statisticians, radiologists etc. and/or those who have
assisted in the preparation of the manuscript being
submitted could also be included in this section.
Book
Roberts NK. The cardiac conducting system and
His bundle electrogram. New York, Appleton-CenturyCrofts, 1981; 49-56.
Book chapter
Philips SJ, Whisnam JP. Hypertension and stroke,
In: Laragh JH, Bremner BM, editors. Hypertension:
pathophysiology, diagnosis, and management. 2nd Ed.
New York: Raven Press; 1995. p 465-478.
COPY RIGHT
The publisher reserves copyright on the Journal’s
contents. No part may be reproduced, translated or
transmitted in any form by any means, electronic
or mechanical, including scanning, photocopying,
recording or any other information storage and
retrieval system without prior permission from the
publisher. The publisher shall not be held responsible
for any inaccuracy of the information contained
therein.
Weblinks
U.S. positions on selected issues at the third
negotiating session of the Framework Convention on
Tobacco Control. Washington, D.C.: Committee on
Government Reform, 2002. (Accessed June 4, 2003, at
http://www.house.gov/reform/min/inves.tobacco/
index_accord.htm.)
SUBMISSION OF A MANUSCRIPT
Manuscripts to be submitted to:
The Editor
Kuwait Medical Journal
P.O. Box: 1202
Code-13013-Safat
Kuwait
Telephone (965) 25316023, 1881181
Fax (965) 25317972; 25333276
E-mail: kmj@kma.org.kw
Website: www.kma.org.kw/KMJ
AUTHORSHIP AND CONSENT FORM
All authors must give their signed consent for
publication in a letter of submission, which should
accompany the manuscript. This letter should contain
the statement that “This manuscript (write the title) is
an unpublished work which is not under consideration
elsewhere and the results contained in this paper have
not been published previously in whole or part, except in
abstract form. In consideration of the KMJ accepting my/
our submission for publication, the author(s) undersigned
iii
AN ADDED FEATHER TO THE KMJ’S CAP
We are glad to inform all our valued patrons, subscribers and readers that the
Kuwait Medical Journal (KMJ) has been selected for coverage in Thomson
Reuter’s products and custom information services.
Commencing with Volume 40 (1) 2008, this publication has been indexed and
abstracted in the following:
вќ–
Science Citation Index Expanded (also known as SciSearchВ®)
вќ–
Journal Citation Reports/Science Edition
We are sure that this accreditation will better meet the requirements of the
scientific and scholarly research community besides enhancing the value of
their submissions published in this journal.
While I thank you all, on behalf of the Editorial Board, for your valuable
contributions and patronage, look forward to your continued support and
cooperation to achieve further heights through publishing the valuable and
advanced outcome of your research studies and practices that would enlighten
the community and serve the entire humanity.
Congratulations and best wishes to all our contributors and collaborators.
Professor Adel Kahader Ayed
Editor
December 2009
KUWAIT MEDICAL JOURNAL
279
Editorial
Deschooling Doctors and Patients
Belle M Hegde
The Journal of the Science of Healing Outcomes, Maryland, USA and Mangalore, India*
Manipal University, Manipal India**
London University, UK#
Northern Colorado University, USA##
Kuwait Medical Journal 2009; 41 (4): 279-281
Thanks to Ivan Illich for this beautiful word,
deschooling which he used successfully in his book
Deschooling Society in the 1930s[1]. “Science is making
models, mostly mathematical constructs, which,
with verbal explanations, are supposed to work,”
wrote John von Neumann, an American scientist of
Hungarian origin[2]. I couldn’t agree more. Medical
science, basically a statistical science, follows the
biological model of linear mathematical construct to
understand a very complex, non-linear, chaotic model
in biology, the human body. The latter is a dynamic
model that runs continuously on food and oxygen and
is powered by the electromagnetic energy from the
sun[3] (Schumann rings of energy around the globe).
Human physiology can never follow the linear laws
of deterministic predictability of Isaac Newton[4]!.
Consequently, our present scientific base of medicine
does not qualify to be classed as pure, hard science!
According to the new science of holism, otherwise
called the science of chaos, even a very small change
in the initial state of the organism could have
catastrophic end results[4]. Peter Petros, an Australian
gynaecologist, in his paper, non-linearity in clinical
medicine, brings out clearly the fallacy in our present
thinking which this author had been expounding in
the last four decades in many of his publications[5]. It
is time to take this message to the future doctors, the
medical students, who can be converted as the present
lot of teachers and practitioners are already converted
to the linear model on which depends our bench mark
scientific base of Randomized Controlled Trials (RCTs),
meta-analysis, cross-sectional studies etc. All these
have, of course, been shown to be not only useless but,
could even be dangerous[6].
How else will one be able to reconcile to the fact
that the medical profession, according to a few recent
audits in the west, has not acquitted itself honorably
in the п¬Ѓeld of healing outcomes in the sick population?
If one gets into the largest medical business of routine
screening of the apparently healthy population, our
present model fails miserably[7]. Doctors have been
predicting the unpredictable future of mankind all
along[4]. Mary Tinnetti, from Yale, in her landmark
paper on 'The end of the disease era' put it very
succinctly thus: “The time has come to abandon
disease as the focus of medical care. The changed
spectrum of health, the complex interplay of biological
and non-biological factors, the ageing population, and
the inter-individual variability in health priorities
render medical care that is centered on the diagnosis
and treatment of individual diseases at best outof-date and at worst harmful. A primary focus on
disease may inadvertently lead to under treatment,
overtreatment, or mistreatment”[8]. Based on studies
of medical literature as also the results of their own
studies, Dunn et al showed the picture in greater detail
in their paper on Death by doctors[9]. One example will
suffice. Statins are now being marketed for anything
under the sun although the main thrust is in vascular
disease prevention. The truth about statins, when
looked at more carefully, is anything but satisfactory.
Medicine had been practiced on the bed side,
with emphasis on the art of medicine, from time
immemorial up until the birth of the п¬Ѓrst clinic: then
came the hospital. It is only in the last 50 odd years
that medicine started riding piggyback on technology
which has now resulted in �medicalizing’ the whole
population. Doctors have succeeded in schooling the
population to believe that health depends on medical
intervention alone; while the truth is that the health of
the society does not depend on doctors and hospitals.
In fact, recent audits have shown, in a fourteen
Address for correspondence
Professor B. M. Hegde, Manjunath, Pais Hills, Bijai, Mangalore 575004, India. Tel: +91 824221 7575, E-mail: hegdebm@gmail.com;
web:www.bmhegde.com
*Editor in Chief, The Journal of the Science of Healing Outcomes, Maryland, USA and Mangalore, India
**Vice Chancellor (Retd), Manipal University, Manipal India
#Former visiting Professor of Cardiology, London University, UK
##Affiliate Professor of Human Health, Northern Colorado University, USA
280
Deschooling Doctors and Patients
industrialized countries study, that those countries
with a higher doctor-patient ratio and bigger bed
strength had worse health status of the population and
shorter life expectancy! While trillions of dollars had
been spent in the last quarter of a century in the west
for medical intervention only 3% of the life expectancy
increase has been attributed to medical interventions
including vaccinations. Rest of the improvement came
from nutrition, sanitation, education, better mode of
living and affluence[10].
Time honored doctor-patient relationship, on which
depended relief from illnesses in the past, has all but
vanished what with doctors practicing medicine based
on an array of scopes, shadows and laboratory reports
rather than on the suffering human being’s bedside.
This scenario has brought American medicine to its
nadir. The recent movie SICKO by the celebrated US
п¬Ѓlm maker, Michael Moore, and an editorial in a recent
issue of the Texas Heart Institute Journal entitled
Hyposkillia, document all that there is for the common
man to know about the sad state of the medical world
in that country[11].
A recent study combined data from RCT’s of
statins to look at over 70,000 patients without coronary
heart disease (CHD), but with risk factors. They
report that statin use led to a 12% reduction in death,
a 30% reduction in heart attacks, a 20% reduction in
stroke, and no increased risk of cancer. The effects
were regardless of age, sex or diabetes. Can we now
say that all patients with risk factors for CHD should
get statins? The answer is unfortunately no because
we are not told properly about risks, safety and costeffectiveness. Although the death rate dropped by 12%
(relative risk reduction or RRR), it actually only fell
from 5.7% to 5.1% with statin therapy (a 0.6% absolute
risk reduction or ARR). Bottom line - you need to treat
170 people with statins for four years to prevent one
death. For heart attacks, there is a 1.2% ARR, and this
means that we would have to treat 80 people with
statins for four years to prevent one heart attack. For
strokes, there was a 0.4% ARR, and 240 people have
to be treated to prevent one stroke. These numbers
look less impressive than the relative risk reductions
and tell us more about how costly it would be to
treat everybody with risk factors (but no CHD) in the
population,” wrote Dr. Biswas[12].
Time has come for doctors to analyse the entire
medical “scientific” clap trap about drugs and
interventional devices before using them on poor
patients. The real audits do not show any of them in
good light. Douglas C Wallace, writing in the journal
Genetics, came to the conclusion that all modern
western pharmacological drugs damage the hardware
inside every human cell; the latter runs the human
body holistically. He also showed, using a new research
tool MITCHIP, that most Asian herbal drugs which
had thousands of years of observational research
December 2009
base in assessing the true healing outcomes, are better
suited as they only help the human cell to perform its
function better[13]. Healing outcomes should be the
future research modality and not the RCTs that have
no hard scientific base. No two individuals are alike.
Even minor changes in the initial state might end up in
catastrophic long term outcomes in a dynamic system,
as shown above.
Our present research base of RCTs use one broad
brush to cover all human beings grouped together as
a cohort. This could never be scientifically correct as
no two individuals, even uni-ovular twins, are one
hundred percent alike. Human consciousness being
unique to each one of us with the mind playing a vital
role in healing outcomes, one can never rely on our
RCT base as scientific[14]. Randomization cannot and,
does not, correct this inequality.
We need a new base model of non-linear
mathematics for future research. David Eddy, a former
professor of cardiovascular surgery at Stanford, who
has now become a great mathematician has succeeded
in creating a new non-linear virtual human physiology
model, using more than ten thousand differential
equations, which could be utilized for medical research
(http://www.archimedesmodel.com). However, this,
in itself, is not the be all and end all of future research. We
need to concentrate on long term observational studies
that could not be done by a small group of researchers
but by the whole profession. In this direction we have
started a new journal, Journal of the Science of Healing
Outcomes, (http://www.thejsho.com) which is in its
second year, exclusively for publishing studies, small
and big as also single case studies, where the end point
should be successful healing outcome[15].
Over the years this will provide a good scientific
base for drawing long term successful healing methods
that could be applied safely for patient care. There is
an equally good effort by Richard Smith, former editor
and CEO of BMJ group, who has started a new journal,
Cases Journal, which again publishes case reports of
successful healing outcomes. Both the above journals
do not bother as to what are the healing modalities as
long as they stand the scrutiny of hard science. In our
journal we have dispensed with the conventional peer
review system as a peer might be unaware of a new
methodology used in the study. We have identified
world renowned leaders in each п¬Ѓeld of science,
physics, chemistry, medicine etc, and the papers are
reviewed by a specialist in the п¬Ѓeld. In the past, some
studies did show that long term observational research
was better than our conventional RCT based cohort
studies. Using and abusing statistics to show good
results is the bane of our present research as shown
above in the statin studies.
Other vital area that needs to be tackled is the
present stranglehold of the pharmaceutical lobby on
medical education, both during the graduate days
December 2009
KUWAIT MEDICAL JOURNAL
in medical school as also the continuing medical
education all through a doctor’s life. Earlier this ends
the better. The pharmaceutical lobby’s influence on
doctors is the main reason why the latter do not see
through their game of distorting research data[16,17].
After having said that, I should hasten to add that we
should not throw out the baby with the bath tub just
because the water in the tub is dirty. Modern medical
hi-tech is useful in emergency care and corrective
surgery although both those areas need refinement in
view of the new physiology enumerated above.
REFERENCES
1.
2.
3.
4.
5.
Ivan Illich. Deschooling Society. New York, Harper &
Row, 1971.
Heims, Steve J. John von Neumann and Norbert
Wiener, from Mathematics to the technologies of
life and death. Cambridge, MIT Press, 1980. ISBN
0262081059.
Glen A. Gordon, MD “ExtraOrdinary Technology
Conference”, Speaks on Pulsed Electromagnetic
Healing Developments 2004. (Accessed September
8, 2009, at http://www.pureenergy system.com/
events/conf/2004/teslatech_SLC/GlenGordon/
ElectroMagneticHealing.htm)
Firth WJ. Chaos - predicting the unpredicatble. BMJ
1991; 303:1565-1568.
Petros P. Non linearity in clinical practice. J Evaluation
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
281
in Clinical Practice 2003; 9:171-178.
Hegde BM. Chaos - a new concept in science. J Assoc
Physi India1996; 44:167-168.
Smith R. The screening industry. BMJ 2003; 326:890891.
Tinnetti M, Fried T. The end of the disease era. Am J
Med 2004; 116:179-185.
Null G, Dean C, Feldman M, Rasio D, Smith D. Death
by Medicine. (Accessed September4, 2009, at www.
webdc.com/pdfs/deathbymedicine.pdf)
Starfield B. Is US medicine the best in the world? JAMA
2000; 284:483-485.
Woolliscroft JO, Stross JK, Silva J Jr. Hyposkillia:
deficiency of clinical skills. Tex Heart Inst J 2005;
32:255-257.
Biswas R. Statin audit. Personal communication.
2009.
Wallace DC. Mitochondria as Chi. Genetics 2008;
179:727-735.
Martyn Carruthers. Human Consciousness. 1997. Hull
University UK. (Accessed September 8, 2009, at www.
experiencefestival.com/human_consciousness)
Hegde BM. Why I write what I write. (Accessed
September 10, 2009, at www.thejsho.com)
Angell M. Truth about drug companies. How they
deceive us and what to do about it. New York, Random
House Publications, 2006; 336.
Cohen S. Drug Muggars (Accessed September 8, 2009,
at
www.amazon.com/Drug-Muggers-Keep.../dp/
0981817319)
282
KUWAIT MEDICAL JOURNAL
December 2009
Review Article
Present and Future Biochemical Markers of Cardiac Diseases
Shivaraj Gowda, Prakash B Desai, Avinash A K Math, Sonal N Vernekar, Shruthi S Kulkarni, Vinayak V Hull
Department of Biochemistry, J N Medical College, Belgaum, Karnataka, India
Kuwait Medical Journal 2009; 41 (4): 282-287
ABSTRACT
Biochemical markers play an important role in the
diagnosis of myocardial injuries and adopting a therapy
that would improve clinical outcome. The earliest
biomarkers, such as alanine aminotransferase and
lactate dehydrogenase, have become redundant with
the development of more sensitive and specific assays
for latest cardiac markers. This development of assays
for new marker proteins has contributed to a greater
understanding of the pathophysiology of the disease
spectrum of many myocardial diseases.
KEY WORDS: cardiac markers, isoenzymes, lactate dehydrogenase, myeloperoxidase
INTRODUCTION
Biochemical markers play an important role in
accurate diagnosis of myocardial injuries and also for
assessing the risk factors and adopting a therapy that
would improve clinical outcome. Over the past three
decade, research and utilization of biomarkers has
evolved substantially. The earliest biomarkers, such as
alanine aminotransferase and lactate dehydrogenase,
have fallen out of use with the development of
more sensitive and specific assays for latest cardiac
markers[1]. National Institutes of Health (NIH) in
2001 defined biomarker as “a characteristic that is
objectively measured and evaluated as an indicator of
normal biological processes, pathogenic processes, or
pharmacologic responses to a therapeutic intervention[2].
The development of assays for new marker proteins
has contributed to a greater understanding of the
pathophysiology of the disease spectrum in many
myocardial diseases[3]. Such biomarkers should not be
present in non-cardiac tissues under any physiological or
pathological conditions. It should be myocardial tissue
specific and its concentration in the myocardium should
be high but should be absent in non-myocardial tissues[4].
The marker should be rapidly released into the blood
after myocardial ischemia with a direct proportional
relationship between the extent of myocardial ischemia
and the measured level of the marker as shown in
Fig. 1[5]. It should be detectable in blood soon after the
myocardial injury (i.e., the sensitivity should be high).
To allow suitable detection, biomarkers should persist
in circulation for hours to days following the acute
necrotic event as shown in Table 1. It must be assayed
by a simple and quick method. The nature of the
biomarker should allow quantitative measurement by
reliable, rapid, precise, and cost-effective methodology
that is readily available[1,4].
PRESENTLY USED MARKERS
Aspartate Aminotransferase (AST)
The normal value is 4 – 17 IU/l[6]. The levels of serum
AST activity begin to rise 3 - 8 hours after the onset of
the myocardial injury with peak levels on an average
at 24 hours and п¬Ѓnally it returns to normal levels in 3
- 6 days. It is also increased in pericarditis, muscle and
hepatic diseases, hence its use is limited[4].
Creatine Kinase (CK) and its Isoenzyme (CKMB)
The biomarker is found in high concentration
in skeletal muscle, myocardium and brain, but not
found in RBC. Serum CK activity increases following
myocardial infarction (MI) beginning within six hours
and peaking on an average at 24 hours and returns to
normal within 2 - 3 days[4]. Cytoplasmic CK is a dimer,
composed of M and / or B subunits, which associate
forming CK-MM, CK-MB and CK-BB isoenzymes[7].
Creatine kinase acts as a regulator of high-energy
phosphate production and utilization within contractile
tissues. It also has a more general role in shuttling
high-energy phosphate bonds via creatine phosphate
from the site of ATP production in the mitochondria
to the site of utilization within the cytoplasm[3]. The
advantage of CK-MB (as shown by Janise et al) is that it
is the most sensitive early marker for MI (6 hours after
onset) followed by myoglobin[8]. The disadvantage
is that trace amounts of CK-MB subforms are found
in skeletal tissue and their assay are expected to be
falsely positive in patients with muscular dystrophy
and severe skeletal-muscle damage[9].
Address correspondence to:
Dr Shivaraj Gowda, Associate Professor, Department of Biochemistry, J N Medical College, Belgaum 590010, Karnataka, India. E-mail:
drshivaraj@yahoo.com
December 2009
KUWAIT MEDICAL JOURNAL
283
Table 1: Various biomarkers in circulation
Marker
Myoglobin
Total CK
cTnT
cTnI
LDH
Fig 1: The levels and the duration of various cardiac markers [5]
AMI = acute myocardial in farction
Myoglobin
Myoglobin is a heme protein that is present in
the cytoplasm of cardiac and skeletal muscle cells;
its function is to transport intracellular oxygen[1]. It
is elevated 2 - 3 hours after myocardial injury[3]. The
advantage of this marker is the high negative predictive
value of serum myoglobin for excluding early
infarction. This has encouraged its use along with more
specific markers such as CKMB and cardiac troponin
to improve the diagnosis of MI[3,4]. The disadvantage
is that myoglobin is found both in skeletal and cardiac
muscle, so its specificity is compromised in the
presence of skeletal muscle damage[3]. Development
of rapid immunoassay techniques has enabled the
use of myoglobin as an early marker of myocardial
damage[10] and is thus recommended by the National
Academy for Clinical Biochemistry[5].
Lactate Dehydrogenase (LDH)
An increase in serum LDH activity is found
following myocardial infarction beginning within 6 12 hours and reaching a maximum at about 48 hours.
It remains elevated for 4 -14 days before coming
down to normal levels. The prolonged elevation
makes it a good marker for those patients admitted
to the hospital several days after MI. RBC’s are
rich in LDH and hence, hemolysis may give falsely
elevated results[6]. However, its use is discouraged
due to its non-specificity as increased levels are found
in progressive muscular dystrophy, myoglobinuria,
leukemia, pernicious anemia, megaloblastic and
hemolytic disease[4].
Cardiac troponins (cTns)
The troponins are regulatory proteins found
in skeletal and cardiac muscle. The three subunits
that have been identified include cardiac troponin I
(cTnI), cardiac troponin T (cTnT) and cardiac troponin
C (cTnC)[1]. The complex regulates the calciummodulated interaction between actin and myosin on
the thin п¬Ѓlament. Each troponin subunit is encoded by
Detection (hrs) Peak (hrs)
1-4
4-8
4 - 12
4 - 12
6 - 12
6-7
12 - 30
12 - 48
4 -12
24 - 48
Disappearance (days)
0-1
3-4
5 - 15
5 - 10
4 -14
a separate gene, whereas TnI and TnT exist as specific
skeletal and cardiac muscle isoforms. The function
of cTnI is to inhibit actinomyosin ATPase activity[3].
The cTnC interacts tightly with cTnI, reversing the
inhibitory effect. Most intracellular cTnI and cTnT
is bound to the myofibrils in the cardiac myocyte.
However, a small percentage exists in a cytosolic
pool[3]. These cardiac troponins (cTns) appear in the
blood as early as 3 - 4 hours after the acute episode
and remain elevated for 4 - 14 days[6]. The advantage
is that the cTnI from the plasma of patients with AMI
showed dominant form of cTnI released which was in
the form of cTnI/cTnC complex. The maximal amount
of free cTnI was released shortly after the injury due to
breakdown of the myofibrillary complex in damaged
myocytes; cytosolic troponins reach the blood stream
quickly resulting in a rapid peak of serum troponin
which is observed during the п¬Ѓrst few hours[11]. This is
followed by the release of structurally bound troponin
resulting in a second peak lasting for several days.
An increase in the concentration of serum cardiac
troponins reflects myocardial damage but does not
indicate mechanism[1]. The disadvantage of this marker
is its elevation in patients with myocarditis and where
cardiac damage might not be expected such as stroke,
pulmonary embolism, pulmonary hypertension and
severe renal dysfunction. Because of their sensitivity
and specificity when compared with other markers,
The National Academy of Clinical Biochemistry and
the Joint ESC / ACC Committee for the redefinition
of Myocardial Infarction have both recommended
troponins as the markers of choice in the evaluation of
acute coronary syndrome[5].
PROMISING NEW MARKERS: XANTHINE
OXIDASE
Xanthine oxidoreductase, under normal conditions,
exists in dehyrogenase form and uses NAD+ and there
is no or very little production of super oxide anion.
Depletion of ATP and subsequent loss of membrane
Ca2+ gradient is seen under ischemic conditions.
Increased Ca2+ levels activates Ca2+ dependent
proteases which cause selective proteolysis of the
dehydrogenase to convert it into xanthine oxidase
which acts both on hypoxanthine and xanthine at the
expense of molecular oxygen to produce super oxide
ion[12]. Xanthine oxidase produces oxy-free radicals
which oxidize cellular proteins and membranes
284
Present and Future Biochemical Markers of Cardiac Diseases
resulting in myocardial cellular injury[12]. Thus,
xanthine oxidase in ischemic conditions of the heart,
as in myocardial infarction, may play an important
role in contributing free radical mediated damage.
The elevated levels of xanthine oxidase activity in the
blood of patients with myocardial infarction and highly
significant increase of malondialdehyde, serving as an
index of lipid peroxidation and free radical mediated
damage found in myocardial infarction patients is the
main advantage of this marker[13]. But the disadvantage
of this marker is that it is also found elevated in noncardiac conditions like liver disorders[14].
Myeloperoxidase (MPO)
Myeloperoxidase catalyzes the conversion of
chloride and hydrogen peroxide to hypochlorite
which is stored in azurophilic granules of
polymorphonuclear neutrophils and macrophages.
It is released into extra cellular fluid during
inflammatory process[15,16]. When released it
is found that MPO consumes endothelialderived nitric oxide (NO), thereby reducing NO
bioavailability and impairing its vasodilating
and anti-inflammatory properties. Thus, MPO
is involved in oxidative stress and inflammation
and hence it is a possible marker of myocardial
infarction[17]. Even though MPO participates in the
inflammatory process of acute coronary syndromes,
the disadvantage of this marker is that its elevated
levels may not likely be specific to cardiac diseases,
as activation of neutrophils and macrophages can
occur in any infectious, inflammatory or infiltrative
disease process[18]. Zhang et al showed that blood
and leukocyte MPO activity were higher in
patients with CAD than angiographically verified
normal controls. In the same study they found
that results were independent of the patient’s age,
sex, hypertension, smoking, diabetes status, LDL
concentration, leukocyte count, and Framingham
global risk score[19].
Adiponectin
Adipose tissue itself is capable of producing a variety
of cytokines and hormones (called adipocytokines). Its
association has been found relevant for coronary heart
disease (CHD) development[20]. Obesity is a major risk
factor for CHD with 1.5 to 2.0 fold increased risk in
obese persons[21]. Adiponectin (also called ARCP30,
AdipoQ, apM1, and GBP28) is a 247 amino-acid peptide
hormone, circulates at relatively high concentrations in
the blood stream, accounting for 0.05% of total serum
proteins and is inversely associated with obesity,
insulin resistance, type 2 diabetes and cardio- vascular
disease (CVD)[20]. Adiponectin expression declines
following stimulation with insulin, endothelin-1 and
glucocorticoids. Adiponectin is no longer inversely
December 2009
related to systemic inflammation once CHD is
established as shown by Maximilian et al[22]. Among
CHD patients adiponectin is positively related
with high density lipoprotein cholesterol (HDL-C)
and negatively related to triglyceride (TG) without
apparent signs of heart failure. Adiponectin is also
positively related to plasma concentrations of Nterminal pro-B-type natriuretic peptide (NT-proBNP),
a marker primarily for heart failure[20]. Currently,
plasma adiponectin levels have also been seen to
correlate with surrogate markers of atherosclerosis[23].
Ischemia-Modified Albumin (IMA)
Recently, a serum-based biochemical test has been
found to be useful in the diagnosis of acute myocardial
ischemia[24]. Human serum albumin (HSA) is the most
abundant multifunctional protein in blood, with a
mean concentration of 0.63 mmol/l. It consists of 585
amino acid residues (66.5kDa), is synthesized in the
liver and has a half-life of 19 days[25]. The observation
that myocardial ischemia produced a lower metalbinding capacity for cobalt to human serum albumin
led to the development of the recently FDA-cleared
albumin cobalt binding (ACB) test. The ACB test is a
quantitative assay that measures ischemia-modified
albumin (IMA) in human serum. Serum IMA can
differentiate myocardial ischemic patients from nonischemic individuals, but is a poor discriminator
between ischemic patients with or without MI[25].
Glycogen phosphorylase
Glycogen phosphorylase (-1, 4-D-glucan:
orthophosphate D- glucosyltransferase; EC 2.4.1.1)
is a glycolytic enzyme that plays an essential role
in the regulation of carbohydrate metabolism[18].
Glycogen phosphorylase is a dimeric enzyme having
two identical subunits each of molecular mass
97kDa. Three isoenzymes: GPLL (liver), GPMM
(muscle), and GPBB (brain) are found in human
tissues. The BB and MM isoenzymes are found
in the human heart, but the BB isoenzyme is the
predominant isoenzyme in myocardium. It catalyzes
the п¬Ѓrst step of glycogenolysis, in which glycogen is
converted to glucose 1-phosphate. During hypoxia
and hypoglycemia it leads to emergency supply of
glucose. GPBB is in the form of sarcoplasmic reticulum
glycogenolysis complex. It is released within 2 - 4 h
after the onset of myocardial damage and returns to the
reference range within 1 - 2 days after MI. The release
of GPBB in parallel with myoglobin or heart-type fatty
acid binding protein indicates irreversible myocardial
damage[18,26]. At the time of tissue hypoxia glycogen
is broken down, GPBB is converted to a soluble form
and becomes free to move in the cytoplasm. During
ischemic condition, rapid increase in glycogenolysis
and simultaneously increase in plasma membrane
December 2009
KUWAIT MEDICAL JOURNAL
permeability occurs which favors early release of
GPBB[18]. Thus GPBB serves as an accurate marker for
the detection of ischemic myocardial damage but is
yet to be confirmed with high-quality GPBB assays.
Heart-type fatty acid-binding protein (H-FABP) and
unbound free fatty acids (FFA)
Heart-type fatty acid-binding protein (H-FABP),
a small (15kDa) cytoplasmic protein involved in
lipid homeostasis, is abundant in heart muscle[27].
The rapid release of H-FABP into plasma during
ischemia indicates the possibility of using this protein
as a biochemical marker for ischemic myocardial
injury[28]. After myocardial damage H-FABP is
released into the intercellular space and appears in
the bloodstream. The magnitude of the increase in
plasma H-FABP has a good correlation with the size
of the infarction[27]. H-FABP increases within three
hours after acute myocardial infarction (AMI) and
returns to reference values within 12 - 24 hours[28].
H-FABP as a sensitive early marker for myocardial
injury has been investigated by several groups and
was found to have advantage over or similar to CKMB, Myoglobin and Troponin[29,30]. The disadvantage
is that it lacks in complete cardiac specificity when
compared with any other specific markers[27]. But in
combination with cardiac troponins, H-FABP may be
diagnostic for patients presenting with acute coronary
syndrome (ACS) and AMI[30]. Most serum free fatty
acids (FFA) are bound with albumin, and only a small
fraction of the total FFA present are in the free soluble
form[18]. In ischemic condition increased FFA release
through adipose lipolysis is a result of catecholamines
which are found to be elevated in blood. One of the
disadvantage of this marker is that increases in serum
FFA are likely attributable to FFA originating from
other tissues, such as adipose, along with a reduction
of FFA use after ischemia[18]. Furthermore, circulating
non-esterified fatty acid concentrations have also
been shown to be predictive for sudden death in nonischemic patients[18]. Hence in patients presenting with
ischemic symptoms, plasma FFA monitoring may
provide an early indication of cardiac ischemia.
Choline
Phosphodiesteric cleavage of membrane
phospholipids leads to the formation of choline
and phosphatidic acid by phospholipase D. During
the activation of cell surface receptors in tissue
ischemia, a rapid increase in whole-blood choline
(WBCHO) and plasma choline (PLCHO) is seen due
to the stimulation of phospholipase D (PLD)[18]. Release
of choline into plasma followed by a secondary uptake
into blood cells by a choline transport system along
with phospholipid breakdown by phospholipases was
observed due to early ischemic membrane damage[31].
285
WBCHO was a high predictor of MI in the followup phase than PLCHO in patients with undetectable
cTnI[32]. With high-resolution proton magnetic
resonance spectroscopy technique increased WBCHO
concentrations were first identified as a promising
marker for ACS[32]. The determination of choline
in whole blood (WBCHO) may be advantageous
because it reflects intracellular concentration changes
responsible for infiltration and activation of blood
cells, where as many proposed cardiac markers of
plaque inflammation and plaque instability are based
on measurements in plasma or serum[32]. Development
of rapid point-of-care tests and laboratory assays of
WBCHO and PLCHO will be necessary to evaluate
whether these markers will help to identify high-risk
patients in clinical practice[18].
Pregnancy-Associated Plasma Protein A (PAPP-A)
Pregnancy-associated plasma protein A (PAPPA) is a high-molecular-weight, zinc-binding
metalloproteinase and it is used for the diagnosis
of Down syndrome using maternal blood during
pregnancy[33]. In pregnancy, PAPP-A circulates in a
heterotetrameric complex consisting of 2 PAPP-A
subunits covalently bound with two subunits of the
proform of eosinophil major basic protein (proMBP),
its endogenous inhibitor[34]. Bayes-Genis et al
showed the presence of PAPP-A in unstable plaques
from patients who died suddenly of cardiac causes[35].
PAPP-A was abundantly expressed in plaque cells
and extracellular matrix of ruptured unstable plaques,
but not in stable plaques. Circulating PAPP-A levels
were significantly elevated in patients with unstable
angina or acute myocardial infarction than in patients
with stable angina. The levels were also correlated
with levels of C-reactive protein and free insulinlike growth factor (IGF-I)[35]. PAPP-A concentrations
reflects the association with degree of echogenicity
of carotid atherosclerotic plaques in asymptomatic
hyperlipidemic individuals. Apart from indicating risk
factor in ACS, increased levels of PAPP-A also show
earlier stages of atherosclerotic lesions, even in the
absence of clinical signs of atherosclerosis[18]. Further
studies are required to characterize the importance of
elevated PAPP-A in patients with ACS.
Brain natriuretic peptide (BNP)
Brain natriuretic peptide (BNP) is a 32-aminoacid counter-regulatory peptide released in response
to cardiac stretch. It is synthesized as a pro-peptide
and then cleaved to the active moiety by a protease
called corin[36]. BNP is synthesized and stored in
atrial and ventricular myocytes, although plasma
BNP originates mainly from the left ventricle. The
ventricular myocyte stretch results in release of BNP
and the effect is to increase the glomerular п¬Ѓltration
Present and Future Biochemical Markers of Cardiac Diseases
286
rate and inhibit sodium reabsorption, increase central
venous pressure and left ventricular dysfunction.
The plasma concentration is related to the magnitude
of the atrial or ventricular overload[37]. The increase
in the circulating concentrations of BNP was found
soon after AMI as shown by Morita et al[38], whereas
Morrison et al[39] have shown that the increased value
of BNP helps in differentiating cardiac and pulmonary
causes of dyspnea. Disorders associated with right
ventricular dysfunction, such as primary pulmonary
hypertension, and pulmonary embolism[2] are also
associated with increased plasma BNP concentration.
Wolde et al[40] showed that plasma BNP is a predictor of
fatal pulmonary embolism and their results indicated
that high BNP levels were associated with mortality
during three months of follow-up in patients with
pulmonary embolism. Plasma BNP is also elevated in
conditions associated with diastolic dysfunction, such
as aortic stenosis, and restrictive cardiomyopathy[41].
CONCLUSION
Biochemical markers have become increasingly
important in the investigation of myocardial diseases.
The National Academy of Clinical Biochemistry and
ESC / ACC have recommended Myoglobin, CK-MB
and cTns as they are more specific among present
markers. New promising markers such as H-FABP,
BNP, IMA and Adiponectin are in the phase of trial. As
found in many studies combination of markers such
H-FABP / cTns and CKMB / cTns are being used as
diagnostic aids.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
REFERENCES
1.
2.
3.
4.
5.
6.
7.
Robert H, Hassan M. Biomarkers of necrosis: past, present
and future. In: Morrow DA, editor. Cardiovascular
biomarkers pathophysiology and disease management.
New Jersey: Humana Press; 2006. p 1-6.
Vasan RS. Biomarkers of cardiovascular disease:
molecular basis and practical considerations. Circulation
2006; 113:2335-2362.
Kemp M, Donovan J, Higham H, Hooper J. Biochemical
markers of myocardial injury. Br J Anaesth 2004; 93:6373.
Nigam PK. Biochemical markers of myocardial injury.
Ind J Clin Biochem 2007; 22:10-17.
Wu AH, Apple FS, Gibler WB, Jesse RL, Warshaw MM,
Valdes R Jr. National Academy of Clinical Biochemistry
Standards of Laboratory Practice: recommendations for
the Use of Cardiac Markers in coronary artery diseases.
Clin Chem 1999; 45:1104-1121.
Fred S, Allan S. Cardiac function, In: Burtis C, Ashwood
E, Bruns D, editors. Tietz Textbook of clinical chemistry
and molecular diagnostics. 4th Ed. New Delhi: Elsevier
India Pvt Ltd; 2006. p 1629-1653.
George S, Ishikawa Y, Perryman MB, Roberts R.
Purification and characterization of naturally occurring
and in vitro induced multiple forms of MM creatine
kinase. J Biol Chem 1984; 259:2667-2674.
18.
19.
20.
21.
22.
23.
24.
December 2009
Zimmerman J, Fromm R, Meyer D, et al. Diagnostic
marker cooperative study for the diagnosis of
myocardial infarction. Circulation 1999; 99:1671-1677.
Yasmineh WG, Ibrahim GA, Abbasnezhad M, Awad
EA. Isoenzyme distribution of creatine kinase and
lactate dehydrogenase in serum and skeletal muscle in
Duchenne muscular dystrophy, collagen disease, and
other muscular disorders. Clin Chem 1978; 24:19851989.
de Winter RJ, Koster RW, Sturk A, Sanders GT. Value of
Myoglobin, troponin T and CK-MBmass in ruling out
an acute myocardial infarction in the emergency room.
Circulation 1995; 92:3401-3407.
Katrukha AG, Bereznikova AV, Esakova TV, et al.
Troponin I is released in bloodstream of patients with
acute myocardial infarction not in free form but as
complex. Clin Chem 1997; 43:1379-1385.
Raghuvanshi R, Kaul A, Bhakuni P, Mishra A, Misra
MK. Xanthine oxidase as a marker of myocardial
infarction. Ind J Clin Biochem 2007; 22:90-92.
Bhakuni P, Chandra M, Misra MK. Oxidative stress
parameters in erythrocytes of post- reperfused patients
with myocardial infarction. J Enzyme Inhib Med Chem
2005; 20:377- 381.
Ramboer C, Piessens F, De Groote J. Serum xanthine
oxidase and liver disease. Digestion 1972; 7:183-195.
Loria V, Dato I, Graziani F, Biasucci LM. Myeloperoxidase:
a new biomarker of inflammation in ischemic heart
disease and acute coronary syndromes. Mediators
Inflamm 2008; 8:135625.
Jerlich A, Horakova l, Fabjan JS, Giessauf A, Jurgens
G, Schaur RJ. Correlation of low-density lipoprotein
modification by myeloperoxidase with hypochlorous
acid formation. Int J Clin Lab Res 1999; 29:155-161.
Mullane KM, Kraemer R, Smith B. Myeloperoxidase
activity as a quantitative assessment of neutrophil
infiltration into ischemic myocardium. J Pharmacol
Methods 1985; 14:157-167.
Apple FS, Wu AH, Mair J, et al. Future biomarkers for
detection of ischemia and risk stratification in acute
coronary syndrome. Clin Chem 2005; 51:810-824.
Zhang R, Brennan ML, Fu X, et al. Association between
myeloperoxidase levels and risk of coronary artery
disease. JAMA 2001; 286:2136-2142.
Pischon T, Rimm EB. Adiponectin: a promising marker
for cardiovascular disease. Clin Chem 2006; 52:797-799.
Wilson PW, D’Agostino RB, Sullivan L, Parise H,
Kannel WB. Overweight and obesity as determinants of
cardiovascular risk: the Framingham experience. Arch
Intern Med 2002; 162:1867-1872.
von Eynatten M, Hamann A, Twardella D, Nawroth
PP, Brenner H, Rothenbacher D. Relationship of
adiponectin with markers of systemic inflammation,
atherogenic dyslipidemia and heart failure in patients
with coronary heart disease. Clin Chem 2006; 52:853859.
Szmitko PE, Teoh H, Stewart DJ, Verma S. Adiponectin
and cardiovascular disease: state of the art? Am J Physiol
Heart Circ Physiol 2007; 292:H1655-H1663.
Bar-Or D, Lau E, Winkler JV. A novel assay for cobaltalbumin binding and its potential as a marker for
myocardial ischemia: a preliminary report. J Emerg
Med 2000; 19:311-315.
December 2009
25.
26.
27.
28.
29.
30.
31.
32.
33.
KUWAIT MEDICAL JOURNAL
Bhagavan NV, Lai EM, Rios PA, et al. Evaluation of
human serum albumin cobalt binding assay for the
assessment of myocardial ischemia and myocardial
infarction. Clin Chem 2003; 49: 581-585.
Rabitzsch G, Mair J, Lechleitner P, et al.
Immunoenzymometric assay of human glycogen
phosphorylase isoenzyme BB in diagnosis of ischemic
myocardial injury. Clin Chem 1995; 4:966-978.
Ghani F, Wu AH, Graff L, et al. Role of heart-type
fatty acid-binding protein in early detection of acute
myocardial infarction. Clin Chem 2000; 46:718-719.
Azzazy HM, Pelsers MM, Christenson RH. Unbound
free fatty acids and heart-type fatty acid–binding
protein: diagnostic assays and clinical applications. Clin
Chem 2006; 52:19-29.
Pelsers MM, Hermens WT, Glatz JF. Fatty acid-binding
proteins as plasma markers of tissue injury. Clin Chim
Acta 2005; 352:15-35.
Okamoto F, Sohmiya K, Ohkaru Y, et al. Human hearttype cytoplasmic fatty acid-binding protein (H-FABP)
for the diagnosis of acute myocardial infarction. Clinical
evaluation of H-FABP in comparison with myoglobin
and creatine kinase isoenzyme MB. Clin Chem Lab Med
2000; 38:231-238.
Deves R, Reyes G, Krupka RM. The carrier reorientation
step in erythrocyte choline transport: pH effects and the
involvement of a carrier ionizing group. J Membr Biol
1986; 93:165-175.
Danne O, Mockel M, Lueders C, et al. Prognostic
implications of elevated whole blood choline levels in
acute coronary syndromes. Am J Cardiol 2003; 91:10601067.
Beaudeux JL, Burc L, Imbert-Bismut F, et al. Serum
plasma pregnancy-associated protein A: a potential
34.
35.
36.
37.
38.
39.
40.
41.
287
marker of echogenic carotid atherosclerotic plaques
in asymptomatic hyperlipidemic subjects at high
cardiovascular risk. Arterioscler Thromb Vasc Biol
2003; 23:e7-e10.
Lawrence JB, Oxvig C, Overgaard MT, et al. The insulinlike growth factor (IGF)-dependent IGF binding protein4 protease secreted by human п¬Ѓbroblasts is pregnancyassociated plasma protein-A. Proc Natl Acad Sci USA
1999; 96:3149-3153.
Bayes-Genis A, Conover CA, Overgaard MT, et al.
Pregnancy-associated plasma protein A as a marker of
acute coronary syndromes. N Engl J Med 2001; 345:10221029.
Clerico A, Emdin M. Diagnostic accuracy and prognostic
relevance of the measurement of cardiac natriuretic
peptides: a review. Clin Chem 2004; 50:33-50.
Sagnella GA. Measurement and importance of plasma
brain natriuretic peptide and related peptides. Ann Clin
Biochem 2001; 38:83-93.
Morita E, Yasue H, Yoshimura M, et al. Increased plasma
levels of brain natriuretic peptide in patients with acute
myocardial infarction. Circulation 1993; 88:82-91.
Morrison LK, Harrison A, Krishnaswamy P, Kazanegra
R, Clopton P, Maisel A. Utility of a rapid B-natriuretic
peptide assay in differentiating congestive heart failure
from lung disease in patients presenting with dyspnea.
J Am Coll Cardiol 2002; 39:202-209.
ten Wolde M, Tulevski II, Mulder JW, et al. Brain
natriuretic peptide as a predictor of adverse outcome in
patients with pulmonary embolism. Circulation 2003;
107:2082-2084.
de Lemos JA, McGuire DK, Drazner MH. B-type
natriuretic peptide in cardiovascular disease. Lancet
2003; 362:316-322.
288
KUWAIT MEDICAL JOURNAL
December 2009
Original Article
Recurrence of Primary Spontaneous
Pneumothorax: Rate and Risk Factors
Alia Al-Alawi1, Adel Khader Ayed2
Depatment of Medicine, Amiri Hospital, Kuwait
2
Department of Surgery, Faculty of Medicine, Kuwait University and Chest Diseases Hospital, Kuwait
1
Kuwait Medical Journal 2009; 41 (4): 288-291
ABSTRACT
Objectives: To study the recurrence rate of primary
spontaneous pneumothorax (PSP) in our practice and
to identify the factors that influence it
Design: Retrospective data analysis
Setting: Chest Diseases Hospital, Kuwait
Subjects: Two hundred and eight patients with PSP
Intervention: Observation or tube thoracostomy
Main Outcome Measures: Recurrence of PSP with
reference to the following factors: age, sex, height,
BMI, smoking status, and type of primary treatment
Results: Recurrence of PSP occurred in 72 patients
with a recurrence rate of 34.6 percent. The majority
of recurrences occurred in the п¬Ѓrst year - 45 out of
72 (62.5%). PSP was eleven times more common in
men than in women. Female sex was associated with
higher recurrence rate. Ten out of 17 (58.8%) females
had recurrence whereas 62 out of 191 (32.5%) males
had recurrence (p = 0.02). The recurrence rate in
patients who continued to smoke and those who
stopped smoking was 53/144 (36.8%) and 2/18 (11%)
respectively (p = 0.03). However, no association could
be demonstrated between recurrence rate and age,
height, BMI and type of treatment.
Conclusion: Female sex and smoking behavior are
significant prognostic factors for future recurrences of
PSP
KEY WORDS: primary spontaneous pneumothorax (PSP), recurrence
INTRODUCTION
Pneumothorax is defined as the presence of gas in
the pleural space. A spontaneous pneumothorax is one
that occurs without antecedent trauma to the thorax.
Spontaneous pneumothorax can be divided into
primary spontaneous pneumothorax (PSP) occurring
in patients without clinically apparent underlying lung
disease and secondary spontaneous pneumothorax
(SSP) which is related to the presence of clinically
apparent underlying lung disease such as asthma,
COPD, diffuse parenchymal lung disease, AIDS, lung
cancer, etc.
PSP occurs usually due to rupture of apical pleural
blebs[1]. It is a common clinical problem with a reported
incidence of 7.4 - 28/100,000 per year for men and
1.2/100,000 per year for women[2]. The recurrence rate
after the п¬Ѓrst spontaneous pneumothorax is reported
between 23 and 54.2 percent[3-8] with a mean recurrence
rate of 30 percent[1]. Radiographic evidence of п¬Ѓbrosis,
asthenic habitus, female sex, a history of smoking, and
younger age have been reported to be independent
risk factors for recurrence[7-9].
The aim of this study was to evaluate the recurrence
rate of PSP in our experience and to determine the
various risk factors predisposing to the recurrence of
PSP with particular reference to age, sex, height and
BMI, smoking status and the type of primary treatment
employed.
PATIENTS AND METHODS
The study was conducted at the Chest Diseases
Hospital in Kuwait. A total of 254 patients with a
diagnosis of PSP were identified from a data-base
for the period from January 1999 to December 2002.
Forty six patients with a diagnosis of secondary
pneumothorax were excluded from the analysis.
The following data were collected: (1) age and sex,
(2) height and weight, (3) smoking status, (4) side of
pneumothorax, and (5) type of primary treatment.
The patients were followed up for a period of 30
to 54 months with a mean follow up period of 42
months. During the follow up period, details of
recurrence and changes in smoking status were
noted.
Address correspondence to:
Dr. Alia Al-Alawi, MBBcH, FRCP (C), FACP, Amiri Hospital, Kuwait, P.O. Box 3678- Mushrif, Kuwait 40190. Tel: (965) 2245-0005/ ext 3273
Mob: (965) 9905-6523, Fax: (965) 2244-7584, E-mail: aliamed@yahoo.com
December 2009
KUWAIT MEDICAL JOURNAL
The following definitions were employed:
PSP was defined as pneumothorax occurring in
an individual without underlying lung disease.
Secondary pneumothorax was defined as
pneumothorax occurring in patients with underlying
lung disease. Recurrence was defined as occurrence of
pneumothorax more than 30 days after the completion
of treatment in patients who had achieved full lung
expansion following the initial pneumothorax.
This study was approved by the local ethical
committee.
Statistical analysis
Data were expressed as mean В± SD; data analyses
were made using SPSS software windows version 8
packages (SPSS, Chicago, IL). The cut-off level for
statistical significance was a p-value of less than 0.05.
The unpaired Student’s t test was used to assess the
significance between the means of variables in the two
groups. The Pearson П‡2 test was used to ascertain the
significance of association between two categorical
variables. The χ2 test was replaced by Fisher’s
exact test if the cell frequencies of any of the 2 x 2
contingency table went below п¬Ѓve. The combined
effect of variables on the probability of recurrence
was modeled using logistic regression.
RESULTS
Two hundred and eight patients with PSP were
included in the study. This included 191 male and
17 female patients with a male : female ratio of 11:1.
Ages ranged from 16 to 46 years with a mean (SD) of
24.5 (5.8) years and the age distribution was similar
in both sexes. The height of the patients ranged from
105 to 195 cm with a mean of 170.7 cm. Pneumothorax
occurred on the right side in 118 patients (56.7%) and
on the left side in 90 patients (43.3%). One hundred
and sixty one patients (77.4%) were emergency
admissions. The initial treatment was chest tube in
194 patients (93.3%) and simple observation in 14
(6.7%). On entry into the trial, 162 patients (78%)
were smokers.
Two hundred and ninety п¬Ѓve episodes of PSP
occurred in 208 patients. PSP occurred once in
136 patients and was recurrent in 72 patients with
an overall recurrence rate of 34.6 percent. Sixty
patients (28.8%) experienced one recurrence, nine
(4.3%) experienced two recurrences and three (1.4%)
experienced three recurrences.
Factors affecting recurrence
An analysis of the effect on the risk of recurrence
showed that women had a significantly higher risk of
recurrence compared to men. Smoking cessation was
also found to be a predictor of recurrence (Table 1).
Age, height, BMI and mode of treatment were
289
Table 1: Primary risk factors in the recurrence of spontaneous
pneumothorax
Risk factor
Sex
Male
Female
Smoking status
Yes
No
Smoking cessation
Yes
No
Treatment
Observation
Chest tube
Side
Left
Right
Emergency
admission
Yes
No
Mean age (yrs)
Mean height (cm)
Mean BMI 19
Recurrence
n (%)
62 (32.5)
10 (58.8)
55 (33.9)
17 (36.9)
2 (11)
53 (36.8)
5 (35.7)
67 (34.5)
34 (37.8)
38 (32.2)
56 (34.7)
16 (34)
Yes
24.4
171.1
19
Odds
Ratio
95%
CI*
p-value П‡2
0.3
0.1 - 0.9
0.02
0.8
0.4 - 1.7
0.7
0.2
0.04 - 0.9
0.03
1
0.3 - 3.2
0.9
1.2
0.7 - 2.2
0.4
1
0.5 - 2
0.9
No
24.5
170.5
19.4
0.9 **
0.6 **
0.4 **
* Confidence Interval, ** t-test
not shown to have a significant effect on recurrence
(Table 1).
One hundred and sixty-two patients (78%) were
smokers on entry into the trial. Data on changes in
smoking habit were available for all 162 smokers.
Eighteen patients (11%) stopped smoking after their
first pneumothorax. This group had a significantly
lower recurrence rate (11% versus 36.8% for patients
who continued to smoke, p = 0.03, Table1). An analysis
of tabulation of recurrence by time showed that
smokers tend to develop recurrences earlier than nonsmokers and majority of recurrences occurred within
the п¬Ѓrst year. Recurrences in smokers were 39 in year
one, 10 in year two and six thereafter. In non-smokers,
six recurrences occurred in year one, six recurrences
occurred in year two and п¬Ѓve recurrences occurred
thereafter (p = 0.02).
A logistic regression model was п¬Ѓtted for probability
of recurrence with sex and smoking cessation. The
results are in keeping with the п¬Ѓnding that female sex
and smoking cessation are two predictors of recurrence
(Table 2). When account was taken of the number
of recurrences and the same variables were tested,
smoking status and age were found to significantly
affect recurrence (Table 3).
DISCUSSION
This study confirms that the recurrence rate of
PSP in our population (34.6%) is similar to that of
290
Recurrence of Primary Spontaneous Pneumothorax: Rate and Risk Factors
Table 2: Logistic regression model for recurrence
Variable
Regression
coefficient (B)
3.906
-1.126
-1.539
Constant
Sex
Smoking cessation
Odds ratio
16.1
0.324
0.215
p-value
0.001
0.03
0.04
Table 3: Primary risk factors in multiple recurrence of spontaneous
pneumothorax
Risk factors
Number of patients
No
one
2 or more
recurrence recurrence
recurrences
Sex
Male
Female
Smoking
Yes
No
Smoking cessation
Yes
No
Side
Left
Right
Treatment
Observation
Chest tube
Mean age
Mean height
Mean BMI
129.0
7.0
51.0
9.0
11.0
1.0
107.0
29.0
50.0
10.0
5.0
7.0
16.0
91.0
2.0
48.0
0.0
5.0
56.0
68.0
28.0
32.0
6.0
6.0
9.0
127.0
24.7
170.5
19.4
4.0
56.0
23.8
171.0
18.7
1.0
11.0
27.3
172.0
20.2
p-value
0.06
0.006
0.09
0.6
0.9
0.05
0.7
0.2
other populations[3-8]. A survey of several studies
showed that the mean recurrence rate of PSP treated
with observation, needle aspiration or chest tube was
30 percent (range 16 - 52%)[1]. Because the majority
of patients will never have a recurrence, a definitive
treatment to prevent recurrence is not advocated after
a single episode of PSP[10]. Exceptions to this rule are
patients with professional risks (e.g., divers, air pilots).
The rate of recurrence after the п¬Ѓrst recurrence has
been reported to be substantially higher with rates
ranging from 45 to 62 percent[6,8]. This would indicate
that after one recurrence serious consideration should
be given to achieving permanent pleurodhesis. The
rate of recurrence after a second pneumothorax in our
study (14.7%) is lower than that previously reported.
The majority of recurrences occur within six months
to two years[1] regardless of what treatment is used.
Majority of recurrences in our study occurred in the
п¬Ѓrst year.
All patients in the present study were young (age
less than 46 years). This is probably due to the fact that
patients with secondary spontaneous pneumothorax
were excluded from our study. This also confirms
the fact that PSP occurs most often in young adults
typically between the ages of 10 to 30 years[6].
PSP occurs predominantly in men. The male:
female ratio in our study was 11:1. This was confirmed
December 2009
previously in several studies with male:female ratio
ranging between 6:1 to 8:1[2,11].
Several studies have been performed concerning the
possible relationship between patient’s characteristics
and the development of recurrence of PSP. Smoking
was found to increase the relative risk of contracting a
п¬Ѓrst spontaneous pneumothorax approximately nine
fold among women and 22 fold among men[12]. Our
study supports the fact that smoking increases the risk
of contracting a п¬Ѓrst pneumothorax with 78 percent
of our patients being smokers on entry. Furthermore,
smokers tend to develop ipsilateral recurrence earlier
than non-smokers[7]. In another study, smoking
cessation did not decrease the incidence of PSP except
when patients had stopped smoking for at least one
year before their п¬Ѓrst pneumothorax[9]. Smoking
increases the risk of spontaneous pneumothorax and
smoking cessation has been shown to reduce the
recurrence rate[7,9] suggesting that the effect of smoking
on the pathogenesis of pneumothorax is reversible. The
effect of smoking cessation on the recurrence of PSP
was confirmed in our study. A plausible explanation to
the increased risk of pneumothorax in smokers is that
smoke related influx of neutrophils and macrophages
leads to degradation of elastic п¬Ѓbers in the lung leading
to formation of bullae. After bullae have formed,
inflammation-induced obstruction of small airways
increases alveolar pressure resulting in an air leak into
the lung interstitium. The air then moves to the hilum
causing pneumomediastinum[13].
Other independent risk factors for recurrence
of PSP were reported to be: patient’s physical
characteristics; age, female sex and pulmonary
п¬Ѓbrosis detected on chest radiographs[1,7,9]. However,
presence of blebs or bulla in patients with PSP has no
predictive value for recurrence[14]. As for risk factors
predisposing to recurrence, we found that females are
at a higher risk compared to men. This п¬Ѓnding was
previously reported in two studies[7,9]. Sadikot et al[7]
proposed that this higher rate of recurrence in women
is probably progesterone related with low levels
of progesterone induced by the cyclical hormonal
variation predisposing women to recurrence of PSP.
PSP tend to occur in tall thin persons with previous
studies showing the height/weight ratio[9] and the
height of male patients[7] to be predictors of recurrence.
We found that neither the patient’s height nor BMI
were related to the recurrence.
Although age was found to be a risk factor for
recurrence[9], other authors have been unable to show
a relationship between pneumothorax recurrence and
age[6,7]. Our study did not show age to be a risk factor
for recurrence.
Management of spontaneous pneumothorax
with tube drainage has not been shown to alter the
recurrence rate in this study and in the literature[7,15].
December 2009
KUWAIT MEDICAL JOURNAL
In fact, neither needle aspiration nor tube drainage
will have an influence on the natural course of PSP
because conditions in the pleural cavity will only be
slightly altered by the procedures[1]. Attitudes toward
the management of spontaneous pneumothoraces
have varied. This have led to the development of
management guidelines by the American College of
Chest Physicians in 2001[16] and by the British Thoracic
Society in 2003[17]. The guidelines agreed that a small
and asymptomatic п¬Ѓrst episode of PSP should be
observed for several hours, followed by discharge
from hospital when the patient is stable. A large or
symptomatic п¬Ѓrst episode of PSP should be treated
by an air evacuation technique. Since the minority of
patients with PSP has small pneumothoraces, most
patients are treated with invasive procedures[1]. This
is evident in our study as 93.3% of the patients were
treated with chest tube insertion.
CONCLUSION
Recurrence of PSP is not related to the age,
height, BMI and type of treatment initially used. It is
influenced by female sex and cessation of smoking. The
majority of recurrences occur in the п¬Ѓrst year. A better
understanding of the risk factors for the recurrence of
PSP will assist physicians in the selection of patients
for preventive treatment. To advocate prevention of
further attacks after the п¬Ѓrst attack of PSP in females is
a subject for a future large and randomized study.
ACKNOWLEDGMENT
This study was supported by a grant from the
Environment Public Authority.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
REFERENCES
1.
2.
3.
Schramel FM, Postmus PE, Vanderschueren RG.
Current aspects of spontaneous pneumothorax. Eur
Respir J 1997; 10:1372-1379.
Melton LJ 3rd, Hepper NG, Offord KP. Incidence
of spontaneous pneumothorax in Olmsted County,
Minnesota: 1950-1974. Am Rev Respir Dis 1979;
120:1379-1382.
Seremetis MG. The management of spontaneous
pneumothorax. Chest 1970; 57:65-68.
16.
17.
291
Voge VM, Anthracite R. Spontaneous pneumothorax
in the USAF aircrew population: a retrospective
study. Aviat Space Environ Med 1986; 57:939-949.
Verschoof AC, Ten Velde GP, Greve LH, Wouters
EF. Thoracoscopic pleurodesis in the management
of spontaneous pneumothorax. Respiration 1988;
53:197-200.
Primrose WR. Spontaneous pneumothorax: a
retrospective review of aetiology, pathogenesis and
management. Scott Med J 1984; 29:15-20.
Sadikot RT, Greene T, Meadows K, Arnold AG.
Recurrence of primary spontaneous pneumothorax.
Thorax 1997; 52:805-809.
Gobbel WG Jr, Rhea WG Jr, Nelson IA, Daniel RA.
Spontaneous pneumothorax. J Thorac Cardiovasc
Surg 1963; 46:331-345.
Lippert HL, Lund O, Blegvad S, Larsen HV.
Independent risk factors for cumulative recurrence
rate after п¬Ѓrst spontaneous pneumothorax. Eur
Respir J 1991; 4:324-331.
Baumann MH, Noppen M. Pneumothorax.
Respirology 2004; 9:157-164.
Neal JF, Vargas G, Smith DE, Akl BF, Edwards WS.
Bilateral bleb excision through median sternotomy.
Am J Surg 1979; 138:794-797.
Bense L, Eklund G, Wiman LG. Smoking and
the increased risk of contracting spontaneous
pneumothorax. Chest 1987; 92:1009-1012.
Sahn SA, Heffner JE. Spontaneous pneumothorax. N
Engl J Med 2000; 342:868-874.
Janssen JP, Schramel FM, Sutedja TG, Cuesta MA,
Postmus PE. Videothoracoscopic appearance of п¬Ѓrst
and recurrent pneumothorax. Chest 1995; 108:330334.
Harvey J, Prescott RJ. Simple aspiration versus
intercostals tube drainage for spontaneous
pneumothorax in patients with normal lungs. British
Thoracic Society Research Committee. BMJ 1994;
309:1338-1339.
Baumann MH, Strange C, Heffner JE, et al.
Management of spontaneous pneumothorax: an
American College of Chest Physicians Delphi
consensus statement. Chest 2001; 119:590-602.
Henry M, Arnold T, Harvey J. Pleural Diseases
Group, Standards of care committee, British Thoracic
Society. BTS guidelines for the management of
spontaneous pneumothorax. Thorax 2003; 58:Sii39ii52.
292
KUWAIT MEDICAL JOURNAL
December 2009
Original Article
Diagnostic Significance of Tissue Doppler Imaging
in Patients with Acute Inferior Myocardial Infarction
and Precordial ST Segment Depression
Mousa AJ Akbar1, Ahmad Ali Al-Dousary2, Saleh El-Enezy2, Ali Hegazy2
1
Department of Medicine, Sabah Hospital, Kuwait
2
Department of Medicine, Farwania hospital, Kuwait
Kuwait Medical Journal 2009; 41 (4): 292-301
ABSTRACT
Objectives: To evaluate patients presenting with acute
inferior myocardial infarction (IMI) and ST segment
depression in the chest leads and to identify patients with
anterior ischemia from those with reciprocal ECG changes
using Tissue Doppler Imaging (TDI) derived variables
Design: Cohort observational study
Setting: Department of Medicine, Sabah and Farwania
Hospitals, Kuwait
Subjects: One hundred and п¬Ѓfty patients with acute ST
segment elevation IMI, stratified into: Group I: 105 patients
with acute IMI and precordial ST segment depression and
Group II: 45 patients with acute IMI without precordial ST
segment depression.
Interventions: Transthoracic echocardiography with TDI
and coronary angiography
Results: Predictive indices revealed that impaired
Systolic velocity (Sm) is a predictor for coronary artery
stenosis in the non-infarcted region. Sensitivity was 86%,
specificity 80%, accuracy 84%, positive predictive value
88% and negative predictive value 77%. Multivariate
logistic analysis revealed that the site and persistence of
ST-segment depression, ST-depression > 2 mm, coronary
collaterals, left circumflex coronary artery dominance and
0.2 SWM score index increment are significantly associated
with impaired Sm velocity of TDI corresponding to
anterior non-infarct region, (p < 0.05). Receiver operating
characteristic (ROC) curve data revealed that the best cutoff value of Sm was 7.1 cm/sec with sensitivity 86%, false
positive 17%, positive likelihood ratio 4.78 and negative
likelihood ratio 0.160 for prediction of likelihood of
multivessel coronary artery disease.
Conclusion: TDI can be used to identify patients with
likelihood of significant coronary artery disease in the
non-infarcted region after acute IMI.
KEY WORDS: acute inferior myocardial infarction, tissue Doppler imaging
INTRODUCTION
Echocardiography has evolved as a well- established
tool for the non-invasive evaluation of regional and
global myocardial function[1]. Tissue Doppler Imaging
(TDI) is a new ultrasound technique that uses shifts
in Doppler frequencies for quantifying myocardial
motion[2]. As it does not depend on the amplitude of
the reflected wave, it is possible to get information
regarding myocardial wall motion from an area that
may not have satisfactory gray scale information on 2D
echocardiography[3]. During its initial application, TDI
was limited to real time visualization of only a single
myocardial segment. Currently, TDI has evolved into
a useful technique for quantifying the nature and the
extent of myocardial dysfunction in several diseased
states[4].
The overall function of the left ventricle depends
on a normal contraction of the longitudinal and
circumferentially
oriented
myocardial
п¬Ѓbers.
Quantification of the left ventricular function in the
longitudinal axis may be clinically relevant since
the contraction in this direction is mainly due to
subendocardial п¬Ѓbers. In particular, in case of ischemia
which specifically alters subendocardial layers,
п¬Ѓrst abnormalities of wall motion will appear in the
longitudinal axis. As the apex of the heart remains
remarkably stationary, long axis changes are reflected
in movements of the base of the heart[5,6].
In 1980, Shah et al[7] п¬Ѓrst reported that precordial ST
segment depression was a marker for increased risk in
patients with an inferior myocardial infarction (IMI).
Three potential etiologies for precordial ST segment
depression have been proposed: 1) that it represent
purely reciprocal changes resulting from inferior
ST segment elevation; 2) that it results from inferior
myocardial ischemia during an inferior infarction,
Address correspondence to:
Mousa AJ Akbar, Department of Medicine, Sabah Hospital, Kuwait. E-mail: mousaakbar@hotmail.com
December 2009
KUWAIT MEDICAL JOURNAL
and thus is a marker for multi-vessel coronary artery
disease; and 3) that it results from a more extensive
inferior infarction involving the posterolateral wall or
the right ventricle, or both[8].
The aim of the study was to investigate the value
of pulsed-TDI to predict significant coronary artery
stenosis supplying the non-infarcted region and the
likelihood of multi-vessel disease in the patients with
acute ST segment elevation IMI.
SUBJECTS AND METHODS
Study patients:
One hundred and п¬Ѓfty patients with ST segment
elevation acute anterior myocardial infarction were
included. All patients were admitted by their physicians
to the coronary care unit (CCU) from January 2000 to
August 2004. All patients were evaluated clinically
by looking at history, physical examination, 12lead ECG, plain chest X-ray and routine laboratory
investigations.
Exclusion criteria included patients with rheumatic
heart disease, mitral valve prolapse, previous
myocardial infarction, intraventricular conduction
disturbances, atrial fibrillation, atrial flutter, acute
pulmonary edema, mitral regurgitation and patients
with contraindications to thrombolytic therapy. None
of the patients had a revascularization procedure
before the qualifying myocardial infarction.
Exclusion was based on: medical history, physical
examination and a 12-lead ECG.
Thrombolytic therapy
Forty eight patients received streptokinase
intravenous infusion (1.5 million U over 60 minutes)
followed by heparin IV infusion. Patients with history
of previous use of streptokinase were excluded. One
hundred and two patients were treated with 100 mg
of rt-PA administered intravenously over 90 minutes.
Immediately before the initiation of rt-PA therapy,
an intravenous bolus of 5000 IU of heparin was
administered and followed by continuous infusion of
1000 IU / h for at least п¬Ѓve days. Aspirin was given on
admission to CCU at a daily dose of 100 mg.
Cardiac enzymes
Blood samples were obtained every eight hours
during the 1st 24 h and once daily from the second day
for determination of total serum creatine kinase (CK),
MB isoenzyme (CK-MB) fraction and troponin I.
Electrocardiogram
Standard 12-lead ECG was recorded on admission
to CCU and every three hours thereafter during the 1st
24 h after admission. Beyond the 1st 24h, a 12-lead ECG
was recorded daily throughout the hospital stay. All
ECGs were recorded with identical (marked) positions
of the chest leads. Voltage criteria for diagnosis of
293
acute IMI was the presence of new > 0.2 mV (> 2 mm)
ST segment elevation in leads II, III and aVF.
Transthoracic echocardiography
Transthoracic echocardiography was performed
with the use of GE vivid 7 and a 3.5 MHZ phased
array transducer. The leading edge to leading edge
convention was used. Left ventricular dimensions
were measured at or immediately below the tips of
mitral leaflets and averaged over five heart cycles. Left
ventricular end-diastolic volume, end-systolic volume
and ejection fraction were determined from apical two
and four chamber views using the SimpsonМЃs formula.
Tracing of endocardial borders in end-diastole and
end-systole was performed in the technically best
cardiac cycle. Left ventricular segmental wall motion
score index was calculated. Wall motion for each
segment was graded as normokinesia 1, hypokinesia
2, akinesia 3 and dyskinesia 4. Wall motion score
index was calculated by summing the scores for each
segment and dividing by the number of analysed
segments[9].
Pulsed mitral inflow Doppler and color-coded
Doppler was obtained from the standard apical four
chamber view. The transducer was then manipulated
to obtain the maximal flow velocity as assessed by
the auditory and spectral outputs. The Doppler
measurements were made during at least three cardiac
cycles using the darkest part of the spectral recording
and were then averaged.
Pulsed-Tissue Doppler imaging pattern during sinus
rhythm
A normal TDI pattern consists of three major
signals: a single systolic signal (Sm) and two distinct
signals in early (Em) and late (Am) diastole, timed
by the onset of early inflow and atrial contraction,
respectively. During isovolumetric contraction time
(IVCTm) and isovolumetric relaxation time (IVRTm),
the displayed , smaller biphasic signals are presumed
to be the result of brief geometrical changes that occur
in the LV (induced by different timing of long-axis
and circumferential axis dynamics and by ventricular
interdependence[10,11].
The peak TDI-derived velocities (Sm, Em &
Am) were measured at six mitral annular sites
corresponding to different regions of left ventricle. The
following measurements were taken: two-chamber
view to detect velocities at two sites corresponding to
the anterolateral and inferior regions, 3-chamber view
to detect velocities at two sites corresponding to the
anterior septum and posterior regions and 4-chamber
view to detect velocities at two sites corresponding to
posterior septum and posterolateral regions. Infarcted
regions including myocardial posterior septum, and
inferior regions were considered to belong to the
perfusion territory of the dominant right coronary
294
Diagnostic Significance of Tissue Doppler Imaging in Patients with Acute Inferior ...
artery or dominant circumflex coronary artery.
Non-infarcted regions (study region) included the
anterior septum, and anterolateral regions of the heart
myocardium. Posterolateral and posterior regions
were considered to belong to the perfusion territory
of the circumflex coronary artery. Anterior septum
and anterolateral region were regarded as perfused
by the left anterior descending coronary artery[12].
For each region, we selected the lowest TDI-derived
variables to have a single variable. The cut-off values
of TDI-derived variables were calculated as median
of reference group В± 2SD. Impaired TDI-derived
variables are Sm , Em velocities and Em / Am ratio
less than median of the reference group + 2SD, and
Am velocity more than the median of reference group
-2SD.
Study Design
There were two main groups in the study
Control group (Reference group): included 47
subjects with normal stress perfusion scintigraphy
and normal coronary angiogram to get normal
standard values of TDI variables. The cut-off value
was calculated as median of the reference group В±
2SD. The cut-off value of Sm was < median - 2SD, Em
was < median - 2SD, Am was > median + 2SD and Em
/ Am ratio was < median - 2SD.
Patient sample
One hundred and п¬Ѓfty patients with acute IMI
stratified into two groups were included.
Group I: one hundred and п¬Ѓve patients with acute
ST segment elevation IMI and precordial ST segment
depression
Group II: forty-п¬Ѓve patients with acute ST
segment elevation IMI without precordial ST segment
depression
Coronary angiography
Coronary stenoses were quantified visually to
detect the extent and severity of the coronary lesions.
The luminal narrowing of > 50% was considered a
hemodynamically significant coronary artery lesion.
Statistical analysis
Continuous variables are summarized as mean В±
standard deviation (SD). Comparison between two
groups was performed using t-test for continuous
variables and chi-square test for categorical variables.
A p-value < 0.05 was considered statistically significant
and a p-value < 0.01 was considered statistically highly
significant. A stepwise multivariate regression model
was used to identify possible independent variables
associated with impaired TDI of mitral valve annulus
corresponding to the non-infarcted region. The
strength of the association with impaired TDI of mitral
December 2009
valve annulus corresponding to the non-infarcted area
is presented as 95% confidence intervals. Potential
confounding of clinical variables was entered as
independent variables.
The validity of systolic velocity (Sm) of TDI at
mitral valve annulus after acute myocardial infarction
to detect severity of coronary artery stenosis in the
non-infarcted region was assessed by estimating the
predictive indices and Kappa coefficient to determine
the overall agreement with the data obtained from
coronary angiography.
Kappa coefficient value (k) = (Observed frequency
of agreement – Expected frequency of agreement) /
(Total observed – Expected frequency of agreement).
Predictive indices
True positive (TP), true negative (TN), false positive
(FP), false negative (FN), sensitivity, specificity,
accuracy, positive predictive value and negative
predictive value were calculated.
Receiver operating characteristic (ROC) curve
(grade of sensitivity versus false positive) was used
to identify the sensitivity and false positive of certain
values of the variable with area under curve and
probability of error with sensitivity 100% to detect
usefulness of TDI-derived variables at mitral valve
annulus after acute myocardial infarction for prediction
of severity of coronary artery stenosis at the noninfarcted region. ROC was calculated using likelihood
ratio method. Likelihood ratio +ve = sensitivity/1specificity and likelihood ratio -ve = 1-sensitivity/
specificity. The best cut-off point should be close to the
top left hand corner of the graph: high detection rate
with low false positive rate.
The agreement between the measurements was
determined according to the method of Bland and
Altman[13] and expressed as the mean of the differences
between two observations В± 2SD of the differences
(coefficient of repeatability or variation). With low
variability, the mean of the differences should approach
zero and the coefficient of variation should be small.
RESULTS
Clinical characteristics
With regards to the age of the patients, there was
no significant difference between both groups of the
study (53.38 В± 4.21 versus 48.9 В± 4.33 years, respectively,
p < 0.13). There was no significant difference between
both groups as regards the gender (94 (89.6%) versus
40 (89%) males, p < 0.10 and 11(10.4%) versus 5 (11%)
females, p < 0.09 respectively). There was no significant
difference between both groups regarding a percentage
of patients with history of smoking, hypertension,
diabetes mellitus and hypercholesterolemia (43 (40%)
versus 16 (35.5%) patients, p < 0.12, 30 (28%) versus
11(24%) patients p < 0.10, 20 (19%) versus 9 (20%)
December 2009
KUWAIT MEDICAL JOURNAL
patients, p < 0.08 and 19 (18%) versus 6 (13%) patients,
p < 0.19) respectively. There was no significant
difference in the heart rate on admission and the
systolic and diastolic blood pressure between the
patients of both groups (98.15 В± 6.63 versus 89.5 В± 7.92
beat / minute, p < 0.10, 136.6 В± 11.63 versus 128.29 В±
8.31 mmHg, p < 0.14 and 90.7 В± 4.30 versus 89.41 В± 7.14
mmHg, respectively, p < 0.28).
Presenting ECG
The ECG of all patients from both groups showed
sinus rhythm without ectopics and intraventricular
conduction defects. There was no significant difference
between both groups of the study as regards the
electrical axis deviation, PR interval and heart rate
corrected QT interval (+36Вє В± 8.2Вє versus +46Вє В± 9.4Вє,
p < 0.08, 144.1 В± 13.9 versus 139.4 В± 8.5 msec, p < 0.16,
and 345.3 В± 13.8 versus 367.6 В± 11.4 msec, p < 0.19,
respectively). All patients presented with ST segment
elevation > 2 mm in the leads II, III and avF.
Forty one patients in group I had ST segment
depression in V1 to V4 leads and 34 patients had ST
segment depression in V5 and V6. Thirty patients had
ST segment depression in lead V3 to V5.
There was a non-significant difference between
both groups as regards ST segment elevation in the
inferior leads on admission (3.14 В± 1.23 versus 2.72 В±
1.41 mm, p < 0.12).
ECG after thrombolysis
There was a non-significant difference between
both groups as regards ST segment elevation after
thrombolysis (1.3 В± 0.5 versus 1.6 В± 0.7 mm, p < 0.10).
No significant change was seen in the ECG as regards
electrical axis deviation, QT interval, QT dispersion
and thrombolysis between both groups. No patients
had new left or right bundle branch block after
thrombolysis in both groups. Only 16 (15%) patients
in group I and nine (20%) patients in group II had
persistent ST segment elevation > 2 mm at time of
transfer to chest hospital for coronary angiography (p
< 0.13).
Coronary angiography
There were 61 (58%) patients in group I who
had dominant right coronary artery versus 29 (65%)
patients in group II (p = NS) and there were 44 (42%)
patients who had dominant circumflex coronary
artery in group I versus 16 (35%) patients in group II
(p = NS). There was no significant difference in the
residual coronary stenosis of the infarct related artery
in patients from both groups (60.9 В± 15.1% versus 65.4
В± 12.2%, p < 0.05).
There was a significant decrease in the number
of patients with single vessel disease in patients
of group I than those of group II (26 (25%) versus
30 (66%), p < 0.05) but there was a significant increase
295
Table 1: Coronary angiography in both groups of the study
Variables
Culprit lesion of infarct
related artery n (%)
Proximal left circumflex
artery n (%)
Proximal right coronary
artery n (%)
Single vessel disease n (%)
Two vessel disease n (%)
Three vessel disease n (%)
Residual coronary
stenosis-IRA (%)
Coronary artery at noninfarct region (%)
Coronary collaterals n(%)
Group I
n = 105
Group II
n = 45
p-value
44 (42)
16 (35)
NS
61 (58)
29 (65)
NS
26 (25)
50 (48)
29 (37)
30 (66)
12 (27)
3 (7)
NS
< 0.05
< 0.05
60.9 В± 15.1
65.4 В± 12.2 NS
75.2 В± 4.52
35 (33)
62.5 В± 5.31 < 0.05
11 (24)
NS
IRA = infarct related artery, n = number of patients
in number of patients who had two vessel disease and
those who had three vessel disease in patients of group
I than those of group II (50 (48%) versus 12 (27%), p <
0.05 and 29 (37%) versus 3 (7%), p < 0.05 respectively).
There was a significant coronary artery lesion of the
non-infarcted region in patients from group I than
those of group II (75.2 В± 4.52% versus 62.5 В± 5.31%,
p < 0.05). As regards coronary collaterals, there was
a non-significant difference in the percentage of the
patients between both groups (35 (33%) versus 11
(24%), respectively, p = NS, Table 1).
Echocardiography and Doppler study
There was a non-significant difference as regards
the left ventricular end-systolic dimension and left
ventricular ejection fraction in patients of both groups
(44.2 В± 3.2 versus 46.1 В± 2.6 mm, p = NS and 50.3 В± 3.6
versus 55.7 В± 5.3%, p = NS), respectively). But there
was a significant decrease in left ventricle segmental
wall motion score index in patients from group I
than those of group II (1.92 В± 0.31 versus 1.31 В± 0.43,
respectively, p < 0.05).
Reference group
The median value (В± SD) of Sm of TDI was 9.8 В±
1.23 cm/sec, median value of Em = 11.63 В± 1.14 cm /
sec, median value of Am = 7.88 В± 0.69 cm / sec and Em
/ Am ratio = 1.47 В± 0.21. The pulsed-Doppler derived
mitral valve diastolic flow velocities indicated that the
median value of E velocity was 158.41 В± 23.12 cm / sec,
the median value of A velocity = 89.58 В± 21.35 cm / sec
and the median value of E / A ratio = 1.76 В± 0.54
Study group
The cut-off value of Sm was < median-2SD = < 7.37
cm / sec, Em was < median - 2SD = < 9.35 cm / sec,
Am was > median + 2SD = > 9.26 cm / sec and Em /
Am ratio was < median - 2SD = 1.05.
There was a significant decrease in Em velocity,
Em/Am ratio and systolic contraction velocity (Sm) in
296
Diagnostic Significance of Tissue Doppler Imaging in Patients with Acute Inferior ...
Fig. 1: Impaired and normal tissue Doppler imaging in patients of
both groups as regards the presence or absence of coronary artery
disease(CAD) at the anterior non-infarcted region.
Table 2: Parameters of pulsed-TDI of mitral valve annulus in
both groups
Variables
Em (cm/sec)
Am (cm/sec)
Em/Am ratio
Sm (cm/sec)
Group I
Group II
N = 105
N = 45
6.8 В± 1.3
11.9 В± 2.4
0.57 В± 0.09
7.2 В± 1.5
11.2 В± 2.4
8.6 В± 1.6
1.34 В± 0.16
9.8 В± 0.6
p-value
<0.01
<0.01
<0.01
<0.05
Em: Two distinct signals in early diastole; Am : Two distinct
signals in late diastole; Sm: Single systolic signal
the patients from group I than those of group II (6.82 В± 1.3
versus 11.2 В± 2.4 cm/sec, 0.57 В± 0.09 versus 1.34 В± 0.16
and 7.2 В± 1.5 versus 9.8 В± 0.6 cm/sec, respectively,
p < 0.01), but there was a significant increase in Am
velocity in patients of group I than those of group II
(11.9 В± 2.4 versus 8.6 В± 1.6 msec, p < 0.05, Table 2).
Out of 79 patients in group I who had significant
coronary artery disease supplying the non-infarcted
region, there were 70 (88.6%) patients who had
impaired TDI versus nine (11.4%) patients who
had normal TDI (p < 0.01). But out of 26 patients in
group I who had normal coronary artery in the noninfarcted region, there were three (11.6%) patients
who had impaired TDI versus 23 (88.4%) patients
who had normal TDI (p < 0.05). Out of 15 patients in
group II who had significant coronary artery disease,
there were 11 (73.3%) patients who had impaired TDI
versus four (26.7%) patients who had normal TDI (p <
0.05). Out of 30 patients in group II who had normal
coronary artery in the non-infarcted region, there were
eight (27%) patients who had impaired TDI versus 22
(73%) patients who had normal TDI (p < 0.05, Fig. 1).
Out of 48 patients who had ST depression in V1-V3,
there were 38 (79%) patients who had impaired TDI
December 2009
Fig. 2: Impaired and normal tissue Doppler imaging in patients of
group I as regards ST depression in the chest leads
in the non-infarcted region versus nine (21%) patients
who had normal TDI (p < 0.05), and out of 30 patients
who had ST segment depression in V3-V5, there were
10 (33%) patients who had impaired TDI versus 16
(67%) patients who had normal TDI, (p < 0.05). But
out of 27 patients who had ST segment depression in
V5-V6, there were 21 (77%) patients who had impaired
TDI versus six (23%) patients who had normal TDI (p
< 0.05, Fig. 2).
There was a non-significant decrease in systolic
velocity of TDI at the infarcted region as compared
with systolic velocity (Sm) of TDI at the anterior noninfarcted region in patients of group I (5.9 В± 1.2 versus
7.3 В± 1.5 cm / sec, respectively, p = NS), but there was
a significant decrease in systolic velocity of TDI at the
infarcted region as compared with systolic velocity of
TDI at the anterior non-infarcted region in patients of
group II (6.2 В± 1.4 versus 9.7 В± 0.6 cm / sec respectively,
p < 0.05). There was a non-significant difference
between systolic velocity (Sm) of TDI at the infarcted
region between both groups (5.9 В± 1.2 versus 6.2 В± 1.4
cm / sec respectively, p = NS).
There were no patients in both groups who
developed mechanical complications such as
pericardial effusion, cardiac tamponade, ventricular
septal defect or intracardiac thrombus.
Forward stepwise logistic analysis:
Multivariate analysis revealed that impaired TDIderived variables at anterior non-infarcted region after
acute IMI are significantly associated with the +10
year increment in the age of the patients (p < 0.05), the
site of ST segment depression (V1-V4 and V5-V6, p <
0.05), left circumflex coronary artery dominance (p <
0.05), persistence of ST segment depression (> 12 hour
December 2009
KUWAIT MEDICAL JOURNAL
297
Table 3: Stepwise logistic multivariate analysis of patients with Vs without impaired TDI of mitral valve annulus corresponding to noninfarcted region as regards independent variables
Independent Variables
Age
5-year increment
10-year increment
Gender
Male
Female
Diabetes mellitus status
Yes
No
Hypercholesterolemia
Yes
No
Residual IRA coronary stenosis
< 50%
> 50%
Coronary artery dominance pattern
RCA dominance
LCX coronary artery dominance
Site of ST segment depression
V1-V4
V3-V5
V5-V6
Persistence of ST depression
< 12 hour after thrombolysis
> 12 hour after thrombolysis
ST depression > 2 mm
Yes
No
Coronary collaterals status
Present
Absent
SWM Score Index
0.1 score index increment
0.2 score index increment
Coefficient
p-value
Odds Ratio
95% CI
0.0629
0.1232
NS
< 0.05
0.598
1.653
0.174 - 1.031
1.051 - 2.287
0.0629
0.0654
NS
NS
0.732
0.728
0.204 - 1.331
0.121 - 1.215
0.0629
0.0754
NS
NS
0.624
0.516
0.170 - 1.134
0.121 - 1.082
0.0218
0.0429
NS
NS
0.878
0.539
0.125 - 1.417
0.192 - 1.088
0.0713
0.0553
NS
NS
0.628
0.831
0.141- 1.196
0.122 - 1.574
0.0342
0.3171
NS
< 0.05
0.518
1.692
0.129 - 1.091
1.276 - 2.293
0.1581
0.0821
0.1497
< 0.05
NS
< 0.05
1.743
0.552
1.511
1.182 - 2.390
0.195 - 1.129
1.059 - 2.088
0.0523
0.3723
NS
< 0.05
0.638
1.655
0.147 - 1.211
1.041 - 2.207
0.1607
0.0363
< 0.05
NS
1.753
0.712
1.243 - 2.567
0.167 - 1.289
0.2057
0.0628
< 0.05
NS
1.599
0.876
1.205 - 1.912
0.139 - 1.487
0.0674
0.1862
NS
< 0.05
0.753
1.599
0.159 - 1.429
1.196 - 1.953
Number of observations =150, IRA = infarct related artery; RCA = right coronary artery; LCX = left circumflex; SWM Score Index = segmental
wall motion score index
after thrombolysis, p < 0.05), ST segment depression
> 2 mm, p < 0.05), presence of coronary collaterals
(p < 0.05), the +0.2 increment in the segmental wall
motion score index (p < 0.05). The analysis also
revealed that diabetes mellitus status (yes or no),
hypercholesterolemia (yes or no), residual stenosis of
infarct related coronary artery (> 50% or < 50%), the
site of ST segment depression (V3-V5), persistence of
Table 4: Agreement of the coronary angiogram and the systolic
velocity of TDI at mitral valve annulus corresponding to anterior
non-infarcted region as regards the prediction of significant coronary
artery stenosis supplying the non-infarcted region
Significant
coronary artery
stenosis (> 50%)
n
Coronary artery
stenosis < 50% or
normal coronary
n
Impaired systolic
velocity of TDI
81
11
92
Normal systolic
velocity of TDI
13
45
58
Total
94
56
150
Kappa Coefficient value (k) = 0.741
Total
n
ST segment depression (< 12 hour after thrombolysis),
ST segment depression < 2 mm and the right coronary
artery dominance pattern are not associated with
impaired TDI-derived variables at anterior noninfarcted region after acute IMI (p = NS, Table 3).
Agreement and reliability
Table 4 shows that there was an agreement between
angiographically documented coronary artery stenosis
and systolic velocity of TDI with Kappa coefficient (K)
= 0.741. The predictive indices showed that impaired
systolic velocity of TDI is valid for prediction of patients
with significant coronary artery disease supplying the
non-infarcted region as sensitivity was 86%, specificity
80%, accuracy 84%, positive predictive value 88% and
negative predictive value 77% (Table 5).
Receiver operating characteristic (ROC) curve
The best cut-off value of Sm velocity to predict
significant coronary artery disease was 7.1 cm/sec
at 86% sensitivity and 83% specificity (the maximum
sensitivity and maximum specificity near to the left
diagonal), with 32% probability of error at 100%
298
Diagnostic Significance of Tissue Doppler Imaging in Patients with Acute Inferior ...
December 2009
Table 5: Indices of ECHO and Doppler derived variables for prediction of significant coronary stenosis supplying the non-infarcted anterior
region
Variables
TP
TN
FP
FN
Sen %
Spec %
Acc %
PPV %
NPV %
Impaired Sm velocity of TDI
Reduced Em/Am ratio of TDI
81
74
45
32
11
25
13
24
86
75
80
56
84
66
88
74
77
57
TP = true positive, TN = true negative, FN = false negative, FP = false positive, Sen = sensitivity, Spec = specificity, Acc = accuracy, PPV =
positive predictive value, NPV = negative predictive value, TDI = tissue Doppler imaging
Fig. 3: Receiver operating characteristic (ROC) curve data of
systolic velocity of TDI for prediction of the significant (> 50%)
coronary artery disease: 100% sensitivity has 32% error. Best cutoff value = maximum sensitivity and maximum specificity near
the left diagonal
Fig. 4: Receiver operating characteristic (ROC) curve data of diastolic
velocities of TDI for prediction of the significant (> 50%) coronary
artery disease: 100% sensitivity has 42% error for (Em) and 100%
sensitivity has 48% error for (Am)
sensitivity and the area under curve was 0.849 (Fig.
3). The ideal cut-off value of Em and Am velocities to
predict significant coronary artery disease was 6.2 cm
/ sec at 85% sensitivity and 82% specificity and 12.3
cm / sec at 75% sensitivity and 73% specificity, with 42
and 48% probability of error at 100% sensitivity and the
area under curve was 0.832 & 0.764, respectively (Fig.
4). The ideal cut-off value of Em / Am ratio to predict
significant coronary artery disease was 0.54 at 81%
sensitivity and 78% specificity, with 44% probability
of error at 100% sensitivity and the area under curve
was 0.809 (Fig. 5). Table 6 showed that the positive
likelihood ratio of Sm variable was higher than other
variables (4.78 versus 4.382, 2.70 & 3.69 respectively)
and the negative likelihood ratio of Sm variable was
lower than other variables (0.160 versus 0.189, 0.358 &
0.262 respectively).
Fig. 5: Receiver operating characteristic (ROC) curve data of Em /
Am ratio of TDI for prediction of significant (> 50%) coronary artery
disease: 100% sensitivity has 44% error
Reproducibilty
There was no significant difference in inter-observer
variability and intra-observer variability as regards
the measurement of systolic and diastolic velocities of
TDI (p = NS) and there was a good agreement between
measurements of TDI parameters by both observers
December 2009
KUWAIT MEDICAL JOURNAL
299
Table 6: Receiver operating characteristic curve data to define the ideal cut-off values of the systolic and diastolic variables of TDI for
prediction of significant coronary artery stenosis (> 50%) at the non-infarcted region
Variables
Sm velocity
Em velocity
Am velocity
E/A ratio
Ideal cut-off values
7.1 cm / sec
6.2 cm / sec
12.3 cm / sec
0.54
Sensitivity
%
Specificity
%
86
85
75
81
83
82
73
78
False positive
%
17
18
27
22
Likelihood
Ratio +ve
4.78
4.38
2.70
3.69
Likelihood
Ratio -ve
0.160
0.189
0.358
0.262
Note: The ideal cut off value: high detection rate (sensitivity) with low false positive; false positive =1-specificity
as the > 95% of the measurements were between the
upper and lower limits of agreement (mean + 2SD &
mean – 2SD).
DISCUSSION
Myocardial ischemia alters regional contraction
and relaxation. These alterations can be quantified
by tissue velocity imaging. Our results revealed that
TDI derived velocity (Sm) is an independent variable
to predict the likelihood of multi-vessel coronary
artery disease in patients with acute IMI with the
highest positive likelihood ratio and the least negative
likelihood ratio and this is in agreement with the
results of Derumeaux et al[14]. They studied the patterns
of tissue velocity profile during graded ischemia in an
animal model and observed that ischemia resulted in
rapid reduction of systolic velocity and early diastolic
velocity. Within п¬Ѓve seconds of occlusion of the left
anterior descending (LAD) artery, a 46% reduction in
systolic velocity was seen. There was a good correlation
between decrease of systolic velocity and regional
myocardial flow. Pislaru et al[15] and Edvardsen et al[16]
reported that myocardial velocities could estimate the
myocardial perfusion and therefore, is valid in the
situation of ongoing ischemia.
Regional function is dependent on the number of
normally functioning myocytes and is reduced with
myocyte necrosis and replacement п¬Ѓbrosis. Ischemia
and hypoxia may alter systolic and diastolic myocardial
function. It is also dependent on the adrenergic nervous
system and the circulating catecholamines, which play
an important role in regulating the myocardial inotropic
and lusitropic states at rest and with exercise[17]. Shan
et al[17] reported that systolic myocardial velocity
and Em are strongly dependent on both the number
of myocytes and the myocardial beta-adrenergic
receptor density. There is a mechanical disadvantage
imposed by the ischemic myocardium on the normal
myocardium as asynchronous and opposite direction
of motion results in wastage of energy developed in
the normal region[18,19].
We found a significant inverse correlation between
the coronary artery stenosis and DTI-derived
velocities (Sm and Em) at the non-infarcted region
but we have shown that the TDI-derived velocity
(Am) had no significant correlation with the coronary
artery disease. These observations support the active
ventricular myocardium contribution to Sm and Em
and suggest that Am is perhaps reflective of passive
ventricular motion or maybe more dependent on atrial
myocardium function.
Plazak et al[20], found that wall motion score index
was normal both before PTCA, after PTCA and during
re-stenosis, but re-stenosis in patients after PTCA was
manifested by renewed decrease of systolic myocardial
velocity in ischemic segments. Smiseth et al[21],
concluded that TDI can be recommended for clinical
use for diagnosis of coronary artery disease. Lin et al[22]
concluded that pulsed wave TDI technique provides
objective quantitative information for identification of
multi-vessel or left circumflex coronary artery stenosis
(> 50%) in patients with chest pain but without apparent
wall motion abnormalities on echocardiography.
We found that there were 11 patients who had
normal coronary angiogram of the arteries supplying
the anterior non-infarcted region with impaired TDI
at the same region. This is explained by a mechanical
disadvantage imposed by the ischemic myocardium
on the normal myocardium as the asynchronous and
opposite direction of motion results in wastage of
energy developed in the normal region and possibly
impairment in coronary blood flow reserve[23-25].
Our results revealed that a subgroup of patients in
group I with ST depression in V3-V5 had less impaired
TDI-derived Sm as compared with other subgroups of
patients. Most patients from this subgroup (27 out of
30 patients, 90%) had RCA dominance and logistic
analysis revealed that RCA dominance and the site
of ST depression in V3-V5 are not associated with
impaired TDI-derived Sm.
Previous investigators have put forth a number
of explanations for precordial ST segment depression
during an IMI. Researchers have proposed that
precordial ST segment depression is purely an ECG
consequence of ST segment elevation in the inferior
limb leads, without physiological importance[26-28].
Others have proposed that precordial ST segment
depression during IMI signifies anterior wall ischemia
and thus is a marker of left anterior descending
coronary artery or multi-vessel disease[29,30].
Methodological consideration
The method used in this study provides reliable,
non-invasive and a valid technique to diagnose
300
Diagnostic Significance of Tissue Doppler Imaging in Patients with Acute Inferior ...
patients with multiple vessel disease after acute
myocardial infarction, and it can be reproduced. This
is in agreement with the results of Moladoust et al[31].
However, Gjesdal et al[32] and Becker et al[33], found that
ultrasound speckle tracking is valid for the detection
of ischemic and reperfused myocardial regions.
Derumeaux et al[34], reported that strain rate imaging
study is a reliable method to determine myocardial
alterations in senescent mice.
Confounders
With regards to coronary collaterals, there was a
significant increase in the number and percentage of
patients in the group I compared with those of group
II, and this may confound the results. The reperfusion
injury after thrombolytic therapy in successful
revascularization may also confound the results.
Limitations of this study
• Relatively small number of patients.
• Echocardiography study was done after
thrombolytic therapy. Therefore, it is difficult
to study the effect of thrombolysis on TDI at
infarcted and non-infarcted regions.
• Evaluation of percentage coronary stenosis
should have been done quantitatively and not
qualitatively, specifically, for most of the patients
with > 50% lesions.
• Myocardial contrast echocardiogram was not
done as it detects myocardial blood flow and
perfusion.
• Body weight was not assessed. Therefore, it is
difficult to study the effect of obesity on TDIderived variables at the non-infarcted regions.
Tumuklu et al, reported that obesity is associated
with subclinical changes in left ventricle which
can be detected by strain and strain rate imaging
even without overt heart disease[35].
CONCLUSION
Inspite of limitations and confounders, we propose
that the TDI can be helpful to identify patients with
likelihood of significant coronary artery stenosis
supplying the non-infarcted region. This may help one
to consider these patients for a coronary angiogram in
the early post-infarction period.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
REFERENCES
1.
2.
Penicka M, Bartunek J, Wijns W, et al. Tissue doppler
imaging predicts recovery of left ventricular function
after recanalization of an occluded coronary artery. J
Am Coll Cardiol 2004; 43:85-91.
Stengel SM, Allemann Y, Zimmerli M, et al. Doppler
tissue imaging for assessing left ventricular diastolic
dysfunction in heart transplant rejection. Heart 2001;
86:432-437.
16.
17.
December 2009
McMahon CJ, Nagueh SF, Pignatelli RH, et al.
Characterization of left ventricular diastolic function by
tissue Doppler imaging and clinical status in children
with hypertrophic cardiomyopathy. Circulation 2004;
109:1756-1762.
Wang M, Yip GW, Wang AY, et al. Peak early diastolic
mitral annulus velocity by tissue Doppler imaging
adds independent and incremental prognostic value. J
Am Coll Cardiol 2003; 41:820-826.
Rushmer RF, Crystal DK, Wagner C. The functional
anatomy of ventricular contraction. Circ Res 1952;
1:162-170.
Isaaz K. What are we actually measuring by Doppler
tissue imaging? J Am Coll Cardiol 2000; 36:897-899.
Shah PK, Pichler M, Berman DS, et al. Non invasive
identification of a high risk subset of patients with
acute inferior myocardial infarction. Am J Cardiol 1980;
46:915-921.
Hasdai D, Sclarovsky S, Solodky A, Sulkes J, Strasberg
B, Birnbaum Y. Prognostic significance of maximal
precordial ST segment depression in right (V1 to V3)
versus left (V4 to V6) leads in patients with inferior
wall acute myocardial infarction. Am J Cardiol 1994;
74:1081-1084.
Otasevic P, Neskovic AN, Popovic Z, et al. Short
early п¬Ѓlling deceleration time on day one after acute
myocardial infarction is associated with short and long
term left ventricular remodeling. Heart 2001; 85:527532.
Park HS, Naik SD, Aronow WS, et al. Differences of
lateral and septal mitral annulus velocity by tissue
Doppler imaging in the evaluation of left ventricular
diastolic dysfunction. Am J Cardiol 2006; 98:970-972.
Park HS, Naik SD, Aronow WS, Ahn CW, McClung
JA, Belkin RN. Age and sex related differences in the
tissue Doppler imaging parameters of left ventricular
diastolic dysfunction. Echocardiography 2007; 24:567571.
Erbel R, Schweizer P,Lambertz H, et al. Echoventriculography-a
simultaneous
analysis
of
two
dimensional
echocardiography
and
cineventriculography. Circulation 1983; 67:205-215.
Bland JM, Altman DG. Statistical methods for
assessing agreement between two methods of clinical
measurement. Lancet 1986; 1:307-310.
Derumeaux G, Ovize M, Loufoua J, et al. Doppler
tissue imaging quantitates regional wall motion during
myocardial ischemia and reperfusion. Circulation 1998;
97:1970-1977.
Pislaru C, Bruce CJ, Belohlavek M, Seward JB,
Greenleaf JF. Inracardiac measurement of pre-ejection
myocardial velocities estimates the transmural extent
of viable myocardium early after reperfusion in acute
myocardial infarction. J Am Coll Cardiol 2001; 38:17481756.
Edvardsen T, Urheim S, Skulstad H, Steine K, Ihlen H,
Smiseth OA. Quantification of left ventricular systolic
function by tissue Doppler echocardiography: added
value of measuring pre-and postejection velocities
in ischemic myocardium. Circulation 2002; 105:20712077.
Shan K, Bick RJ, Poindexter BJ, et al. Relation of tissue
Doppler derived myocardial velocities to myocardial
December 2009
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
KUWAIT MEDICAL JOURNAL
structure and beta-adrenergic receptor density in
humans. J Am Coll Cardiol 2000; 36: 891-896.
Maroko PR, Braunwald E. Modification of myocardial
infarction size after coronary occlusion. Ann Intern
Med 1973; 79:720-733.
Sebag IA, Handschumacher MD, Ichinose F, et al.
Quantitative assessment of regional myocardial
function in mice by tissue Doppler imaging: comparison
with hemodynamics and sonomirometry. Circulation
2005; 111:2611-2616.
Plazak W, Tracz W, Kablak-Ziembicka A, Krochin
M. The use of tissue Doppler imaging for the
diagnosis of restenosis after percutaneous coronary
revascularisation. Przegl Lek 2004; 61:695-699.
Smiseth OA, Stoylen A, Ihlen H. Tissue Doppler
imaging for the diagnosis of coronary artery disease.
Curr Opin Cardiol 2004; 19:421-429.
Lin FC, Chang SH, Hsieh IC, et al. Time to peak velocity
measurements by pulsed wave Doppler tissue imaging
to quantify ischemia-related regional myocardial
asynchrony. J Am Soc Echocardiogr 2004; 17:299-306.
Zeiher AM, Wollschlaeger H, Bonzel T, Kasper W, Just
H. Hierarchy of levels of ischemia induced impairment
in regional left ventricular systolic function in man.
Circulation 1987; 76:768-776.
Elings VB, Jahn GE, Vogel JH. A theoretical model of
regionally ischemic myocardium. Circ Res 1977; 41:722729.
Daher E, Dione DP, Heller EN, et al. Acute ischemic
dysfunction alters coronary flow reserve in remote
non ischemic regions: potential mechanical etiology
identified in an acute canine model. J Nucl Cardiol
2000; 7:112-122.
Rutledge JC, Amsterdam EA, Bogren H, Arons D.
Anterior ST segment depression associated with acute
inferior myocardial infarction: clinical, hemodynamic
and angiographic correlates. Am J Noninvas Cardiol
1987;1:290-295.
Mirvis DM. Physiologic bases for anterior ST segment
depression in patients with acute inferior wall
28.
29.
30.
31.
32.
33.
34.
35.
301
myocardial infarction. Am Heart J 1988; 116:1308-1322.
Putini RL, Natale E, Ricci R, et al. Dipyridamole
echocardiography evaluation of acute inferior
myocardial infarction with concomitant anterior ST
segment depression. Eur Heart J 1993; 14:1328-1333.
Kouvaras G, Spyropoulou M, Bacoulas G. The
significance of a persistent precordial ST segment
greater than or equal to 0.1mV depression in
acute inferior myocardial infarction (coronary
angiographic and ventriculographic п¬Ѓndings).
Angiology 1986; 37:57-62.
Akhras F, Upward J, Jackson G. Reciprocal change in
ST segment in acute myocardial infarction: correlation
with п¬Ѓndings on exercise electrocardiography and
coronary angiography. Br Med J 1985; 290:19311934.
Moladoust H, Mokhtari Dizaji M, Ojaghi-Haghighi
Z, Noohi F, Khajavi A. Frame rate requirement
for tissue Doppler imaging in different phases of
cardiac cycle: radial and longitudinal functions. Int J
Cardiovasc Imaging 2008; 24:377-387.
Gjesdal O, Helle-Valle T, Hopp E, et al. Non invasive
separation of large, medium and small myocardial
infarcts in survivors of reperfused ST elevation
myocardial infarction: A comprehensive tissue
Doppler and speckle tracking echocardiography
study. Circ Cardiovasc Imaging 2008; 1:189-196.
Becker M, Lenzen A, Ocklenburg C, et al. Myocardial
deformation imaging based on ultrasonic pixel
tracking to identify reversible myocardial
dysfunction. J Am Coll Cardiol 2008; 51:1473-1481.
Derumeaux G, Ichinose F, Raher MJ, et al. Myocardial
alterations in senescent mice and effect of exercise
training: A strain rate imaging study. Circ Cardiovasc
Imaging 2008; 1:227-234.
Tumuklu MM, Etikan I, Kisacik B, Kayikcioglu M.
Effect of obesity on left ventricular structure and
myocardial systolic function: assessment by tissue
Doppler imaging and strain/strain rate imaging.
Echocardiography 2007; 24:802-809.
302
KUWAIT MEDICAL JOURNAL
December 2009
Original Article
Return to Work Following Cardiac Rehabilitation in
Patients Undergoing Cardiac Procedures with an
Approach to Patient’s Viewpoints and Attitude
Abbas Soleimani, Abbas Salehi Omran, Ali Mohammad Haji Zeinali, Mehrdad Sheikhvatan, Iman Feyzi
Tehran Heart Center, Tehran University of Medical Sciences, Tehran, Iran
Kuwait Medical Journal 2009; 41 (4): 302-306
ABSTRACT
Objectives: To estimate the rate of return to work (RTW)
after cardiac rehabilitation and determine the relationship
between RTW and clinical and socio-demographic factors
with an approach to patient’s attitude
Design: Prospective follow-up study
Setting: Tehran Heart Center, Iran
Subjects: Two hundred and forty six consecutive patients
undergoing different types of cardiac procedures between
May and September 2007 were studied.
Intervention: A checklist was completed for patients
according to medical history and physical examination
recorded in medical п¬Ѓles. A complementary interview was
also carried out by phone.
Main Outcome Measures: Rate of RTW after cardiac
rehabilitation and the relationship between RTW and clinical
and socio-demographic factors
Results: Two groups were matched for gender, age,
occupation type and the type of cardiac procedures.
Rehabilitated patients in comparison with control group
had higher rates of RTW three month (55.4 Vs 26.2%) and
eight months (94.7 Vs 81.0%) after the time of cardiac
rehabilitation. Positive attitude toward RTW was observed
more in rehabilitated patients three month and eight months
after cardiac procedures. Cardiac rehabilitation programs
(OR: 3.507, p = 0.027), preoperative functional class (OR:
6.541, p < 0.001), experience of regular physical activity at
home before RTW (OR: 3.836, p = 0.004) and job support
programs (OR: 4.050, p = 0.022) were main predictors for
RTW eight months after cardiac procedures.
Conclusion: Patients undergoing cardiac procedures benefit
from cardiac rehabilitation to preserve work status. The need
for appropriate supportive protocols can guarantee RTW
after cardiac rehabilitation and improve patients’ attitude
toward continuing their jobs.
KEY WORDS: acute coronary syndrome, cardiac rehabilitation, cardiac surgery
INTRODUCTION
In the early years of cardiac surgeries, candidates
for surgical intervention usually consisted of relatively
young patients with limited coronary artery disease
(CAD), favorable left ventricular function and few
co-morbid conditions. Today, the surgical population,
especially in developing countries, has evolved into a
young group of patients with more extensive coronary
involvement and more left main disease. Furthermore,
there are considerably increased numbers of patients
with risk factors for CAD. Despite the increasing risk
profile of this population, outcome of cardiac events has
generally remained stable or has improved[1]. However,
researches have shown that the results of these events
can mainly influence return to work (RTW) in this
population, especially in the younger group.
According to these п¬Ѓndings, RTW has been variable,
ranges between 35 and 80 percent and has been as
high as 80% in those who were employed prior to
undergoing cardiac surgeries. Some factors have been
known to adversely affect the prospects of patients for
RTW including advanced age, postoperative angina,
job satisfaction prior to surgery, and a period of
unemployment or disability before surgery[2]. However,
some other studies showed that clinical postoperative
complications may not negatively influence patients’
RTW[3]. However, few studies are available about
the rate and determinants of RTW after supportive
programs such as cardiac rehabilitation especially in
patients who underwent different types of cardiac
procedures.
The main purpose of the present study was to
estimate the rate of RTW in cardiac rehabilitated
and non-rehabilitated patients and determine the
association between RTW after cardiac rehabilitation
and clinical and socio-demographic factors in a Iranian
population. We also considered patient’s attitude
towards RTW.
Address correspondence to:
Dr. Abbas Soleimani, Assistant Professor of Cardiology, Tehran Heart Center, Tehran University of Medical Sciences, North Kargar Street, Tehran
Heart Center, Tehran, Iran1411713138. Tel: +982188029721, Fax: +9821 88029724, E-mail:soleimania@yahoo.com
December 2009
KUWAIT MEDICAL JOURNAL
SUBJECTS AND METHODS
In a historical cohort study, two hundred and
forty six patients who underwent different types
of cardiac procedures including coronary artery
bypass surgery, percutaneous coronary intervention
or valve surgeries in Tehran Heart Center between
May and September 2007 were consecutively
entered into the study. Among studied patients, 114
patients undergoing complete protocol of cardiac
rehabilitation were designated as the study group
while others who underwent routine follow-up
assessment acted as the control group. Patients
with any physical or psychiatric disease that
would interfere with participation in the program
were excluded. Patients who underwent cardiac
rehabilitation program incompletely were also
excluded. The rehabilitation program comprised of 24
exercise sessions, scheduled over eight weeks. Each
session took 30 - 45 min; beginning with a 3 - 5 min
warm-up followed by 30 - 45 min aerobic exercise,
and was terminated with a 3 - 5 min cool-down.
The exercise was done under electrocardiographic
monitoring if the patient was at high risk.
A checklist was completed for the patients
according to medical history and physical
examination recorded in medical п¬Ѓles by trained
general practitioners and nurses. The criterion of
patient’s RTW rate three and eight months after
cardiac procedures program was evaluated by a
self-completed questionnaire sent to the patients.
Data were also collected in the control group at
the same times. If no response was received, a
complementary interview was carried out by phone.
This questionnaire consisted of 18 items covering
different aspects of patient’s usual employment
status and main occupation and also their attitude
towards RTW after cardiac procedures.
Informed consent was obtained from all patients. The
study was approved by the local ethical committee.
Results were reported as mean В± standard
deviation (SD) for the quantitative variables and as
percentages for the categorical variables. The groups
were compared using the Student’s t-test for the
continuous variables and the chi-square test, one-way
analysis of variance (ANOVA) test or Fisher’s exact
test for the categorical variables. Univariate analysis
was п¬Ѓrst used (p-values < 0.1) to estimate the strength
of association between individual predictors and
RTW after six months. In the subsequent analysis,
all predictors were simultaneously considered in
a multiple logistic regression analysis to screen for
independent significant factors. p-values of 0.05 or
less were considered statistically significant. All
the statistical analyses were performed using SPSS
version 13.0 for windows (SPSS Inc., Chicago, IL,
USA).
303
Table 1: Demographic characteristics and clinical data of studied
patients
Characteristics
Rehabilitation
group*
(n = 114)
Control
group*
(n = 132)
p-value
Male gender
Age (year)
Occupation status:
Employed
Housewife
Retired
Type of cardiac procedure:
PCI
CABG
Other procedures
Time interval between
cardiac procedure and
personal activities (days)
Time interval between
cardiac procedure and
returning to work (days)
Experience of regular
physical activity before
returning to work
Use of job consultation
before returning to work
Job support from
workplace or society
Anti-anxiety drug
administration
70.2
58.78 В± 9.23
74.2
58.29 В± 10.55
46.5
27.2
26.3
55.3
22.7
22.0
50.4
42.5
7.1
54.0
38.1
7.9
26.15 В± 26.08
34.66 В± 29.00
0.018
52.98 В± 38.14
62.06 В± 42.41
0.102
60.0
52.5
0.313
3.8
4.2
0.92
79.2
61.4
0.008
37.6
71.8
<0.001
0.472
0.707
0.387
0.785
*Data presented as mean В± SD or percentages
RESULTS
The mean age of all studied patients was 58.52 В±
9.93 (range = 36 to 86 years) and 72.4% out of them
were male. The study and control groups were well
matched for gender (p = 0.472), age (p = 0.707),
occupation type (p = 0.387) and the type of cardiac
procedures (p = 0.785) (Table 1). In the п¬Ѓrst group,
the time interval between cardiac procedures and
cardiac rehabilitation program was 33.16 В± 22.82
days. Time interval between cardiac procedure and
the beginning of personal activities in rehabilitation
group was significantly shorter in the study than
the control group. However, time interval between
these procedures and RTW were similar between
the two groups. Among men, 97.4% in rehabilitation
group and 93.8% in another group were employed
before cardiac procedures (p = 0.283) such that
44.0 and 58.4% of them worked in the two shifts,
respectively. Among women, 3.3% in rehabilitation
group and 7.1% in control group worked out of the
house (p = 0.212) whereas others were housewives.
The minority of all studied patients advantaged from
job consultation programs such that only 5.3% of
men used job consultation programs whereas none
of the women advantaged from these programs. Job
support from workplace or society was found more
in the rehabilitation group, whereas history of anxiety
and anti-anxiety drug administration was observed
more in the non-rehabilitated group (Table 1).
304
Return to Work Following Cardiac Rehabilitation in Patients Undergoing ...
December 2009
Fig. 1: Return to work (RTW) after cardiac procedures in study and
control groups in men
Fig. 2: Return to work (RTW) after cardiac procedures in study and
control groups in women
In the rehabilitation group, 55.4 and 94.7% of
patients returned to work after three and eight
months after the cardiac procedure, respectively,
whereas these rates in the control group were 26.2
and 81.0, respectively. Rates of RTW after the two
above time points were higher in the rehabilitation
group in comparison with the control group (Fig. 1
and 2). Majority of patients in both the groups had
to modify their preoperative jobs, three months
after the procedure. Also, eight months after the
operation, rehabilitated men and women continued
their modified jobs, whereas other patients needed to
continue their job modification (Tables 2 and 3).
Regarding RTW following different cardiac
procedures, considerable number of patients
undergoing coronary artery bypass surgery (CABG) or
percutaneous coronary intervention (PCI) returned to
their work three months and eight months after each
procedure (Table 4).
Multivariate logistic regression analysis (Table
5) showed that the cardiac rehabilitation programs
(OR: 3.507, p = 0.027), preoperative functional class
(OR: 6.541, p < 0.001), experience of regular physical
activity at home before RTW (OR: 3.836, p = 0.004) and
job support programs (OR: 4.050, p = 0.022) were main
predictors for returning to work eight months after
cardiac procedure.
We also studied the frequency of positive attitude
toward returning to work in rehabilitated and control
groups. The positive attitude toward returning to
work was also observed more in rehabilitation group
three month and eight months after cardiac procedure.
Furthermore, positive relationships were found
between the rate of positive attitude toward RTW
and the time interval between cardiac procedure and
follow-up time in both groups (Table 6).
Table 2: Return to work (RTW) three and eight months after cardiac
procedure in men (n = 178)
Return to work (RTW)
Rehabilitation
group* (n = 80)
Three months after
rehabilitation:
Continue the job
Change the job
Modify the job
Eight months after
rehabilitation:
Continue the job
Change the job
Modify the job
Control group* p-value
(n = 98)
15.9
2.3
81.8
27.3
13.6
59.1
56.3
1.4
42.3
31.1
4.1
64.9
0.078
0.008
*Data presented as percentages
Table 3: Return to work (RTW three and eight months after cardiac
procedure in women (n = 68)
Return to work (RTW)
Three months after
rehabilitation:
Continue the job
Change the job
Modify the job
Eight months after
rehabilitation:
Continue the job
Change the job
Modify the job
Rehabilitation
group* (n = 34)
Control group* p-value
(n = 34)
Table 4: Return to work (RTW) three and eight months after CABG
and PCI procedures
Positive attitude
5.6
0.0
94.4
22.2
0.0
77.8
51.5
0.0
48.5
17.2
0.0
82.8
*Data are presented as percentages
0.250
0.005
Rehabilitation
group*
Control
group*
p-value
CABG group
After 3 months
After eight months
47.8
93.6
25.0
80.0
0.025
0.053
PCI group
After 3 months
After eight months
64.9
96.4
29.0
83.3
< 0.001
0.019
*Data presented as percentages
December 2009
KUWAIT MEDICAL JOURNAL
305
Table 5: Multivariate analysis for determination of the predictors for return to work (RTW) eight months after cardiac procedure
Predictors for RTW
Cardiac rehabilitation program
Experience of regular physical activity
Job support from workplace or society
Anti-anxiety drug administration
Functional class
Univariate p-value
Multivariate p-value
< 0.001
< 0.001
< 0.001
0.002
< 0.001
0.027
0.004
0.022
0.109
< 0.001
Odds ratio
3.507
3.836
4.050
0.334
6.541
95% Confidence Interval
Lower limit
Upper limit
1.156
1.545
1.223
0.087
3.698
10.639
9.521
13.413
1.279
11.572
Hosmer-Lemeshow goodness of п¬Ѓt test: chi-square = 0.131; p = 0.936 ; RTW = return to work
DISCUSSION
Some of the previous studies have shown clear
beneficial effects of myocardial revascularization
procedures on different aspects of health, especially
patient’s quality of life and even employment over
several years[4,5]. The ability to work are considered
important components of quality-of-life analyses for
persons with disabilities and this ability is linked to
personal п¬Ѓnancial security, life satisfaction, and better
quality of life in general[6-8]. However, a few studies
are available about the impact of non-invasive
supportive procedures such as cardiac rehabilitation
on ability to RTW. Besides, Iran's population is one
of the youngest populations among developing
countries and therefore, unemployment of young
individuals can lead to a heavy economic burden. The
economic burden on the nation could be substantially
decreased, if fewer working-age adults were unable
to work because of impairment[9]. Thus, assessment
of RTW after each cardiac procedure in our young
population is necessary. In the present study, we п¬Ѓrstly
determined the main predictors of RTW in patients
undergoing cardiac rehabilitation after different
types of cardiac interventions and then assessed their
positive attitude towards RTW. We showed that the
rate of RTW eight months after cardiac rehabilitation
in rehabilitated and non-rehabilitated patients was
94.7 and 81.0%, respectively and it was significantly
higher in the п¬Ѓrst group. Also, in our study, the time
interval between cardiac procedure and personal
activity was shorter in rehabilitated group. Although,
the time interval between cardiac procedure and
RTW was numerically shorter in rehabilitated group,
this difference was not significant between the two
studied groups. However, it seems that the cardiac
rehabilitation program can successfully shorten the
time interval between cardiac procedure and RTW,
because in some previous studies, 80.2% of patients
who did not undergo cardiac rehabilitation had
returned to work one year later[10]. Also, in a study by
Boudrez et al RTW within a one year follow-up was
observed in 83.3% patients[11].
In the present study, the parameter of job support
programs was the main predictor for returning to
work after cardiac rehabilitation. Predictive value of
this factor has been previously described. Brines et al
indicated that the relationships with employers and coworkers and п¬Ѓnancial pressures have been associated
with the rate of RTW[12]. Also, Smith and O’Rourke
found that the employment-related physical activity
and perception of health status were the only significant
predictors of RTW[13]. Varaillac also found that of the
socio-professional factors, only difficulties related to
the patients’ work such as modification or change of
job were associated with a more delayed RTW[14]. We
believe that the main cause of discontinuing the job
and confining oneself at home is the absence of job
support from employers such as insurance support.
Therefore, the use of adaptive devices or a redesign of
the job description to allow the person to perform the
job is necessary.
In our study, we focused on the patients’ attitude
towards RTW after cardiac rehabilitation, because
we suppose that their attitude and perception has a
major effect on RTW. The patient’s perception of his
or her illness, particularly the belief that the illness
would last a long time and have serious consequences,
has been associated with slower RTW[15]. Mittag et al
Table 6: Positive attitude toward returning to work after cardiac procedure in men and women
Positive attitude
On admission day to rehabilitation ward
Three month after cardiac rehabilitation
Eight months after cardiac rehabilitation
p-value
*Data presented in percentage
Rehabilitation group*
(n = 114)
Control group*
(n = 132)
50.9
81.1
94.4
< 0.001
34.4
55.8
77.2
< 0.001
p-value
0.010
< 0.001
< 0.001
306
Return to Work Following Cardiac Rehabilitation in Patients Undergoing ...
showed that the patients’ viewpoint on RTW after
myocardial infarction is based on their former job
status, job satisfaction, and negative incentives for
RTW[16]. We found that the cardiac rehabilitation
programs improved the patients’ attitude towards
RTW because within rehabilitation process, the use of
education programs and psychological consultations
can enhance their viewpoints towards RTW.
The present study has some limitations. First,
we did not consider general risk factors for CAD as
predictors for RTW because of missing data from the
files. However, some previous studies have confirmed
that medical variables such as cardiac status had little
relevance to re-employment[16]. But, we recommend
assessing the influence of these parameters on
resuming the job and even on attitude toward RTW
in future studies. Also, we did not п¬Ѓnd relationship
between the type of cardiac procedures and RTW.
Other investigations are also recommended to study
these relationships with a greater sample size.
CONCLUSION
Patients undergoing cardiac procedures can benefit
from cardiac rehabilitation programs to preserve
working status. CAD is common in the working age
population and appropriate supportive protocols
can guarantee RTW after cardiac rehabilitation and
improve patients’ attitude toward their continuing the
job.
REFERENCES
1.
2.
3.
4.
Shroyer AL, Coombs LP, Peterson ED, et al. The
Society of Thoracic Surgeons: 30-day operative
mortality and morbidity risk models. Ann Thorac
Surg 2003; 75:1856-1864.
Libby P, Bonow RO, Man DL, Zipes DP. Braunwald’s
Heart Disease. Washington DC, Saunders Inc,
2008;1383.
Bettinardi O, Giannuzzi P, Zotti AM, et al.
Psychological, behavioral and occupational status
changes after an aortocoronary bypass intervention.
G Ital Cardiol 1995; 25:289-300.
Pocock SJ, Henderson RA, Seed P, Treasure T,
Hampton JR. Quality of life, employment status,
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
December 2009
and anginal symptoms after coronary angioplasty or
bypass surgery. 3-year follow-up in the Randomized
Intervention Treatment of Angina (RITA) Trial.
Circulation 1996; 94:135-142.
Almeida D, Bradford JM, Wenger NK, King SP,
Willis Hurst J. Return to work after coronary bypass
surgery. Circulation 1983; 68:205-213.
Bowling A. What things are important in people’s
lives? A survey of the public’s judgments to inform
scales of health related quality of life. Soc Sci Med
1995; 41:1447-1462.
Stuifbergen A, Rogers S. Health promotion: an
essential component of rehabilitation for people with
chronic disabling conditions. Adv Nurs Sci 1997;
19:1320.
Social Security Administration. Social Security:
disability programs lag in promoting return to work
(Report No.:GAO/ HEHS-97-46). Washington DC:
United States General Accounting Office; 1997.
Phillips L, Harrison T, Houck P. Return to work and
the person with heart failure. Heart Lung 2005; 34:7988.
Bhattacharyya MR, Perkins-Porras L, Whitehead DL,
Steptoe A. Psychological and clinical predictors of
return to work after acute coronary syndrome. Eur
Heart J 2007; 28: 160-165.
Boudrez H, De Backer G. Recent п¬Ѓndings on return
to work after an acute myocardial infarction or
coronary artery bypass grafting. Acta Cardiol 2000;
55:341-349.
Brines J, Salazar MK, Graham KY, Pergola T. Return
to work experience of injured workers in a case
management program. AAOHN J 1999; 47:365-372.
Smith GR Jr, O’Rourke DF. Return to work after a first
myocardial infarction.A test of multiple hypothesis.
JAMA 1988; 259:1673-1677.
Varaillac P, Sellier P, Iliou MC, Corona P, Prunier L,
Audouin P. Return to work following myocardial
infarction. Medical and socio-professional factors.
Arch Mal Coeur Vaiss 1996; 89:203-209.
Petrie KJ, Weinman J, Sharpe N, Buckley J. Role of
patients’ view of their illness in predicting return to
work and functioning after myocardial infarction:
longitudinal study. BMJ 1996; 312:1191-1194.
Mittag O, Kolenda KD, Nordman KJ, Bernien J,
Maurischat C. Return to work after myocardial
infarction/coronary artery bypass grafting: patients’
and physicians’ initial viewpoints and outcome 12
months later. Soc Sci Med 2001; 52:1441-1450.
December 2009
KUWAIT MEDICAL JOURNAL
307
Original Article
Perceptions and Attitude towards Lumbar Puncture
(LP) among Parents in Kuwait
Ehab Farag1, Entesar H Husain1,2, Hussein Fathy3, Ahmad Shawky4
1
Department of Pediatrics, Amiri Hospital, Kuwait
2
Department of Pediatrics, Faculty of Medicine, Kuwait
3
Department of Pediatrics, Al-Jahra Hospital, Kuwait
4
Department of Pediatrics, Al-Adan Hospital, Kuwait
Kuwait Medical Journal 2009; 41 (4): 307-310
ABSTRACT
Objective: To assess the knowledge, understanding and
acceptance of lumbar puncture (LP) among parents of
pediatric patients in hospitals
Design: Questionnaire- based cross sectional survey
Setting: Department of Pediatrics in three hospitals in
Kuwait, namely, Al-Amiri, Al-Adan and Al-Jahra hospital
Subjects: Three hundred and п¬Ѓfty-eight parents of children
admitted with various underlying diagnoses
Intervention: A self-administered questionnaire.
Main Outcome Measures: Rate of acceptance of LP,
characteristics of parents accepting and refusing LP, reasons
for rejecting LP and means to improve LP acceptance among
parents in Kuwait
Results: A total of 358 parents responded to the
questionnaire. Only 15.3% agreed for LP, 42.5% did not
agree and 42.2% preferred taking a second opinion.
Relationship to the child, nationality and educational level
of the parent were significantly associated with acceptance
of LP (p < 0.05). The majority (79.1%) answered that LP is
unsafe because it might cause complications like paralysis
(46.2%), pain (16.6%), infertility (17.2%), and deterioration
of child’s health (12.8%). Out of the parents who did not
accept LP, 67.0% said that they might have changed their
mind, if the procedure was fully explained by a doctor
with the use of a diagram. Another group (66.0%) felt that
the media can help to increase the acceptance of LP among
parents.
Conclusion: Parent’s refusal of LP is a common problem
among parents in Kuwait. The main reasons are lack of
knowledge and the misconception that this is a harmful
procedure. There is a great need to educate parents about
the safety of LP in children.
KEY WORDS: lumbar puncture, meningitis, parents
INTRODUCTION
Lumbar puncture (LP) is a diagnostic and at times
therapeutic procedure that is performed in order
to collect a sample of cerebrospinal fluid (CSF) for
biochemical, microbiological, and cytological analysis,
or rarely, to relieve increased intracranial pressure.
The most common purpose for a lumbar puncture is
to collect cerebrospinal fluid in a case of suspected
meningitis, but it can also be performed to diagnose
other neurological conditions such as subarachnoid
hemorrhage, hydrocephalus and benign intracranial
hypertension. It is a safe procedure, if performed
in the absence of increased intracranial pressure.
Post-LP headache is the most commonly described
complication in adults, but is rare in children[1] .
Despite the fact that LP is a procedure with a
great diagnostic and therapeutic value, many parents
are refusing LP to be performed on their children.
In a study in Malaysia, 25% of the parents refused
LP[2]. In a previous study of meningitis in Kuwait,
it was noticed that the refusal rate of this important
diagnostic procedure was 15 - 20% and could reach
up to 40% in some hospitals[3]. This has resulted in an
underestimation of the number of laboratory confirmed
cases of meningitis and the overuse of antibiotics in
cases of suspected meningitis.
This study was carried out to determine the extent
of the LP refusal, evaluate the reasons for refusal of LP
and explore the possible ways to improve the rate of
LP acceptance among parents in Kuwait.
SUBJECTS AND METHODS
In order to assess the knowledge, attitude,
and behaviour of parents in Kuwait towards LP
performance, a questionnaire-based study was
performed. The questions were self administered in
both Arabic and English languages. The study was
undertaken between September and December 2006
Address correspondence to:
Dr. Entesar H. Husain, Department of Pediatrics, Faculty of Medicine, P.O. Box 24923, Safat, Kuwait 13110. Fax: (965) 25430207, E-mail: entesar@qualitynet.net
308
Perceptions and Attitude towards Lumbar Puncture (LP) among Parents in Kuwait
in three hospitals; in the capital city, the northern and
the southern areas of Kuwait to represent various
ethnic groups of the population. The questionnaire
was offered to all parents of admitted children with
various diagnoses, including those for whom LP was
not indicated also. We used only the fully answered
questionnaires in the п¬Ѓnal analysis and disregarded
incomplete questionnaires.
The questionnaire had п¬Ѓve components: the п¬Ѓrst;
focused on the parents’ personal data such as age,
nationality, education and area of residence. The
second component included questions about the
child such as age and gender. The third component
questioned the parent’s acceptance of LP procedure on
their children. It also included questions to evaluate
the knowledge of parents about LP like the reason for
requesting LP, whether there are other alternatives,
when LP is performed and by whom. The fourth
component discussed the parents’ knowledge about
the safety of the procedure, its complications and from
where they derived their information about these
complications. The п¬Ѓnal component requested the
parents’ suggestions to improve the acceptance of the
procedure.
To assess the parents’ knowledge about LP, we
have created an LP �knowledge score’ based on the
seven questions in the third component which were:
the reason for the procedure, if there is an alternative,
by whom performed, when, how the sample is taken,
the quantity and the age at which LP can be performed
safely. One point was given for every correct choice
and nil for the wrong choice. Those who scored from
0 to 3 were considered as having poor knowledge of
LP procedure and those with score from 4 to 7 were
considered knowledgeable.
This study was approved by the hospital ethical
committee.
The collected data was processed using Statistical
Package for the Social Sciences, SPSS (16.0). Basic
statistical parameters were calculated and included
frequency, mean and proportions. Chi-square test (П‡2)
was used to test the association between the knowledge
and refusal or acceptance of LP. A p-value of ≤ 0.05 was
considered significant.
RESULTS
A total of 555 questionnaires were distributed during
the period of the study. Only 358 (64%) questionnaires
were complete and were included in the п¬Ѓnal analysis.
There were 273 (76.9%) mothers and 82 (23.1%) fathers.
The median age of the respondents was 31.0 В± 7.0
years (range 19 - 57 years). The characteristics of the
participating parents and their children are shown in
Table 1. Out of the surveyed parents, only 55 (15.3%)
accepted LP, 152 (42.5%) rejected the procedure and
151 (42.2%) preferred taking a second opinion.
December 2009
Table 1: General Characteristics of the parents and their children
Characteristics
Relation to patient
Mother
Father
Nationality
Kuwaitis
Arabs
Non- Arabs
Level of education
Primary school
High-school
Post high-school
Residence
Capital
North
South
Gender of the child
Male
Female
Age of the child
Neonate
Infant
Preschool
School
Percentage
76.9
23.1
88.2
7.8
4.0
17.5
29.0
53.5
31.0
36.0
33.0
58.0
42.0
12.5
49.0
25.2
13.3
Knowledge of parents about LP
Majority of the parents (57.1%) answered that
diagnosis is the main reason for performing this
procedure while 22.1% did not know why doctors
ask permission for this procedure. When asked about
other tests that will give the same yield as LP; 24.4% of
parents chose CBC, 23% chose physical examination and
17% chose CT scan of the head. Only 15.5% answered
that there is no alternative test for LP. Majority of the
parents (76.7%) answered that consultants and senior
doctors perform this procedure while 18.3% said
that any doctor is capable of performing LP. A high
proportion (42%) did not know when this procedure
should be performed during hospitalization. However,
30% answered that it should be done when the child
is not improving on treatment. When asked about the
age at which LP can be done safely, 57% answered that
the procedure can be done safely at any age.
A majority (79.1%) of the parents felt that the LP is
an unsafe procedure while 14.2% felt that it is safe and
6.4% were not sure about the safety of this procedure.
The respondents who felt that LP is not safe believed
that it may induce paralysis (49.2%), pain (16.6%),
infertility (17.2%), deterioration of child’s health
(12.8%) and 7.2% did not know what complications
were likely to occur. Seventy percent of the parents
knew about these complications from relatives
and neighbours while 14% of the parents had this
knowledge from reading books or newspapers. The
audiovisual media was the source of the knowledge
about LP complications in 8% of parents who answered
the questionnaire.
December 2009
KUWAIT MEDICAL JOURNAL
309
Fig. 1: Knowledge score and acceptance of LP
Factors associated with LP acceptance
Twenty-seven percent fathers said that they will
accept LP as compared to 10.6% mothers (p < 0.0001).
Non-Arab nationalities accepted LP (36%) more often
compared to Arabs (29%) and Kuwaitis (13%, p =
0.01). More parents with post-high-school education
accepted LP (19%) than high-school education (9%)
and primary education (8%, p = 0.02). Parents with
knowledge score ≥ 4 accepted LP more frequently
when compared to parents with score < 4 (30 Vs 10%,
Fig. 1).
Improvement of LP acceptance among parents
Among the suggestions given by parents to improve
LP acceptance were the utilization of the media (66%),
and education by the doctor (28%). An overwhelming
majority (80%) of the parents, who initially refused LP
or said that they would take a second opinion, would be
willing to change their mind and agree on LP based on
various factors. Such factors include: full explanation
by the doctor using a diagram (78%), meeting a child
who underwent LP (11.6%) and talking to parents
whose child had LP (7%).
DISCUSSION
Lumbar puncture (LP) is an important and safe
procedure to diagnose underlying central nervous
system problems, mainly meningitis. Many parents
often regard LP as anxiety provoking even if the
experience was repeated[4]. Unfortunately, few studies
have addressed the attitudes and acceptance by parents
of lumbar puncture in children[2,5]. This issue might not
be of great importance in the industrialized countries,
but the refusal of LP in some countries has resulted as
an impediment to the diagnosis of intracranial infections
and its management[3].
Our study shows a high proportion of LP refusal
among parents in Kuwait reaching up to 80%. There
are few studies that address the issue of LP refusal in
medical practice. Only one out of 20 (5%) adult patients
refused LP in a study of Lyme disease in the United
States of America[6]. In another study from Denmark
п¬Ѓve out of 68 (7%) patients refused LP[7]. Contrary to
these low п¬Ѓgures of refusal in the United States and
Europe, two studies from Malaysia on children with
febrile convulsions showed a refusal rate of 29[5] and
24%[2].
Knowledge is one of the important factors that
influenced parents’ decisions to accept or refuse LP. This
was supported in our study by the increased acceptance
rates among parents with high knowledge score and
those with post high-school education. The ethnic
group was the other factor influencing acceptance of LP
decision. Local citizens (Kuwaitis) were more likely to
refuse LP when compared to non-nationals. A similar
п¬Ѓnding was reported in Malaysia where the local
Malay ethnic group were more likely to refuse lumbar
puncture (p = 0.01)[2]. This may be a result of certain
cultural beliefs, or feeling more empowered in front of
the health system. Further studies need to be done to
determine the role of cultural beliefs in influencing the
decisions of parents in accepting LP on their children.
It is crucial to educate parents to increase their
knowledge about the safety of this procedure. Half of
310
Perceptions and Attitude towards Lumbar Puncture (LP) among Parents in Kuwait
the parents in our study thought that LP will result in
paralysis of the child. Paralysis and death with LP were
concerns of parents in other Asian countries[5]. Since
majority of the parents had acquired their erroneous
information from non-medical friends, we feel it is
important to educate the public through mass media
or health campaigns. Increasing the knowledge can
be done also with proper explanation by the doctors
using visual aids. Similar successful education process
was performed to improve compliance to asthma
medications[8].
The primary limitation of this study is that the data
represent self-reported LP acceptance and refusal based
on hypothetical situation. It is likely that the refusal
rates would be lower, if parents were actually in a real
situation where their child would need an LP. The
finding that acceptance rates were significantly higher
among those with higher education and knowledge
score supports our inference that greater knowledge
will translate to greater acceptance rates.
CONCLUSIONS
LP refusal is a common problem in the local setting
and is a hindrance to proper management of patients
with intracranial pathology. Appropriate measures
must be carried out to educate the public about the
safety and usefulness of this procedure. This will go a
long the way in avoiding unnecessary treatment with
antibiotics and prolonged hospitalization of those with
suspected bacterial meningitis not confirmed by LP.
December 2009
ACKNOLEDGMENT
This study was approved by the Ministry of
Health Research Committee
REFERENCES
1.
2.
3.
4.
5.
6.
7.
8.
Janssens E, Aerssens P, AlliГ«t P, Gillis P, Raes M. Postdural puncture headaches in children. A literature
review. Eur J Pediatr 2003; 162:117-121.
Ling SG, Boey CC. Lumbar puncture refusal in febrile
convulsions. Singapore Med J 2000; 41:485-488.
Husain EH, Al-Shawaf F, Bahbahani E, et al.
Epidemiology of childhood meningitis in Kuwait.
Med Sci Monit 2007; 13:CR220-CR223.
Tan M, Tan H, Büyükavci M, Karakelleoglu C. Parents’
attitudes toward performance of lumbar puncture on
their children. J Pediatr 2004; 144:400-402.
Deng CT, Zulkifli HI, Azizi BH. Parents’ views of
lumbar puncture in children with febrile seizures.
Med J Malaysia 1994; 49:263-268.
Jacobson DM, Marx JJ, Dlesk A. Frequency and
clinical significance of Lyme seropositivity in patients
with isolated optic neuritis. Neurology 1991; 41:706711.
Frederiksen JL, Larsson HB, Olesen J. Correlation
of magnetic resonance imaging and CSF п¬Ѓndings in
patients with acute monosymptomatic optic neuritis.
Acta Neurol Scand 1992; 86:317-322.
Prabhakaran L, Lim G, Abisheganaden J, Chee CB,
Choo YM. Impact of an asthma education programme
on patients’ knowledge, inhaler technique and
compliance to treatment. Singapore Med J 2006;
47:225-231.
December 2009
KUWAIT MEDICAL JOURNAL
311
Original Article
Students’ Learning Approaches at Medical Schools
Applying Different Curricula in Turkey
Cihat Tetik1, Erol Gurpinar2, Hilal BatД±3
Department of General Surgery, School of Medicine, Pamukkale University, Denizli, Turkey
2
Department of Medical Education, School of Medicine, Akdeniz University, Antalya, Turkey
3
Department of Medical Education, School of Medicine, Ege University, Izmir, Turkey
1
Kuwait Medical Journal 2009; 41 (4): 311-316
ABSTRACT
Objective: To investigate the learning approaches of
undergraduate students at different medical schools
applying different curricula in Turkey
Design: Comparative study
Setting: Three medical schools applying different curricula,
namely, Hybrid (Akdeniz University), Integrated (Ege
University) and Problem Based Learning (Pamukkale
University)
Subjects: All Year I and Year II students (n = 1038) at these
three schools were invited to participate.
Interventions: The Revised Two-Factor Study Process
Questionnaire was chosen to reveal learning approaches.
Another questionnaire was established in order to see any
association between learning approaches and demographic
characteristics. Statistical analyses were done by using SPSS
for PC 13.0. Chi-square test was used for the analysis of the
data.
Main Outcome Measures: Learning approaches,
gender, living area, parents’ graduation and high school
characteristics of all students
Results: Nine hundred and sixty six out of 1038 (93%)
students п¬Ѓlled out the questionnaires. More participants in
Year I had approached their learning activities more deeply
than those in Year II (П‡2 = 16.417, p = 0.00). Only at the medical
school applying Problem Based Learning, more participants
in Year II had a deep approach than those in Year I (П‡2 =
9.983, p = 0.00 for Year I and П‡2 = 16.263, p = 0.00 for Year II).
No association between demographic characteristics except
gender and learning approaches was found.
Conclusions: Application of Problem Based Learning
curriculum may be more helpful in developing a deep
learning approach than a Hybrid or Integrated curricula.
Measurement of learning approaches at later years will
provide stronger evidence.
KEY WORDS: education, medical students, study characteristics, undergraduate
INTRODUCTION
More than 30 years ago, Marton and Saljo[1] used
the terms deep and surface level processing to describe
the different levels of processing they identified in
their research. Later, Entwistle et al contended that the
term “processing” to describe the deep and surface
level phenomenon under study was inadequate and
the term “approach” came to be preferred to describe
the differences in these two learning forms[2].
Students using deep strategy read widely, gather
more information, relate to other areas of interest and
discuss with others. They study a topic in order to
form their own conclusions. These students continue
to study most of the suggested readings until they
have abstracted the problem solving conclusions. On
the other hand, students using surface strategy study
just enough to get a pass mark from assessments. Their
extrinsic motivation causes premature closure of their
study with minimal effort within a short period[3,4].
Some students may intend to get highest scores from
the assessments organizing their time and effort.
Entwistle explored the concept of strategic or achieving
approach for this type of learning[5]. In a later study,
Kember et al reported that students’ approaches to
learning could be described by a model consisting of
two main factors namely deep and surface regardless
of intermediate approaches[6].
Biggs et al clustered students’ previous learning
strategies and motivation together and called them
“preferred approaches to learning” which they
described as another student related factor[7]. Preferred
learning approaches which are associated with
student related presage factors can be influenced by
other presage factors, learning-focused activities and
Address correspondence to:
Dr. Cihat Tetik, MD, PhD, Associate Professor, Department of General Surgery, School of Medicine, Pamukkale University, Denizli, 20070,
Turkey. Tel: +90-506 511 1811, Fax: +90-258 296 2433, E-mail: ctetik@pamukkale.edu.tr
312
Students’ Learning Approaches at Medical Schools Applying Different Curricula in Turkey
learning outcomes and they can affect ongoing learning
approaches during the study process[7]. Apart from
student-related presage factors, other presage factors
are related to the teaching context. Teaching context
presage factors include objectives of the learning
session, assessment method, classroom climate,
teaching method[8] and institutional procedures[9]. In
summary, a student’s approach to learning as one of the
presage factors may be changed by prior knowledge,
abilities, curriculum (including assessment, course
structure and content), teaching method, learning
climate, and learning outcomes.
This study was designed to reveal learning
approaches of undergraduate students at different
medical schools with different curricula in Turkey.
Furthermore, we compared these different curricula;
Hybrid, Integrated and Problem Based Learning (PBL)
in terms of the differences of students’ approaches to
learning (SAL) if there were any.
Approval of the institutional ethics committee was
obtained in 2008.
SUBJECTS AND METHODS
To reveal learning approaches of medical students
in Turkey, the Revised Two-Factor Study Process
Questionnaire developed by Biggs et al in 2001 was
chosen[7]. This questionnaire is unidimensional
for each subscale and the subscales are internally
consistent[7]. It asks 20 items about students’ attitudes
to studying and ways of studying. To calculate a
student’s deep approach score, the scores of items
related to the 1st, 2nd, 5th, 6th, 9th, 10th, 13th, 14th, 17th and
18th questions are added. The sum of the remaining
items’ scores provides the surface approach score.
Odd number questions probe and score motivation
and even number questions probe and score strategy.
The maximum possible score is 50 for each of deep
or surface approaches consisting of motivation and
strategy scores equally whereas the minimum possible
score is ten for each approach. The Revised Two-Factor
Study Process Questionnaire was translated into
Turkish at п¬Ѓrst in order to solve language problem for
participants.
Apart from this, the questionnaire for demographic
characteristics consisting of four questions asking
student’s gender, high school, parents’ graduation
and living area was established and applied in order
December 2009
to see any association between learning approaches
and these characteristics.
Three medical schools were chosen. They all accept
students achieving high scores from Central Admission
Test (CAT) as the only selection criterion. The lowest
score to be accepted by Medical School of Pamukkale
University was 356,491, whereas it was 358,422 and
361,520 for Akdeniz and Ege university respectively[10].
Learning aims of these three medical schools include
graduation of competent doctors in terms of medical
knowledge, clinical reasoning and professional skills.
During the п¬Ѓrst half of the six-year program, students
attend lectures, laboratory lessons, small group activities
and professional skill classes such as development of
communication skills and clinical reasoning ability.
Apart from these learning activities, medical students
at Pamukkale University are at four-hour PBL sessions
three times per fortnight during the п¬Ѓrst three years.
Students sit for Multiple Choice Question (MCQ) at
the end of each module and each block. At Akdeniz
University, the integrated program consists of п¬Ѓve
thematic blocks in the п¬Ѓrst two years. Applying Hybrid
curriculum, the п¬Ѓrst week of each block is allocated
to PBL modules. Students are assessed by MCQ and
Clinical Objective Reasoning Examination (CORE). At
Ege University, organ system based themes in 10 blocks
are formed by many different disciplines. Additionally,
small group activities and simulated patient problem
sessions are designed. Students here are assessed by
the questions requiring short answers in each block
and by MCQ, simulated patient problems, assignments
and portfolio at the end of each block. The student /
teacher ratio is 2 : 5 for the Medical School at Pamukkale
University, 3 : 2 and 3 : 9 for those at Akdeniz University
and Ege University, respectively. After institutional
ethics approval was obtained, all of Year I and Year II
students (n = 1038) at these three medical schools were
invited to п¬Ѓll out the questionnaires in late 2008. At that
time, 128 of 1038 students in Year I and Year II were at
Pamukkale University, 363 at Akdeniz University, and
547 at Ege University.
Statistical analyses were done by using SPSS 13.0.
Chi-square test was used for the analysis of the data.
RESULTS
Nine hundred and sixty-six out of 1038 (93%)
students п¬Ѓlled out the questionnaires. Three hundred
Table 1: A comparison of students’ learning approaches at three schools: Hybrid, Integrated and PBL (N = 966)*
Curriculum
Hybrid
Integrated
PBL
Deep approach
n
%
218
312
92
64.9
60.7
79.3
Surface approach
n
118
202
24
%
35.1
39.3
20.7
Total students
n
336
514
116
Statistical analysis
%
П‡2
p-value
100.0
100.0
100.0
14.349
0.001
*Total number (N = 966) is less than total number of students (N = 1038) because of the participation rate
December 2009
KUWAIT MEDICAL JOURNAL
313
Table 2: A comparison of learning approaches of all students (N = 966)* in their п¬Ѓrst and second years of study in the undergraduate
medical program
Student category
Deep approach
Surface approach
Total students
n
%
n
%
n
%
Year I
384
69.8
166
30.2
550
100.0
Year II
238
57.2
178
42.8
416
100.0
Statistical analysis
П‡2
p-value
16.417
0.00
*Total number (N = 966) is less than total number of students (N = 1038) because of the participation rate
and thirty-six out of them were in the medical school
with Hybrid curriculum, and 514 and 116 were with the
Integrated and PBL curricula, respectively. Different
numbers of students were caused by the admission
intake proportion of universities[10]. A total of 72
students did not п¬Ѓll the questionnaires. Twenty-seven
out of them were from Akdeniz University, 33 from
Ege University and 12 from Pamukkale University
respectively.
Table 1 depicts the differences between Hybrid,
Integrated and PBL curricula in terms of students’
approaches (П‡2 = 14.349, p = 0.00). Learning approaches
of the participants in Year I and Year II are shown in
Table 2. More participants in Year I have approached
their learning activities deeply than those in Year II
(П‡2 = 16.417, p = 0.00). The results shown in Table 3
importantly reveal that only at the medical school
applying PBL more participants in Year II have deep
approach than those in Year I (П‡2 = 9.983, p = 0.00
for Year I and П‡2 = 16.263, p = 0.00 for Year II, Fig. 1).
The significant difference at Year II between students
at different schools has been mainly caused by the
students at the medical school applying PBL, whereas
in Year I, for the students at the medical school with
Integrated curriculum.
Looking at the demographic characteristics, we
found that there is no association between these
characteristics except gender and learning approaches
(Table 4).
by previous knowledge in order to deal with reallife problems effectively. On the other hand, students
who adopt a surface approach focus on distinct signs
in order to memorize easily and fail to relate concepts
with real life experiences or to distinguish principles
and evidence[11]. Furthermore, higher examination
scores are highly correlated with a deep approach
and lower scores with a surface approach[4,12,13].
Tertiary institutions try to develop intrinsic motivation
and deep strategies and discourage the use of the
surface approach because of these characteristics of
learning approaches mentioned above[14]. In spite of
these efforts students increasingly turn to surface
approaches in many institutions[9,15,16]. Similarly, 42.8%
of the participants in Year II in our study have adopted
DISCUSSION
Students with a deep approach gather new ideas
and organize them within the structure established
Fig. 1: A comparison of all the students in three schools: Hybrid,
Integrated and PBL, comparing learning approaches in their п¬Ѓrst
and second years of study in the undergraduate medical program
(Table 3)
Table 3: A comparison of all students (N = 966)* in three schools: Hybrid, Integrated and PBL, comparing learning approaches in their п¬Ѓrst
and second years of study in the undergraduate medical program
Student category and
the curriculum
Year I
Hybrid
Integrated
PBL
Year II
Hybrid
Integrated
PBL
Deep approach
n
Surface approach
Total students
%
n
%
n
%
132
194
58
77.2
64.2
75.3
39
108
19
22.8
35.8
24.7
171
302
77
100.0
100.0
100.0
86
118
34
52.1
55.7
87.2
79
94
5
47.9
44.3
12.8
165
212
39
100.0
100.0
100.0
*Total number (N= 966) is less than total number of all students (N = 1038) because of the participation rate
Statistical analysis
П‡2
p-value
9.983
0.00
16.263
0.00
314 Students’ Learning Approaches at Medical Schools Applying Different Curricula in Turkey
December 2009
Table 4: A comparison of learning approaches and demographic characteristics of all participants*
Deep approach
n
Gender
Male
Female
High schools
High school (3 years)**
High school (4 years)***
Father's graduation
Pre-university
University degree
Mother's graduation
Pre-university
University degree
Living area
Home
Sharing accommodation
Surface approach
%
n
%
Total students
n
%
329
292
59.6
71.0
223
119
40.4
29.0
552
411
100.0
100.0
133
488
69.6
63.0
58
286
30.4
37.0
191
774
100.0
100.0
299
320
66.4
62.4
151
193
33.6
37.6
450
513
100.0
100.0
408
211
64.9
63.2
221
123
35.1
36.8
629
334
100.0
100.0
384
235
63.9
65.3
217
125
36.1
34.7
601
360
100.0
100.0
Statistical analysis
П‡2
p-value
13.474
0.00
2.895
0.08
1.726
0.189
0.272
0.602
0.188
0.664
*Total numbers are less than 966 due to lack of related information
**Accepting students without any examination score as entering criterion
***Accepting students with high scores on high school selection examination
a surface approach whereas 30.2% of the participants
in Year I have done so (Table 2).
Johnston has shown that learning approaches
could change within six months[17] although some
authors previously claim that approaches to learning
are not changeable[18,19]. Preferred learning approaches
of the students participating to the current study could
be adopted in previous years at high-school. They
might influence the learning strategies of students,
particularly in the п¬Ѓrst year. Richardson reports that
п¬Ѓrst year students in different schools changed their
preferred learning approaches after they started at
their universities[20]. Furthermore, Presage Process
Product model developed by Biggs explains the
changeability as well as the significance of learning
approaches in the learning process[14]. According to
these investigations, looking at the difference between
Year I and Year II students would be enough to see,
if there is a change in their learning approaches.
Actually, the results of the current study have revealed
a significant change. In addition, we have planned to
follow up these students’ learning approaches a year
later, in order to get a clear evidence.
Newble and Jaeger found that the assessment
method has a crucial effect on learning processes in
medical curricula[21]. Changing both the assessment
method and the curriculum could certainly be
expected to impact on students’ approaches to
learning. By comparing a traditional curriculum and
PBL curriculum, Newble and Clarke found that the
traditional curriculum was associated with a surface
approach whereas PBL fosters a deep approach[13]. In
our study, we similarly observed statistically significant
association between PBL and deep approach. Other
previous and recent studies also emphasized that PBL
was associated with deep approach[22,23]. They did not
compare PBL with Hybrid and Integrated curricula
together. Hybrid and Integrated curricula were
associated with a surface approach in this study (Table
3). It might be caused by different assessment methods
and/or other factors related to the curriculum. We did
not include these factors in the current study.
Yan and Kember studied the learning behaviours
of students working in groups[24]. They interviewed
57 university students in Hong Kong and found a
parallel between student behaviour in groups and
learning approaches. Students who engaged in
group activities have similar characteristics to deep
learners while those who avoided group interaction
had surface approach characteristics. Students at the
medical school applying PBL mostly study in a small
teaching group environment. At the medical school
applying PBL in the current study, only seven or eight
students and their facilitator meet together for PBL
sessions 12 hours fortnightly. At these sessions, they
approach their learning topic together. The facilitator
is responsible for making each of them engage in
group activities.
Most of the researchers consider students’
motivations and strategies as core elements of learning
approaches. Hence factors affecting motivation and
strategy are expected to impact on their learning
approach. Factors such as interest in the topic[25,26],
pleasure in the task and self-directed learning are
expected to promote intrinsic motivation and therefore,
a deep approach to learning[27-29]. Early encounters
with clinical problems at PBL might increase interest,
pleasure, and accordingly self-directed learning of the
participants in our study. An earlier study found that
self-directed learning was related to a deep approach
while lack of self-directed learning was associated
with a surface approach[30].
December 2009
KUWAIT MEDICAL JOURNAL
Watkins reported that unsupportive learning
environments with boring classes and extensive
pressure promoted a surface approach[31]. It is
expected that learning in a small group is less boring
than attending a lecture in the big class. The structure
of PBL sessions as mentioned above formed more
supportive and friendly learning environment at the
medical school applying PBL than those at the other
schools in the current study. It includes teaching small
group sessions and accordingly requires more teachers.
Increasing number of teachers decreases student/
teacher ratio. Small enrolment size is another reason
of low student/teacher ratio at the medical school
applying PBL in our study. Low student/teacher ratio
is expected at schools applying PBL because more
students require more teachers in order to learn in
small groups.
Trigwell and Prosser reported that freedom in
learning was associated with a deep approach[32]. The
students at the medical school applying PBL chose
their learning materials without any pressure caused
by their lecturers. They shared their own knowledge
with their group members in a friendly environment.
Establishing a friendly environment is one of the
responsibilities of all PBL session facilitators as well as
forming an interactive and motivating session. Kember
and Gow reported that good teaching sessions were
related to a deep approach[33].
All or some of these factors impacting SAL may
affect our п¬Ѓndings. Interestingly, all п¬Ѓgures relate
to Hybrid curriculum implementing PBL. Fifteen
percent of all classroom sessions were found between
the п¬Ѓgures related to Integrated and PBL curricula
(Table 1 and 3). This supports the idea that PBL
curriculum directs students to adopt a deep approach.
Additionally, similar demographic characteristics
of the participants may support this idea (Table 4).
The difference between learning approaches of male
and female students occurring in our study does not
ignore this idea because the number of male students
is bigger than that of female students at each school
and the gender distribution in these three medical
schools is similar (П‡2 = 1.445, p = 0.485). If there is
an impact of the gender on learning approaches of
students, this impact would be similar at these three
different schools.
CONCLUSION
We conclude that the application of PBL curriculum
is more helpful for developing a deep learning
approach than that of Hybrid and Integrated curricula.
Looking at the п¬Ѓrst two years of a traditional six-year
undergraduate program is not enough to conclude
that Hybrid and Integrated curricula make students
adopt a surface approach. Some factors affecting SAL
such as encounters with clinical problems will occur
315
often and/or lately in these curricula. Accordingly,
measurement of SAL at later years would provide
stronger evidence to our claim and will be beneficial
for our students.
ACKNOWLEDGEMENT
This study was supported by a grant from �The
Management Unit of Scientific Research Projects’ at
Akdeniz University, “Akdeniz Üniversitesi Bilimsel
Araştırma Projeleri Yönetim Birimi”. Project Number:
2008.01.0103.005.
REFERENCES
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
Marton F, Saljo R. On qualitative differences in learning:
I-Outcomes and process. Br J Educ Psychol 1976; 46:411.
Entwistle NJ, Hanley M, Ratcliffe G. Approaches to
learning and levels of understanding. Br J Educ Res J
1979; 5:99-114.
Stiernborg M, Guy J, Tinker R. Nursing students’
approaches to studying. Nurse Educ Today 1997;
17:121-127.
Svensson L. On qualitative differences in learning: III study skill and learning. Br J Educ Psychol 1977; 47:233243.
Entwistle N. Understanding classroom learning.
London: Hodder and Stoughton, 1987.
Kember D, Wong A, Leung DY. Reconsidering the
dimensions of approaches to learning. Br J Educ
Psychol 1999; 69:323-343.
Biggs J, Kember D, Leung DY. The revised two-factor
study process questionnaire: R-SPQ-2F. Br J Educ
Psychol 2001; 71:133-149.
Biggs J. Learning strategies, student motivation patterns
and subjectively perceived success, In: Kirby JR, editor.
Cognitive strategies and educational performance.
Orlando Fla: Academic Press; 1984. p 111-134.
Biggs J. Student approaches to learning and studying.
Melbourne, Australian Council for Educational
Research, 1987.
Sayek Д°, Kiper N, Odabasi O. Undergraduate medical
education report. Turkish Medical Association, 2008.
Ramsden P. Student learning: Improving teaching,
In: Ramsden P, editor. Improving learning: New
perspective. London: Kogan Page; 1988.
Alkhateeb HM, Hammoudi L. Attitudes toward
and approaches to learning п¬Ѓrst-year university
mathematics. Percept Mot Skills 2006; 103:115-120.
Newble DI, Clarke RM. The approaches to learning of
students in a traditional and in an innovative problembased medical school. Med Educ 1986; 20:267-273.
Biggs J. Teaching for quality learning at university:
what the student does. The Society for research into
higher education, Buckingham, Open University Press,
1999.
Gow L, Kember D. Does higher education promote
independent learning? High Educ 1990; 19:307-322.
Watkins D, Hattie J. A longitudinal study of the
approaches to learning of Australian tertiary students.
Hum Learn 1985; 4:127-141.
316
17.
18.
19.
20.
21.
22.
23.
24.
25.
Students’ Learning Approaches at Medical Schools Applying Different Curricula in Turkey December 2009
Johnston C. Student perceptions of learning in п¬Ѓrst year
in an economics and commerce faculty. High Educ Res
Dev 2001; 20:167-184.
Eley MG. Differential adoption of study approaches
within individual students. High Educ 1992; 23:231254.
Thomas PR, Bain JD. Consistency in learning strategies.
High Educ 1982; 11:249-259.
Richardson J. Researching student learning:approaches
to studying in campus based and distance education.
Buckingham, Open University Press, 2000.
Newble DI, Jaeger K. The effect of assessments and
examinations on the learning of medical students. Med
Educ 1983; 17:165-171.
Coles CR. Differences between conventional and
problem-based curricula in their students’ approaches
to studying. Med Educ 1985; 19:308-309.
Abraham RR, Vinod P, Kamath MG, Asha K,
Ramnarayan K. Learning approaches of undergraduate
medical students to physiology in a non-PBL- and
partially PBL-oriented curriculum. Adv Physiol Educ
2008; 32:35-37.
Yan L, Kember D. Engager and avoider behaviour in
types of activities performed by out-of-class learning
groups. High Educ 2004; 48:419-438.
Fransson A. On qualitative differences in learning. IVEffects of intrinsic motivation and extrinsic test anxiety
26.
27.
28.
29.
30.
31.
32.
33.
on process and outcome. Br J Educ Psychol 1977; 47:
244-257.
Entwistle NJ, Tait H. Approaches to learning,
evaluations of teaching, and preferences for
contrasting academic environments. High Educ
1990; 19:169-194.
Kember D, Gow L. Cultural specificity of approaches
to study. Br J Educ Psychol 1990; 60:356-363.
Meyer J, Parsons P. Approaches to studying and
course perceptions using the Lancaster inventory a comparative study. Stud High Educ 1989; 14:137153.
Watkins D. Identifying the study process dimensions
of Australian university students. Aust J Educ 1982;
26:76-85.
Ramsden P, Entwistle N. Effects of academic
departments on students’ approaches to studying.
Br J Educ Psychol 1981; 51:368-383.
Watkins D. How students explain their academic
performance. High Educ Res Dev 1985; 4:89-93.
Trigwell K, Prosser M. Improving the quality of
student learning: the influence of learning context
and student approaches to learning on learning
outcomes. High Educ 1991; 22:251-266.
Kember D, Gow L. Orientations to teaching and their
effect on the quality of student learning. J Higher
Educ 1994; 65:59-74.
December 2009
KUWAIT MEDICAL JOURNAL
317
Original Article
Allergic Sensitization in Healthy School Children in
Kuwait: An Emerging Public Health Concern
Mahdi Al-Mousawi1, Massuma Ali G Ramadan2, Mahmood Mahdi Taher3, Nasser Behbehani4
1
Sheikh Nasser Health Clinic, Hawalli Health Area, Kuwait
2
Ahmadi Health Clinic, Al-Ahmadi Health Area, Kuwait
3
Abu Fateera Clinic, Al Ahmadi Health Area, Kuwait
4
Faculty of Medicine, Kuwait University, Kuwait
Kuwait Medical Journal 2009; 41 (4): 317-321
ABSTRACT
Objective: To determine the current level of sensitization
in healthy school children in Kuwait
Design: Prospective cross-sectional study
Setting: Al-Rashid Allergy Center, Kuwait
Subjects: Healthy school-children between the ages of
8 -15 years
Intervention: Skin prick test (SPT) and measurement of
serum specific IgE levels
Main Outcome Measures: Skin wheal diameter (> 3 mm)
and IgE levels (> 0.35 KIU/l)
Results: 47% of children showed positive specific IgE
levels and 38% showed a positive SPT to at least one
allergen. Polysensitization was common in the population
(IgE 32%, SPT 20%). One in three (31%) children showed
sensitization to Bermuda Grass (IgE); around one in
five showed sensitization to Prosopis juliflora tree (20%
IgE); grass mix (19% SPT); to cockroach (18% IgE, 12%
SPT) and just slightly less to cat (15% IgE and SPT).
One in 10 healthy children were sensitized to dog (11%
IgE, 10% SPT); few to house dust mite (D pteronyssinus)
(IgE 8%, SPT 4%); ascaris (IgE 7%). The lowest rates of
sensitization were to Alternaria alternata (IgE 4%, SPT
2%); aspergillus (SPT 4%); and cladosporium (SPT 2%).
Frequent, severe sensitization (Classes 3 - 6 for specific
IgE) was found for Bermuda Grass (16%), prosopis tree
(6%) and cat allergen (5%).
Conclusion: Kuwait may be an example of conflict
between two aspects of public health endeavour in
a desert environment. Practices that make the desert
habitable, viz, aforestation and air-conditioning may
be the same ones that encourage exposure to allergens,
allergic sensitization and allergic disease.
KEY WORDS: allergic sensitization, Kuwait, public health, school children, skin prick test
INTRODUCTION
The public health consequences of a high level of
allergic sensitization in a population are potentially
serious. Although not all sensitized individuals
eventually develop allergic diseases, a population
with a high prevalence of allergic sensitization
generally has a corresponding high prevalence of
allergic diseases. Allergic diseases thus have their
basis in allergic sensitization, where a predisposed
individual (atopic) has become immunologically
primed (via the production of IgE antibodies) by an
earlier encounter with an allergen. Allergic diseases,
though relatively low in mortality can carry a heavy
morbidity burden and cost to the health services.
Numerous epidemiological studies have shown
that during the last three decades, a significant and
progressive increase in the prevalence of allergic
diseases has occurred in many countries worldwide.
Allergic diseases such as asthma, allergic rhinitis
(hay fever) and atopic eczema are now among the
most prevalent diseases in the world[1-4].
However, population levels of allergic sensitization
have been far less well studied than levels of allergic
diseases. Therefore, the current study is a useful
contribution to the literature. The study also adds
importance to the few but rapidly increasing number
of studies of allergic disease and allergic sensitization
in the Arab World where possible associations between
sensitization and allergic disease resulting from rapid
modernization and environmental change may provide
valuable lessons that can be generalized to many other
situations worldwide.
We report on a study of allergic sensitization
in normal healthy Kuwaiti school children, which
investigates frequency of sensitization to particular
allergens, frequency of mono and polysensitization,
Address correspondence to:
Mahdi Al-Mousawi, MD RCGP PhD, Sheikh Naser AlSabah Health Clinic, Hawalli Health Area, Kuwait. Tel: +965-99999420, E-mail:
almanarclinic@yahoo.com
318
Allergic Sensitization in Healthy School Children in Kuwait: An Emerging...
levels of IgE and total IgE. Other possible
environmental associates in this modern desert
environment are also discussed[5].
SUBJECTS AND METHODS
To study the prevalence of sensitization among
healthy children, three hundred and three healthy
children (303) were enrolled. These healthy children
were selected mainly from schools (n = 281); a few
(n = 22) were selected from health clubs. The study
was conducted in Kuwait from October 2006 to May
2007.
Permission for the study procedure and the
recruitment of the school pupils was sought from
and agreed by the Ministry of Health, the Ministry
of Education and its regional directors. It was agreed
that the best way to recruit healthy children would
be to send a request to the parents of all children
asking their permission to enrol their child in the
study. If the study procedures were acceptable to
the parents/guardian of the child, then the parent/
guardian was asked to sign a consent form which
included the name, age and address of the student
including the telephone number. Screening questions
were included asking parents to identify, if the child
was suffering from any current or chronic disease.
In total, 10,000 copies of the request form were
prepared and distributed to the children’s parents of
four schools in each of the п¬Ѓve educational district
areas. It was assumed that parents (n = 8620) who
did not return the form were unwilling for their
child to participate in the study. Out of all the forms
sent out, 1380 forms were returned with 730 giving
permission for the study.
The forms received were п¬Ѓrst reviewed for
parental consent, age limit (i.e., 9-15 years old) and
to exclude any children suffering from any chronic
disease. A total number of four hundred and six (n =
406) children were within the inclusion criteria with
parental consent but only two hundred and eightyone healthy children (n = 281) from schools were able
to participate.
When arranging appointments with each
family, confirmation was made with each parent/
guardian that the child was not suffering from a) any
chronic/persistent respiratory disease, b) any illness
contraindicated by the study procedures (i.e., severe
allergic reaction), c) any illness that might lead to
erroneous results and d) was not taking medication
that could affect any of the study measures (e.g., anti
histamines). These points were cleared with each
parent/guardian of the child.
The Allergy Center in Kuwait was the base for
the study (laboratory, parents waiting area and three
clinic rooms). As required by the hospital authorities,
there was an emergency arrangement at the site at all
times (i.e., availability of a medical doctor, oxygen,
December 2009
a nebulizer, salbutamol inhaler, adrenaline and
hydrocortisone injection).
All study participants underwent the following
procedures: Assessment of IgE mediated sensitization
by: SPT and Specific serum IgE. In addition, a family
and environmental questionnaire enquired about
smoking at home, current and past pet ownership
and pet contact outside home, home air conditioning,
type of cooking fuels at home, type of home and its
age, floor covering in bedrooms and living rooms;
family history of atopy, history of breast feeding,
history of allergic diseases and immunizations and
demographic characteristics: (age, sex, and place of
birth of the child).
All the 303 healthy children were skin tested
with nine allergens (cat, dog, grass mix, Aspergillus,
cockroach, house dust mite, trees mix, Cladosporium,
Alternaria alternata) and a positive and negative
control. A wheal diameter of 3 mm or more was
considered as positive test[6,7].
Blood (10 ml) was obtained from 285 healthy
children. The remaining, (18 children) refused to
have a blood test, either due to panic at the time of
blood sampling or lack of parental consent for blood
tests. Serum was separated from the whole blood
by centrifuging the blood within 30 - 60 minutes of
collecting the blood. The whole cells were discarded
and serum was kept in the freezer (at -20 В°C) in the
hospital. The serum was assayed for both total and
specific IgE. Allergen-specific IgE determinations
were made with the CAP-RAST test. This is a
fluroenzymatic modification of the conventional
RAST[8]. The assay was calibrated against the WHO
IgE reference serum 75/502. The working range of
the assay was 0.35 - 100 KIU/l. In both tests, serum
samples and standards were incubated with allergen
CAPs and the bound antibody after washing was
reacted with enzyme-labeled anti-IgE antibody.
Specific IgE was tested for Bermuda grass, Prosopis
Juliflora, dog, Alternari alternata, house dust mite,
cockroach and Ascaris.
All SPT and IgE results and responses to the
questionnaire were coded and entered into SPSS and
all were triple checked to ensure there were no entry
transcription errors.
RESULTS
The study showed that a large proportion (nearly
half, 47%, 133/285) of the normal healthy school
children showed positive specific IgE to at least one
allergen from the eight tested, and over a third (38%
114/303) showed positive SPT to the nine allergens
tested by this method (Table 1).
Polysensitization was apparent in one third of this
population measured by detectable specific IgE (32%,
90/285), which was two thirds of those showing any
IgE sensitization (90/133, 68%). SPT measurement
December 2009
KUWAIT MEDICAL JOURNAL
Table 1: Frequency of sensitization to allergens and poly-sensitization in
normal healthy school children (univariate analysis)
Allergen sensitization tests
Normal healthy
school children
(SPT: N = 303)
%
(IgE: N = 285)
Specific IgE positive to at least one (from
Bermuda grass, Prosopis juliflora, cat,
Alternaria alternata, house dust mite, dog,
cockroach, Ascaris)
Mono-sensitization by specific IgE
Poly-sensitization by detectable specific IgE
Skin Test Positive to at least one (from cat,
dog, grass mix, Aspergillus, cockroach, house
dust mite, trees mix, Cladosporium, Alternaria
alternata)
Monosensitization by SPT
Poly-sensitization by Positive Skin Test
Total IgE
Median
Geometric mean and 95%CI
(133/285)
(43/285)
(90/285)
(90/133)
(114/303)
(53/303)
(61/303)
(61/114)
97
92 KU/l
(170 - 277)
47
15
32
68
38
18
20
54
showed 20% (61/303) with polysensitization present
in half (61/114, 54%) of those showing positive SPT
sensitization (Table 1).
High levels of more severe sensitization (Classes
3 - 6 for specific IgE) was found for Bermuda Grass
in half (53%, 46/87) of those sensitized to it; only
slightly fewer (42%, 5/12) of those sensitized to
Alternaria alternata; in a third (33%, 14/43) of those
sensitized to cat, and in a quarter (28%, 16/58) of
those sensitized to Prosopis tree. Only around 17%
showed severe IgE classes 3 - 6 for cockroach (8/50,
16%), for house dust mite (4/24 17%) and for Ascaris
(4/22, 18%). Out of those sensitized to dog very few
showed severe sensitization (1/30, 3%) (Table 2).
Frequencies of sensitization to specific allergens
are shown in Table 2 (specific IgE) and Table 3 (SPT).
One in three (31%) children showed sensitization to
Bermuda Grass (IgE); around one in п¬Ѓve showed
sensitization to Prosopis Juliflora tree (20%, IgE); to
grass mix (19%, SPT); to cockroach (18% IgE, 12%
SPT); and just slightly less to cat (15%, IgE and SPT).
One in 10 healthy children were sensitized to dog
(11% IgE, 10% SPT); and slightly fewer to house dust
mite (IgE 8%, SPT 4%); Ascaris (IgE 7%). The lowest
rates of sensitization were to Alternaria alternata (IgE
4%, SPT 2%); aspergillus (SPT 4%); and Cladosporium
(SPT 2%).
DISCUSSION
The monosensitization, the polysensitization rate
and the total IgE suggest that there is a large pool of
children, age 8 – 15 years (nearly half, i.e., 47% on IgE
measures, 38% SPT) sensitive to one allergen or more,
and a considerable number with multiple and/or a
severe level of sensitization. This is the п¬Ѓrst study
319
Table 2: Sensitization rate by specific IgE and severity of
sensitization by class of detectable IgE in normal healthy school
children
Allergen sensitization
by class
Bermuda Grass
Sensitization rate
Classes from 0-2
Classes from 3-6
Prosopis Juliflora tree
Sensitization rate
Classes from 0-2
Classes from 3-6
Cat
Sensitization rate
Classes from 0 - 2
Classes from 3 - 6
Cockroach
Sensitization rate
Classes from 0-2
Classes from 3-6
House dust mite
Sensitization rate
Classes from 0-2
Classes from 3-6
Alternaria alternata
Sensitization rate
Classes from 0-2
Classes from 3-6
Ascaris
Sensitization rate
Classes from 0-2
Classes from 3-6
Dog
Sensitization rate
Classes from 0-2
Classes from 3-6
Normal healthy school-children
N = 285
%
(87/285)
239/285
(46/285)
(46/87)
31
(58/285)
269/285
(16/285)
(16/58)
20
(43/285)
271/285
(14/285)
(14/43)
15
(50/285)
277/285
8/285
8/50
18
(24/285)
(281/285)
4/285
4/24
8
(12/285)
280/285
(5/285)
(5/12)
(22/285)
281/285
(4/285)
(4/22)
(30/285)
284/285
(1/285)
(1/30)
16
53
6
28
5
33
3
16
1
17
4
2
42
7
1
18
11
0.4
3
solely on a healthy child population in Kuwait. There
has been one healthy young adult epidemiological
survey of allergic sensitization in Kuwait, in which,
half were found to be already sensitized to one or
more inhalant allergens, and total IgE level was
somewhat lower at GM 66 KU/l[9].
Total IgE in normal healthy children in the
current study with a geometric mean of 92 KU/l (CI
170-277) is higher than a number of other studies in
children in the USA[10]. An earlier study of adults in
Kuwait found very much lower rates of sensitization
in healthy adults of GM 44 U/l (CI 11.7 - 162.2)[11],
and a similar rate (132 KU/l) in one very small
Kuwait study with 33 healthy adults[12]. Interestingly
the only two studies so far found with a similar high
level of total IgE in healthy children of similar age
320
Allergic Sensitization in Healthy School Children in Kuwait: An Emerging...
Table 3: Sensitization rates in healthy children 8-15 years by SPT
Sensitization agent
Grass mix
Cat
Cockroach
Dog
Trees mix
House dust mite
Aspergillus
Cladosporium
Alternaria alternata
Normal healthy children 8-15 years
N = 303
%
(56/303)
(46/303)
(35/303)
(31/303)
(15/303)
(13/303)
(12/303)
(7/303)
(6/303)
19
15
12
10
5
4
4
2
2
range (9 - 16 years), is from 50 healthy children in
urban Ghana (GM = 96U/l)[13], and in a study of
179 healthy children aged 12 - 14 years from three
different climate zones in Virginia, Los Alamos and
New Mexico, USA where the 69 healthy children
showed GM > 100 U/l[14].
The high prevalence of polysensitization (IgE 32%,
SPT 20%) in the healthy children in the present study,
is at a level similar to adults in a study published
from work in Kuwait that considered the prevalence
of allergic sensitization to inhalant allergens among
adults who claimed never to have had any allergic
disease or symptom[9].
This suggests that a large pool of sensitized
individuals, (i.e., children and adults) exist in this
population. Although not all atopic individuals
eventually develop allergic disease, they
represent a particularly high-risk group, given
the close association between the prevalence of
allergic diseases such as asthma and rhinitis and
polysensitization (atopy)[15-17].
The current prevalence of mono-sensitization
among healthy children, aged 9 - 15 years (18% by
SPT and 15 % by serum specific IgE) is consistent
with previous results showing a high prevalence of
atopy in Kuwait[9,17] and is in agreement with data
from other studies[18,19].
It seems that allergic diseases were rare in Kuwait
until the mid-1950s[10]. The п¬Ѓrst concrete evidence of a
rapid increase in allergic disease in this environment
was the study of Strannegard and Strannegard[20],
who showed that within a period of three years
(1982 – 85), asthma admissions to hospital among
Kuwaiti children had increased from 9 to 15% of
all emergency admissions. A study among 13 - 14
year-old school children has found a prevalence of
asthma (wheeze) to be as high as 26%[21]. Kuwait is
thus at the upper end of prevalence rate of allergic
disease worldwide, where rates range from 15 - 44%
of the general population[3,8]. Overall the prevalence
of allergic diseases appears to have rapidly increased
in Kuwait, ominously in parallel with urbanization
and development[20,22]. The harsh climatic conditions
found in Kuwait are considered unfavorable for the
December 2009
availability of airborne allergens such as house dust
mite, pollens and mould[23].
A number of studies have now п¬Ѓrmly established
that some of the most prevalent sensitizing allergens
are pollens of local plants, especially Mesquite
(Prosopis), Bermuda grass, Chenopodium, Eucalyptus,
Acacia and Date palm[9,22,24]. These are horticultural
plants, intended to either provide shade/aesthetics
or to bind sand. This involved a massive importation
of non-native plants, and cultivation of others that
are native to the Arabian desert. Incidentally, many
of these plants have turned out to be sources of
potent sensitizing pollens. In the current study
the highest rates of severe sensitization in healthy
school children were found for Bermuda grass and
Prosopis tree. Recent data has shown sensitization to
pollens by specific IgE measurement or SPT detected
in 87 - 92% of patients with allergic rhinitis and/
or asthma[24,25]. Reassuringly, the government has
responded to these п¬Ѓndings by initiating a program
of systematic replacement of many of the flowering
plants with non-flowering alternatives.
Development has also affected the indoor
environment with a significant impact on the
availability of indoor allergens. The extensive use
of air-conditioners has dramatically altered the
indoor environment. House dust mites which could
not tolerate the high ambient temperatures and low
humidity in this environment, now thrive. Thus,
unlike 20 years ago, when sensitization to house dust
mite was found only in 1.5% of allergic patients[23],
today the rate is in the range 24 - 35%. Cockroaches
and moulds probably followed the same pattern[24, 25].
There is also the issue of pollution arising
from emissions from automobiles as well as from
the petroleum industry activities in the country.
The role of fossil fuel combustion products as an
immunological adjuvant in allergen sensitization and
as risk factors for the development and symptomatic
expression allergic diseases is well documented[26, 27].
CONCLUSION
With 15 - 44% of the general population known to
be allergen sensitized in various parts of the world[3,8],
and the current study showing nearly half the children
aged 8 - 15 years in Kuwait sensitized to at least one
inhalant allergen, it needs to be acknowledged that
allergen sensitivity has become a serious public health
problem for children. Allergic diseases are bound to
constitute a major challenge to the Public Health
resources in future. To plan an adequate response
to such a challenge, it is imperative to continue
developing the database of basic information such
as the identity and ambient levels of the sensitizing
allergens involved, the pattern of exposure, factors
that may affect the potency of allergens (such as
pollution, temperature and humidity), as well as
December 2009
KUWAIT MEDICAL JOURNAL
the way sensitization influences the development of
allergic diseases. Work is also needed to study ways
of improving self-management of allergic disease
when it does occur, and to study further possible
protective factors that may reduce the incidence of
sensitization.
13.
14.
ACKNOWLEDGMENT
The study was supported by a grant from Kuwait
Foundation for Advancement of Sciences. Project no.
KFAS 075/98
15.
REFERENCES
16.
1.
Burr ML, Butland BK, King S, Vaughan-Williams E.
Changes in asthma prevalence: two surveys 15 years
apart. Arch Dis Child 1989; 64:1452-1456.
2. Sibbald B, Rink E, D’ Souza M. Is the prevalence of
atopy increasing? Br J Gen Pract 1990; 40:338-340.
3. Aberg N, Hesselmar B, Aberg B, Eriksson B. Increase
of asthma, allergic rhinitis and eczema in Swedish
school children between 1979 and 1991.Clin Exp
Allergy 1995; 25: 815-819.
4. Omran M, Russell G. Continuing rise in the prevalence
of asthma-like symptoms and diagnosed atopic
disease in Aberdeen school children. Eur Respir J
1995; 8:S495.
5. Al-Mousawi MS, Lovel H, Behbehani N, Arifhodzic N,
Woodcock A, Custovic A. Asthma and sensitization
in a community with low indoor allergen levels and
low pet-keeping frequency. J Allergy Clin Immunol
2004; 114:1389-1394.
6. Oppenheimer J, Nelson HS. Skin testing: a survey of
allergists. Ann Allergy Asthma Immunol 2006; 96:1923.
7. Chapman MD, Rowntree S, Mitchell EB, Di Prisco
Euemajor MC, Platts-Mills TA. Quantitative
assessment of IgG and IgE antibodies to inhalant
allergens in patients with atopic dermatitis. J Allergy
Clin Immunol 1983; 72:27-33.
8. Blanca M, Mayorga C, Torres MJ, et al. Clinical
evaluation of Pharmacia CAP System RAST FEIA
amoxicilloyl and benzylpenicilloyl in patients with
penicillin allergy. Allergy 2001; 56:862-870.
9. Ezeamuzie CI, Al-Mousawi M, Dashti H, Al-Bashir
A, Al-Hage M, Al-Ali S. Prevalence of allergic
sensitization to inhalant allergens among blood
donors in Kuwait – a desert country. Allergy 1997;
52:1194-1200.
10. Perzanowski MS, Ronmark E, Nold B, Lundback
B, Platts-Mills TA. Relevance of allergens from cats
and dogs to asthma in the northern most province of
Sweden: schools as a major site of exposure. J Allergy
Clin Immunol 1999; 103: 1018-1024.
11. Wilkinson WM. Development of allergy in the desert.
J Trop Med Hyg 1964; 67:16-18.
12. Khadadah M, Onadeko BO, Ezeamuzie CI, Mustafa
HT, Marouf R, Sugathan TN. The association of skin
test reactivity, total serum IgE levels, and peripheral
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
321
blood eosinophilia with asthma in Kuwait. J Asthma
2000; 37:481-488.
Addo-Yobo EO, Custovic A, Taggart SC, Craven M,
Bonnie B, Woodcock A. Risk factors for asthma in
urban Ghana. J Allergy Clin Immunol 2001; 108:363368.
Platts-Mills T, Vaughan J, Squillace S, Woodfolk J,
Sporik R. Sensitisation, asthma, and a modified
Th2 response in children exposed to cat allergen: a
population-based cross-sectional study. Lancet 2001;
357:752-756.
Foucard T. Allergy and allergy-like symptoms in 1050
medical students. Allergy 1991; 46:20-26.
Burrows B, Sears MR, Flannery EM, Herbison GP,
Holdaway MD. Relations of bronchial responsiveness
to allergy skin test reactivity, lung function, respiratory
symptoms and diagnosis in thirteen-year-old New
Zealand children. J Allergy Clin Immunol 1995; 95:
548-556.
Freidhoff LR, Marsh DG.. The relationship among
asthma, serum IgE, and skin test sensitivity to inhaled
allergens. Int Arch Allergy Appl Immunol 1993;
100:355-361.
Galant S, Berger W, Gillman S, et al. Prevalence of
sensitisation to aeroallergens in California patients
with respiratory allergy. Allergy Skin Test Project
Team. Ann Allergy Asthma Immunol 1998; 81:203210.
Halonen M, Stern DA, Wright AL, Taussig LM,
Martinez FD. Alternaria as a major allergen for
asthma in children raised in a desert environment.
Am J Respir Crit Care Med 1997; 155:1356-1361.
Strannegard IL, Strannegard O. Childhood bronchial
asthma in a desert country. Allergy 1990; 45:327-333.
Behbehani NA, Abal A, Syabbalo NC, Abd Azeem A,
Shareef E, Al-Momem J.Prevalence of asthma, allergic
rhinitis and eczema in 13 to 14 year-old children in
Kuwait: an ISAAC study. International Study of
Asthma and Allergies in Childhood. Ann Allergy
Asthma Immunol 2000; 85:58-63.
Ellul-Micallef R, Al-Ali S. The spectrum of bronchial
asthma in Kuwait. Clin Allergy 1984; 14:509-517.
Collof MJ. Practical and theoretical aspects of the
ecology of house dust mites (Acari: Pyroglyphidae)
in relation to the study of mite-mediated allergy. Rev
Med Veterin Entemol 1991; 79:611-629.
Ezeamuzie CI, Thomson MS, Al-Ali S, Dowaisan A,
Khan M, Hijazi Z. Asthma in the desert: spectrum of
the sensitizing aeroallergens. Allergy 2000; 55:157162.
Hijazi Z, Ezeamuzie CI, Khan M, Dowaisan AR.
Characteristics of asthmatic children in Kuwait. J
Asthma 2002; 39:603-609.
Molfino NA, Slutsky AS, Zamel N. The effect of air
pollution on allergic bronchial responsiveness. Clin
Exp Allergy 1992; 22:667-672.
Muranaka M, Suzuki S, Koizumi K, et al. Adjuvant
activity of diesel-exhaust particulates for the
production of IgE antibody in mice. J Allergy Clin
Immunol 1986; 77:616-623.
322
KUWAIT MEDICAL JOURNAL
December 2009
Original Article
Violence against Medical Staff: Prevalence and Effects of
Violence against Psychiatrists in Kuwait
Farid Ali Atawneh1, Khalid Al-Saleh2, Muhammad Ajmal Zahid3
1
Department of Emergency Medicine, Amiri Hospital, Kuwait
2
Department of Psychiatry, Hospital for Psychological Medicine, Kuwait
3
Department of Psychiatry, Faculty of Medicine, Kuwait University, Kuwait
Kuwait Medical Journal 2009; 41 (4): 322-326
ABSTRACT
Objectives: To determine the prevalence and effects of
violence against psychiatrists in Kuwait
Design: Questionnaire-based study
Settings: Hospital for Psychological Medicine, Kuwait
Subjects: All the consenting psychiatrists working in the only
psychiatric hospital in the country were administered two
questionnaires; a 12-item frequency-weighted questionnaire
to measure the rates, frequency, and severity of violence
and another 5-item, duration-weighted questionnaire to
measure the effects of violence.
Main Outcome Measures: 1) The frequency and the type of
the violent incidents and 2) the after effects of violence on
the victim, over the past one year
Results: Fifty-three (69%) out of 77 psychiatrists completed
and returned the questionnaires. Fifty-one (96%)
psychiatrists reported having experienced one or another
kind of violent incident; twenty-three (49%) experienced
physical violence involving a single act of violence and
another nineteen (36%) were subjected to physical violence
involving multiple assaults or use of a weapon or a gun. The
consequences of violence, in order of frequency, included
flashbacks (53%), taking time off (41%), fearfulness (32%),
and sleeplessness (26%).
Conclusions: The prevalence and severity of violence
against psychiatrists are higher than the emergency
department (ED) doctors but after-effects of violence were
more severe amongst the ED doctors. Introduction of formal
protocols, documentation of violent incidents, prosecution
of offenders, and organizational support are some of the
measures likely to help bring safety at workplace. In view
of the small sample size, firm conclusions are difficult to
draw.
KEY WORDS: doctors, emergency department, psychiatrists, violence
INTRODUCTION
Workplace violence is increasingly being
recognized as a serious health problem in the medical
п¬Ѓeld[1-3]. Formal reports of violence against health staff
are on the increase and the healthcare providers have
expressed their concern about the safety of the medical
staff at work[4]. The Department of Health in UK has
launched a Zero Tolerance Zone Campaign and sent a
clear message to the public that aggression, violence,
and threatening behavior would no longer be tolerated
in the National Health Service[4]. The consequences
of violence against the medical staff have variously
been described to include traumatic flashbacks of the
incident, sleep and appetite disturbances, feelings of
depression, low morale, deterioration in the service
delivered to the patients, and rapid staff turn over[1,5 ].
True incidence of aggression against doctors is
difficult to determine from the literature[1,5]. The
reported incidence of violence has varied from 54 to
79%[1,2,5]. Among the hospital doctors, those working in
psychiatry, accident and emergency departments (ED),
and obstetrics and gynecology have been reported
to carry the highest risk of violence[1,5]. Widespread
variation in rates between doctors working in different
areas and among different groups of patients has been
reported. The severity of incidents recorded varies
in different studies as do the definitions of what
constitutes violence[1,6,7]. Lastly, considerable underreporting of violence has been described as many
doctors, for a variety of reasons, may not see any
point in reporting violent incidents and even expect to
encounter it as part of their normal work[1].
Health and Safety Executive defined violence as,
any incidence in which an employee is threatened or
assaulted by a member of the public in circumstances
arising out of the course of his or her employment[8].
Verbal abuse and threats were, as identified by
health and safety executive, the commonest types of
Address Correspondence to:
Dr. Muhammad Ajmal Zahid, MRC Psych (UK), Associate Professor, Department of Psychiatry, Faculty of Medicine, Kuwait University, PO Box
24923, Safat 13110, Kuwait. Tel: (+) 25310467, E-mail: farid@qualitynet.net, Zahid@hsc.edu.kw
December 2009
KUWAIT MEDICAL JOURNAL
incidents. We decided to use this operational definition
of violence since its comprehensiveness encompasses
verbal and physical assault on the one hand, and
manifest and imminent, on the other.
Although some reports of violence against doctors
and nurses in general hospitals, and accident and
emergency departments have been published during
the last decade[9-12], no data exist about violence against
psychiatrist, a high risk area, in Kuwait. Kuwait is an
Arab country with mid-year population of 3,399,637;
30.75% are Kuwaitis and expatriates, mainly from the
Asian subcontinent (39%) and other Arabs (30.25%)
make up rest of the population[13]. The psychiatric
services are hospital based with once weekly clinics
in the six regional general hospitals. The psychiatric
hospital has 691 beds and provides outpatient services
on a daily basis and runs an emergency walk-in clinic
round the clock. In addition, it has a drug addiction
treatment facility with 225 beds. The hospital is staffed
by 77 psychiatrists, 61 psychologists, seven social
workers, and 451 nurses[14]. The objectives of this
study were to determine the prevalence, degree and
the effects of violence on all doctors serving in the
Hospital for Psychological Medicine in Kuwait.
SUBJECTS AND METHODS
Sampling
The sample consisted of all doctors working in
the hospital. Following approval from the ethical
committee, a written consent was obtained from each
of the participants. The questionnaires were distributed
among the participants and retrieved during the next
four weeks.
Instruments
Violence Indices Scale: A 12-item, frequencyweighted questionnaire was used to measure rates,
frequency, and severity of violence. The questionnaire,
devised and validated by the authors[9], had previously
been used to study violence against doctors[9-12]. The
items are arranged in the order of severity of acts of
violence beginning with minor verbal insults to more
serious acts like shooting with п¬Ѓrearms. Each question
is weighted by the frequency of occurrence during
the past year and the response format includes six
choices: once, twice, thrice, 3-5 times, 6-10 times, 11-19
times, 20 or more times. The internal reliability of the
questionnaire was tested using Cronbach’ Alpha.
Violence Effects Scale: A п¬Ѓve-item, durationweighted questionnaire was used to measure the
effects of violence at work. The items have been
derived from the most commonly reported aftereffects by the staff subjected to violence incidents. The
п¬Ѓve related items selected included reliving experience
(flashbacks), sleeplessness, depression, fearfulness,
and time taken off work. The response format consists
323
of six choices; up to 1 week, 1-2 weeks, 2-3 weeks, 3-4
weeks, and 4 weeks or more. The internal reliability of
the questionnaire was tested using Cronbach’ Alpha.
The prevailing practices and the views of the
nurses on violence was measured through a п¬Ѓve-item
questionnaire. The questions related to their concern
about violence, any training that they might have
received to deal with violent or potentially violent
patients, any hospital policy regarding reporting
of such incidents, and if the police had charged any
offenders following aggressive incidents. Lastly,
they were asked if they thought training to deal with
potentially violent situations would be useful.
Procedures
Categorization of violence: The items on the 12item questionnaire were arbitrarily divided into three
parts:
A. Reponses to items 1-4, involving verbal insults or
gestures implying imminent acts of violence, are
regarded as mild.
B. Items 5-8 involving single acts of physical violence
unlikely to result in serious injury are considered
to indicate violence of moderate severity.
C. Items 9-12 entailed multiple acts of violence or
the use of a knife or a gun likely to cause a serious
or fatal injury has been classified as severe in
type.
Computation of violence indices: The violence
indices can be expressed as either rates or scales.
The rates are binary variables and the scales are
continuous variables. The incidence rate has the
advantage of unambiguous meaning and the ease
of understanding by the general public. The rates,
however, do not reflect the degree of violence. For
this reason frequency of violence in each of the three
categories, mild, moderate, and severe, was also
computed. The frequency reported for each violent
incident, being a continuous variable, was computed
by taking midpoints from the choice format: 3-5 = 4,
6-10 = 8, 11-19 =15, 20 or more = 22.5. Both sets of data
expressing rates as well as frequency are presented.
The data was analyzed on SPSS.
This study was approved by the local ethical
committee of the hospital.
RESULTS
Fifty three (69%) out of 77 doctors (excluding those
on leave abroad) completed the questionnaires. The
male: female ratio was 38: 2 and the age ranged from
27 - 63 years (mean = 46.94; SD = 9.02). The Cronbach’s
Alpha value, based on standardized items, for the
�Violence indices’ and the �Effects’ scales were 0.825
and 0.750, respectively.
Violence against Medical Staff: Prevalence and Effects of Violence against Psychiatrists...
324
December 2009
Table 1. Violent incidents reported by doctors
Type of violence
Swore/insulted
Threatened to hit
Smashed or kicked something
Threw something at the doctor
Pushed or grabbed
Slapped
Kicked or bit
Hit with something
Beat up the doctor
Choked
Threatened with knife/gun
Used knife/gun
2
3-5
13
10
18
10
14
9
7
13
3
2
10
3
12
15
13
7
4
2
7
3
1
7
10
4
2
1
1
-
Prevalence of violence
Fifty-one (96%) psychiatrists reported having
experienced one or more violent incidents during the
last year. Twenty-six (49%) psychiatrists experienced
both mild and moderate degrees of violence; and
nineteen (37%) reported all three; mild, moderate, and
severe forms of violence. In the mild form of violence,
verbal insults (93%), threatening to hit (76%), smashed
or kicked something (70%), in that order, were the most
commonly reported incidents. Amongst the incidents
involving physical assaults, �hit with something’
(42%), �pushed or grabbed’ (40%), and �threatened
with knife/gun’ (26%), were the most frequently
reported (Table 1).
Out of the total number of estimated incidents,
more than three quarter (78%; n = 529) were mild
(verbal insults or threats of violence), 16% (n = 111)
were moderate (involving single act of violence
unlikely to cause serious injury) and 6% (n = 38) were
severe (involving multiple physical assaults or the use
of knife or gun likely to result in serious or fatal injury,
Table 2).
Effects of violence (Table 3)
About half of the doctors suffered from �flashbacks’;
one third became �depressed’; a quarter experienced
Frequency
Estimated number
of incidents
1
112
112
2
64
128
3-5
27
108
6 - 10
16
128
11 - 19
6
90
≥ 20
Total
Total
11-19
≥ 20
6
-
2
1
1
1
-
9
4
1
1
1
-
5
112.5
230
678.5
Mild = 529 (78%); Moderate = 111.5 (16.4%); Severe = 38 (5.6%)
n
%
49
40
36
20
21
9
9
20
4
2
14
4
93
76
70
38
40
17
17
42
8
4
26
8
sleeplessness and a similar number took time off.
Flashbacks and fearfulness persisted in four doctors
beyond four weeks and one doctor took off for more
than a month as an aftermath of experiencing violence
at work.
Table 3: Effects of violence
Duration
( Days)
Flashbacks
Sleeplessness
Fearfulness
Time off
1 -7
22
11
11
20
8 - 14
2
2
4
-
15 - 21
2
1
-
1
22 - 28
-
-
-
-
3 weeks
2
-
2
1
Total
26 (49.1%)
14 ( 26.4%)
17 ( 32.1%)
22 ( 26.4%)
Attitude of doctors towards violence at workplace
(Table 4)
Most doctors (92.5%) regarded training to deal
with violence as �useful’ and many (81%) remained
worried about violence at work. In only two cases, the
offender was charged following the offence.
Table 4: Attitude of doctors towards violence at workplace
Attitude and approach to violence
Table 2: Frequency of violent incidents
Number of times
Number of times
6-10
1
Worried about violence at work
Advised to report violence at work
Trained to deal with violence
Trained to deal with violence useful
Offender charged following violence against you
Yes
n (%)
42 (81)
21 (39)
21 (39)
46 (92.5)
2 (3.8)
Comparison with the previous study (Table 5)
Comparison with a similar study carried out
in the ED of all the six general hospitals eight years
ago showed that the estimated number of incidents
involving single act of violence (moderate) and also
those involving multiple acts or use of a weapon or
gun (severe) are much higher amongst psychiatrists
December 2009
KUWAIT MEDICAL JOURNAL
Table 5: Comparison with doctors working in emergency
department (ED)
Violence
Psychiatrists
N = 53
n
(%)
*ED doctors
N = 101
n
(%)
Severity
Mild
Moderate
Severe
51
26
19
(96)
(49)
(36)
87
22
8
(86)
(21)
(7)
Effects
Flashbacks
Sleeplessness
Depression
Fearfulness
Time off
26
14
17
2
14
(49)
(26)
(32)
(3.7)
(26.4)
51
49
59
44
32
(50.5)
(48.6)
(58)
(43.6)
(31.7)
* This study had reported that 86% of the ED doctors experienced
verbal insults, 28% physical attacks, and 7% repeated physical
assaults likely to cause serious or fatal injury. 86% of those exposed
to violence suffered from one or more of the symptoms consisting
depression, flashbacks, insomnia, and taking �time off’[10].
than the doctors working in the ED. The effects of
violence, however, were more severe in the ED doctors
than the psychiatrists.
DISCUSSION
Our п¬Ѓndings suggest that, both the rates and degree
of violence against psychiatrists are higher than those
reported in the earlier studies. It has been claimed
that violence against mental health workers may be
on the increase[15]. Moreover, although the severity of
violence, especially the moderate and severe forms,
was higher in our psychiatrists, the effects of violence
were more severe in doctors working in ED.
Studies from USA[16,17], Canada[18], Belgium[19] and
UK[20,21] have shown prevalence rate of physical assaults
against psychiatrists to be between 26 and 56%. Eightysix percent (n = 45) of the psychiatrists in our study
reported having been physically attacked. Forty-nine
percent (n = 26) of them were subjected to a single act of
violence (moderate degree) while thirty-seven percent
(n = 19) received multiple assaults likely to have
resulted in serious or fatal outcome (severe degree).
The higher rates and severity of violence in our sample
can be explained in a number of ways. The psychiatric
hospital is the only facility of its kind in the country
and the traditional family support system continues to
be the major informal care provider to the mentally ill
patients. It is only when the behavioral disturbances
become grossly abnormal and unmanageable that the
patients are taken to the hospital[22]. This may partly
contribute to the higher risk of violence experienced
in our group of psychiatrists. Moreover, since the
drug addiction unit is part of the psychiatric hospital,
some of the patients, due to the nature of their
psychopathology, may also have contributed to the
325
higher rates of violence against our psychiatrists[23].
Some authors argue[24] that violence may be associated
with �sick’ organization, overcrowded wards, and
unsuitable environmental conditions for patients
rather than patient psychopathology. The psychiatric
services in Kuwait are grossly inadequate: for a
mid-year population of 3,399,637, there are 0.29
psychiatrists, 0.17 psychologists, 0.02 social workers,
and 1.32 psychiatric nurses per 100,000 population[25].
The community psychiatric services are virtually
non-existent. The services are restricted to the main
psychiatric hospital with some outpatient clinics in
general and specialty hospitals. The provision of
services at primary health and community level is
absent[25]. Lastly, like in any other developing country,
the stigmatizing connotations associated with, and
limited awareness about, psychiatric illnesses in the
country, may have played some role in the higher rates
of violence found in our group of psychiatrists[26].
Although the rates and severity of violence were
lower in the ED doctors, the effects of violence were
more severe in them. More ED doctors suffered
from after-effects and also, the effects lasted longer
in them (Table 5). This may partly be explained by
the very nature of the work in the two groups: the
psychiatrist may perceive aggressive behavior as
one of the possible symptoms of the psychiatric
disorders, accepting it as �part of the job’. Moreover,
by virtue of their own training, psychiatrists may
be better equipped to cope with, and work through,
consequences of violent incidents at workplace. It may
be that the common factor linking staff who are victims
of violence in psychiatric setting is the belief that they
can cope and are coping, whatever the circumstances.
The illusion of coping may be a weak point in their
professionalism[15].
Most (92.5%; n = 46) of our psychiatrists regarded
training to deal with violence as �useful’; a substantial
number (81%; n = 42) remained worried about violence
at workplace; twenty-one (39%) had received training
to deal with violence at work and a similar number had
been advised to report violent incidents. Interestingly,
in 139 possible cases involving physical violence, the
offender was charged only twice. This may perpetuate
under-reporting of violent incidents at work. The
introduction of formal protocols to document violent
incidents, obligatory recording of such incidents, and
prosecution of the offender by the service provider
rather than the victim, may help alleviate some of
the concerns of psychiatrists regarding safety at
workplace[10].
The management of health care workers is an
important issue which merits far more attention than it
seems to be receiving at the present. Lack of respect for
and trust in local organization of care, among others,
has been identified as an important determinant of
mental health professionals’ vulnerability to violence
326
Violence against Medical Staff: Prevalence and Effects of Violence against Psychiatrists...
at workplace[27,28]. The management ought to take
initiative in helping individuals by providing them
with easy access to experienced supervisors who could
help them reflect on their work. It promotes a sense of
being valued, assists them to develop reflective skills,
and ensures that they receive proper training with
positive impact of service on clients, colleagues, and
the working environment[15].
It is important to mention some limitations of this
study. Firstly, our sample size was small which makes
it difficult to draw firm conclusions. Secondly, the
responses to our questionnaires were subject to recall
bias. And lastly, the measures used to determine the
after-effects of violence did not include standardized
instruments. However, our sample constituted all the
consenting psychiatrists working in the only hospital
in the country, and the severity of violence was
measured both in terms of frequency as well as the type
of violent incidents directed against psychiatrists. Our
п¬Ѓndings have important implications for the service
providers. Further prospective studies, to define the
degree of workplace violence and its psychological
consequences, using formal psychiatric interview or
the standardized instruments, are needed.
CONCLUSION
The prevalence and sevirity of violence against
psychiatrists are higher than the emergency
department doctors, whereas the after effect of
violence were more severe amongst the emergency
doctors.
ACKNOWLEDGMENT
This study was supported by the Ministry of Health
Research Committee, Kuwait
REFERENCES
1.
2.
3.
4.
5.
6.
7.
8.
9.
Hobbs FD, Keane UM. Aggression against doctors: a
review. J R Soc Med 1996; 89:69-72.
National Audit Office. A Safer Place to Work: Protecting
NHS Hospital and Ambulance Staff from Violence and
Aggression 2003, Press release.
Income Data Services Study: Violence against staff.
London: Income data services 1990.
Department of Health. Campaign to Stop Violence
against Staff Working in the NHS: Zero Tolerance Zone
(HSC 1999/226). Department of Health 1999.
Schnieden V. Violence at work. Arch Emerg Med 1993;
10:79-85.
Hobbs FD. Fear of aggression at work among general
practitioners who have suffered a previous episode of
aggression. Br J Gen Pract 1994; 44:390-394.
Royal College of Psychiatrists. Safety for Psychiatrists.
Council Report CR 134, 2006.
Health and safety executive violence to staff. IND (G)
692. London: HMSO, 1986.
Zahid MA, Al-Sahlawi KS, Shahid AA, Al-Ajmi MT,
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
December 2009
Awadh JA. Violence towards doctors: prevalence and
effects. Hosp Med 1999; 60:414-418.
Zahid MA, Al-Sahlawi KS, Shahid AA, Awadh JA,
Abu-Shammah H. Violence against doctors: Effects of
violence on doctors working in accident and emergency
department. European Journal of Emergency Medicine
1999; 6:305-309.
Atawneh FA, Zahid MA, Al-Sahlawi KS, Shahid AA,
Al-Farrah MH. Violence against nurses in hospitals:
prevalence and effects. Br J Nurs 2003; 12:102-107.
Al-Sahlawi KS, Zahid MA, Shahid AA, Hatim M, AlBader M. Violence against doctors: A study of violence
against doctors in accident and emergency departments.
European Journal Emergency Medicine 1999; 6:301-304.
The Public Authority for Civil Information (PACI).
Census. Ministry of Interior, Kuwait 2007.
Health Kuwait (Ed XL111). Health and Vital Statistics
Division, Department of Statistics and Medical Records,
Ministry of Health, Kuwait 2006.
Soares JF, Lawoko S, Nolan P. The nature, extent, and
determinants of violence against psychiatric personnel.
Work and Stress 2000; 44:105-120.
Black KV, Compton WM, Wetzel M, et al. Assault by
patients on psychiatric residents at three training sites.
Hosp Community Psychiatry 1994; 45:706-710.
Schwartz TL, Park TL. Assaults by patients on psychiatric
residents: a survey and training recommendations.
Psychiatr Serv 1999; 50:381-383.
Chaimowitz GA, Moscovitch A. Patient assaults against
psychiatric residents: the Canadian experience. Can J
Psychiatry 1991; 36:107-111.
Pieters G, Speybrouck E, De Gucht V, Joos S. Assaults by
patients on psychiatric trainees: frequency and training
issues. Psychiatr Bull 2005; 29:168-170.
Davies S. Assaults and threats on psychiatrists. Psychiatr
Bull 2001; 3:89-91.
Dhumad S, Wijeratne A, Treasaden I. Violence against
psychiatrists by patients. Psychiatr Bull 2007; 31:371-374.
El-Islam FM, Abu-Dagga SI. Illness behavior in mental
ill-health in Kuwait. Scand J Soc Med 1990; 18:195-201.
Swanson JW. Alcohol abuse, mental disorders, and
violent behavior: an epidemiological inquiry. Alcohol
Health and Research World 1993; 17:123-132.
Lanza ML. Violence against nurses in hospital, In:
VandenBos GR, Bulatao EQ, editors. Identifying risks
and developing solutions. Washington DC: American
Psychological Association; 1996. p 29-49.
Zahid MA, Al-Zyed A. Psychiatry in Kuwait. International
Psychiatry 2009; 6:34-36.
El-Islam MF, Abu-Dagga SI. Lay explanations of
symptoms of mental ill health in Kuwait. Int J Soc
Psychiatry 1992; 38:150-156.
Barling J. The prediction, experience, and consequences
of workplace violence, In: VandenBos GR, Bulatao EQ,
editors. Identifying risks and developing olutions.
Washington DC: American Psychological Association;
1996. p 29-49.
Folger R, Baron RA. Violence and hostility at work; A
model of reaction to perceived injustice, In: VandenBos
GR, Bulatao EQ, editors. Identifying risks and developing
solutions. Washington DC: American Psychological
Association; 1996. p 217-228.
December 2009
KUWAIT MEDICAL JOURNAL
327
Case Report
McKusick-Kaufman Syndrome: A Rare Case
Report with Review of Literature
Adnan EL- Kishawi1, Aymen H ELEmmawie1, Santosh K Surana2
Departments of Pediatrics and 2Radiology, Farwania Hospital, Kuwait
1
Kuwait Medical Journal 2009; 41 (4): 327-329
ABSTRACT
Hydrometrocolpos (HMC), postaxial polydactyly (PAP) and
congenital heart disease (CHD) are well documented features
of the McKusick Kaufman Syndrome (MKKS). This is a rare
autosomal recessive disease which may be associated with
other multiple malformations. MKKS is an extremely rare
cause of non-immune hydrops with only one case reported
in the literature. We report the п¬Ѓrst case of MKKS in Kuwait
who presented with non-immune hydrops.
KEY WORDS: hydrometrocolpos, McKusick Kaufman syndrome, non- immune hydrops, polydactyly
INTRODUCTION
McKusick-Kaufman syndrome (MKKS, OMIM
#236700) was п¬Ѓrst reported by McKusick in 1964[1]
as a triad of hydrometrocolpos (HMC), postaxial
polydactyly (PAP) and congenital heart disease (CHD),
in an Old Order Amish sibship. Ever since, more than
90 cases have been reported in the literature[2]. MKKS
is allelic to Bardet Biedl syndrome (BBS, with over
500 cases reported in the literature). BBS consists of
retinitis pigmentosa (hallmark), mental retardation,
hypogonadism, obesity and renal anomalies[2].
Hydrocolpos and PAP may also be present. MKKS
was linked to a mutation on chromosome 20p12 by
Stone in 1998[3]. The gene was cloned by Stone in the
Amish population[4]. For non-Amish females without
a family history, HMC with distal vaginal agenesis or
a transverse vaginal septum and PAP are considered
sufficient clinical evidence to diagnose MKKS at
birth[2]. BBS type 6 also has a mutant MKKS gene (510% of BBS cases). Prognosis for mental development
in MKKS is favorable[5]. Non-immune hydrops
usually carries a poor prognosis and in 75% of the
cases an etiology can be found with full genetic and
pathological evaluation[6].
CASE REPORT
An eight-day-old female neonate (gestational age
30 weeks) was transferred to our hospital. Her mother
was a 28-year-old para 2 + 0 Kuwaiti lady. The parents
were п¬Ѓrst cousins with no family history of any illness.
Antenatal ultrasound at 29 weeks gestation showed
fetal ascites, anhydraminos, distended urinary
bladder, hydronephrosis and a large cystic mass
adjacent to the bladder. An ascitico-amniotic shunt
was placed to drain the ascites in utero. Four days
later the mother developed antepartum hemorrhage
with placental abruption and was delivered by an
emergency Ceserean section.
Our patient had a birth weight of 2.1 kg and
an Apgar score of 3 and 6 at one and п¬Ѓve minutes
respectively. She had generalized edema, hydrops,
low set ears, depressed nasal bridge, downward
slanting eyes, postaxial polydactyly in all limbs
(Fig. 1 and 2), marked abdominal distension (Fig. 3)
and a single perineal orifice. She was intubated
and ventilated. She had an obstructive uropathy
(serum urea 30 mmol/l, creatinine 275 Ојmol/l). Two
urinary catheters (suprapubic and perineal) were
placed. Paracentesis was done with the ascitic fluid
showing white cell count of 158/mm3 (neutrophils
32%, lymphocytes 68%), red cell count of 600/mm3,
protein 35g/dl, LDH 228 IU/l, creatinine 288 Ојmol/l
and culture no growth. The edema subsided and
the abdominal distension resolved gradually but
worsened on removing both catheters. Therefore, the
the perineal catheter was re-inserted.
Serial abdominal ultrasounds showed resolving
hydronephrosis. Genitogram and cystoscopy
showed an urogenital sinus. Magnetic resonance
(MRI) of the abdomen showed hydrometrocolpos
(Fig. 4) and brain computerized tomography (CT)
was normal. Echocardiogram showed atrial septal
defect . Karyotype was 46XX and fluorescent in situ
hybridization (FISH) was normal. Retinal exam
was normal. The renal functions improved. The
patient had a urinary infection with sepsis and was
treated with antibiotics. Renal function gradually
normalized.
Address correspondence to:
Dr Adnan EL- Kishwai, Department of Pediatrics, Farwania Hospital, Kuwait. Tel: 25733008, E-mail: adnankishawi@hotmail.com
328
McKusick Kaufman Syndrome: A Rare Case Report with Review of Literature
December 2009
Fig: 1 Postaxial polydactyly in foot
Fig: 2 Postaxial polydactyly in hand
Fig. 3: Distension due to hydrometrocolpos
Fig. 4: Hydrometrocolpos on MRI
Vaginostomy was done at 60 days of life draining
100 ml of mucinous fluid with urine. The patient
was discharged at 73 days of life on full feeds with
a normal abdominal girth. She was seen in the
outpatient clinic twice and was gaining weight
with appropriate development for corrected age.
Other genitourinary anomalies were reported, such
as urogenital sinus (36%), ectopic urethera, absent
vaginal or uretheral openings, genitourinary tract
п¬Ѓstulae in females and prominent scrotal raphe
with glandular hypospadias in males[2].
Polydactyly is usually postaxial, in the hands
(commonest 29%), the feet or all four limbs.
Polydactyly may be heptadactyly. Syndactyly,
brachydactyly and mesoaxial polydactyly are less
common[2]. CHD includes common atrioventricular
canal, atrial and ventricular septal defects, tetralogy
of Fallot, left hypoplastic heart and patent ductus
arteriosus. Gastrointestinal anomalies include
Hirschsprung disease[5], imperforate anus and
tracheosophageal п¬Ѓstula[7].
Renal involvement may include hydronephrosis,
hydroureter,
cortical
cysts,
atrophy
and
corticomedullary dysplasia but without chronic
renal failure[2]. There were no cases of retinitis
pigmentosa[2]. Development was normal[5]. One
16-year old female patient gave birth to male
child[8]. Craniofacial dysmorphology is rare
and inconsistent[2] including cleft palate, bifid
manubrium, albinism and hearing impairment.
DISCUSSION
MKKS consists of HMC (70% in Amish cases,
95% in non-Amish cases), PAP (60% in Amish
cases, 98% in non-Amish cases), CHD (15% in both
groups) as per Stone et al[3]. MKKS gene is mutant in
Amish patients[4]. This gene is bounded by markers
D20S894 and D20S175. This gene encodes a protein
similar to chaperonin family suggesting its role in
limb, cardiac and reproductive system development.
It is related to the JAG 1 gene which is mutant
in Alagille 1 syndrome. FISH is done to detect
mutations using bacterial artificial chromosome
255F12, 19H8 and 57P3 from chromosome 20p12 as
probes[4].
HMC is caused by distal vaginal atresia or a
transverse vaginal septum leading to accumulation
of cervical secretions due to maternal hormones.
December 2009
KUWAIT MEDICAL JOURNAL
Non-immune hydrops with MKKS as in our case
was reported by Rosen in 1991[9]. The patient had
HMC with urogenital sinus. Antenatal ultrasound
showed polyhydraminos (due to partial or
intermittent urinary obstruction) and a persistent
full bladder which eventually turned out to be the
HMC, stressing the importance of considering HMC,
if there is a persistent bladder-like mass on serial
antenatal ultrasounds.
Due to the phenotypic overlap between MKKS
and BBS, it is important to follow the patients up to
п¬Ѓve years of age for п¬Ѓnal diagnosis. This is due to the
fact that retinintis pigmentosa, obesity and mental
retardation in BBS are age dependent with cone/
rod dystrophy starting after the п¬Ѓrst year of life as
detected by electroretinogram. BBS can be diagnosed
in infancy, if there is hypoplasia of ovaries, uterus
and fallopian tubes. David et al reported nine cases
diagnosed as MKKS in infancy which turned out to be
BBS during follow up in childhood[10]. Faraj and Teebi
reported the incidence of BBS in Kuwaiti Bedouins to
be one in 13,500, but MKKS has never been reported
from Kuwait to the best of our knowledge[11].
Other differential diagnosis of MKKS
include Pallister Hall syndrome (hypothalamic
hamartoblastoma, polydactyly, hydrocolpos,
imperforate anus) as reported by Unsinn[12], Ellis
Van Creveld syndrome (PAP, CHD, natal teeth,
long narrow chest, acromelia), Varadi syndrome
(polydactyly, short stature, cleft palate, mental
retardation) and Mayer Rokitansky Syndrome
(mullerian fusion defect, tetralogy of Fallot, PAP
and renal anomalies)[13].
Prognosis is favorable for vision and development
but complications may occur such as urinary
infections, incontinence, obstruction, renal tubular
acidosis, hypertension or vaginal re-stenosis. Follow
up of MKKS patients with growth, development,
blood pressure, renal function and ERG should
continue into childhood to rule out BBS. Head MRI
is needed to detect a silent hamartoma [12].
CONCLUSION
Our case report highlights the importance of
considering the diagnosis of MKKS in any patient
with HMC / PAP but the diagnosis should not be
п¬Ѓnalized before the age of п¬Ѓve years so as to rule out
BBS. Hypoplasia of the upper female genital tract
may help in differentiating the two conditions.
329
It is important to consider HMC, if serial antenatal
fetal ultrasounds show a persistent full fetal bladder
as early intervention can prevent obstructive
uropathy.
REFERENCES
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
McKusick VA, Bauer RL, Koop CE, Scott RB.
Hydrometrocolpos as a simply inherited malformation.
JAMA 1964; 189:813-816.
Slavotinek AM, Biesecker LG. Phenotypic overlap
of McKusick-Kaufman syndrome with Bardet-Biedl
syndrome: a literature review. Am J Med Genet 2000;
95:208-215.
Stone DL, Agarwala R, Schaffer AA, et al. Genetic
and physical mapping of the McKusick-Kaufman
syndrome. Hum Mol Genet 1998; 7:475-481.
Stone DL, Slavotinek A, Bouffard GG, et al. Mutation
of a gene encoding a putative chaperonin causes
McKusick-Kaufman syndrome. Nat Genet 2000; 25:7982.
Lurie IW, Wulfsberg EA. The McKusick-Kaufmann
syndrome: phenotypic variation observed in familial
cases as a clue for the evaluation of sporadic cases.
Genet Couns 1994; 5:275-281.
Holzgreve W, Curry CJ, Golbus MS, Callen PW, Filly
RA, Smith JC. Investigation of non-immune hydrops
fetalis. Am J Obstet Gynecol 1984; 150:805-812.
Pul N, Pul M, Gedik Y. McKusick-Kaufman syndrome
associated with esophageal atresia and distal
tracheoesophageal п¬Ѓstula: a case report and review of
the literature. Am J Med Genet 1994; 49:341-343.
Cohen E, Javitt MC. Term pregnancy in a patient with
McKusick- Kaufman syndrome. AJR Am J Roentgenol
1998; 171:273-274.
Rosen RS, Bocian ME. Hydrops fetalis in the McKusickKaufman syndrome: a case report.
Am J Obstet
Gynecol 1991; 165:102-103.
David A, Bitoun P, Lacombe D, et al. Hydrometrocolpos
and polydactyly: a common neonatal presentation of
Bardet-Biedl and McKusick-Kaufman syndromes. J
Med Genet 1999; 36: 599-603.
Farag TI, Teebi AS. High incidence of Bardet Biedl
syndrome among the Bedouin. Clin Genet 1989; 36:
463-464.
Unsinn KM, Neu N, Krejci A, Posch A, Menardi G,
Gassner I. Pallister-Hall syndrome and McKusickKaufmann syndrome: one entity? J Med Genet 1995;
32:125-128.
Slavotinek AM, Dutra A, Kpodzo D, et al. A female
with complete lack of Mullerian fusion, postaxial
polydactyly, and tetralogy of fallot: genetic
heterogeneity of McKusick-Kaufman syndrome or a
unique syndrome? Am J Med Genet A 2004; 129:69-72.
330
KUWAIT MEDICAL JOURNAL
December 2009
Case Report
Tuberculosis of the Shoulder: An Unusual Presentation
Margaret Linny Austin, Raja Shaikh, Adel Ahmed
Department of Clinical Radiology, Chest Diseases Hospital, Ministry of Health, Kuwait
Kuwait Medical Journal 2009; 41 (4): 330- 333
ABSTRACT
There is a recent increase in the incidence of musculoskeletal
tuberculosis, especially among the homeless, the immigrant
population, the immunocompromised and also due to
emerging multidrug-resistant strains of Mycobacterium
tuberculosis. Osteoarticular tuberculosis poses a diagnostic
dilemma to the clinician. Advanced disease closely
mimics other granulomatous diseases, infections and
even malignancy. Unfortunately, delayed diagnosis of
tuberculous infection in the extra-axial skeleton leads to
progressive joint deformity and destruction. Radiological
imaging while not being specific, can map the extent of
the disease to arrive at the earliest possible diagnosis. In
this report, we present the unusual radiological п¬Ѓndings of
tuberculous infection of the shoulder.
KEY WORDS: magnetic resonance imaging, shoulder, tuberculosis
INTRODUCTION
Tuberculosis (TB) can affect virtually any organ
system in the body with devastating effects, if left
untreated[1]. More than three quarters of the world’s
cases are found in south and east Asia and subsaharan Africa[2]. Skeletal involvement occurs in 1-3%
of patients with TB, with the spine being the single
most commonly affected osseous site in 50% of cases[3].
Articular manifestations are second in frequency of
presentation, most commonly affecting the knee and
the hip, followed by the sacroiliac joint, shoulder,
elbow and the ankle in order of frequency[2,4]. TB of
the shoulder joint is unusual, the incidence being 1
- 2.8%[5]. In the adult, caries sicca or dry TB is more
common. Concomitant pulmonary TB is seen in about
30% of cases[6]. In this report we present the magnetic
resonance imaging (MRI) features in an unusual case
of the fulminant variety of TB of the shoulder in a
young adult with pulmonary and abdominal TB. The
fulminant variety is usually more common among
children and the elderly. Review of literature revealed
very few instances of reported cases of tuberculous
infection of the shoulder, especially with the complex
combination of MRI п¬Ѓndings described here, making
this case a rare entity.
CASE REPORT
A 23-year-old Southeast Asian lady presented
with a one month history of painful left shoulder.
She denied any significant past or family history,
and was not immuno-compromised. Her hemogram
revealed a raised total white blood cell count and
an ESR of 65 mm/hr. She had been diagnosed as a
case of pulmonary TB two months prior and had
been on a four-drug anti-tubercular treatment (ATT)
regime. Abdominal CT done in the initial month had
revealed diffuse lymphadenopathy in the periportal,
peripancreatic, splenic hilum, para-aortic and parailiac regions. A 2 x 1.2 cm abscess was identified in the
left iliopsoas muscle. The aspirate from this abscess
was negative for acid fast bacilli (AFB). Two weeks
after initialization of the ATT, her sputum became
negative for AFB.
Clinical examination revealed tenderness on
palpation over the scapula. There was restriction of
movement in flexion, extension and abduction of
the shoulder. There was neurological deficit. Plain
radiograph of the shoulder (Fig. 1) revealed cortical
erosion of the greater tuberosity and osteoporosis of
the humeral head and proximal metaphysis with a
moth-eaten appearance. The joint space and glenoid
architecture appeared relatively preserved.
MRI of the left shoulder was performed with a
dedicated shoulder coil on a 1.5T GE scanner. Plain
and post contrast gadolinium enhanced images were
obtained in the sagittal, axial and coronal planes.
The anteromedial aspect of the humeral head, the
greater tuberosity and posterolateral aspect of
the metaphysis showed multiple ring enhancing
abscesses. There were areas of cortical disruption with
spillover and formation of abscesses in the rotator cuff
muscles involving the supraspinatus, subscapularis,
infraspinatus and teres minor. The lateral aspects of
the subscapularis and supraspinatus were seen to
Address correspondence to:
Dr. Margaret Linny Austin, POB 21396, Safat, 13074, Kuwait. Fax: 00965-4890349, E-mail: linny_austin@hotmail.com
December 2009
KUWAIT MEDICAL JOURNAL
331
enhancing lymph nodes were seen in the left axilla.
There were no п¬Ѓstulae or sinus tracts Fine needle
aspiration of the abscess revealed AFB. The patient
subsequently chose to return to her native country
for further management
Fig.1. Oblique radiograph of the left shoulder showing cortical
erosions and mottled destruction of the medullary bone
be separated from their insertions on the humerus
by the collection distending the gleno-humeral joint
and the inferior axillary recess (Fig. 2 a, b and Fig.
3 a - e). The biceps tendon sheath was distended by
the abscess. The imaging п¬Ѓndings were suggestive of
osteomyelitis with secondary arthritis. Multiple rim
Fig. 2a
DISCUSSION
Tuberculous osteomyelitis is usually due to
hematogeneous spread from an active pulmonary,
meningeal or lymphatic focus[6]. The infection can
then erode through the cortex to form a paraosseous
mass or collection, or much later through the articular
surface to involve the joint[7]. There is usually a
fortnight’s delay between infection and clinical
presentation due to an insidious pathologic process.
Isolated tuberculous osteomyelitis, in the absence of
tuberculous arthritis is rare and affects mainly the
femur, tibia and small bones of the hands and feet[8].
Plain п¬Ѓlm п¬Ѓndings of tuberculous osteomyelitis
in the extra-axial skeleton include monostotic
involvement, osteopenia, and minimal or absent
sclerotic reaction in a periarticular lesion. MRI can
demonstrate the intraosseous involvement earlier
than with other modalities and is being increasingly
employed as the primary or even sole imaging
method in osseous and articular infections due to
its lack of ionizing radiation, multiplanar capability
and optimal soft tissue contrast. MRI is extremely
sensitive in giving an accurate anatomical map of the
infection in terms of early soft-tissue changes as well
as the presence and extent of joint effusion. However,
the imaging findings are non-specific, and fine-needle
aspiration or bone biopsy is mandatory to establish
the diagnosis[9]. Chronic untreated infection may lead
to sinus tract formation.
Fig. 2b
Fig.2: Sagittal (a) and axial (b): Fat-suppressed non-enhanced T1W MRI images of the left shoulder showing the osseous cortico-medullary
(thick black arrow) and soft tissue abscesses (thin black arrow)
332
Tuberculosis of the Shoulder: An Unusual Presentation
Fig. 3a
Fig. 3b
Fig. 3d
December 2009
Fig. 3c
Fig. 3e
Fig.3: Coronal oblique (a, b, c,) and axial (d, e) fat-suppressed gadolinium enhanced T1W MRI images showing the cortico-medullary
osteomyelitis (thick black arrow) of the upper humerus and surrounding rim-enhancing joint and soft tissue abscesses (thin black arrow),
as well as the axillary lymph nodes (arrowhead)
Tuberculous arthritis results from the
hematogenous spread of an active pulmonary or
lymphatic focus of tuberculosis to the synovium;
rarely, direct spread from an adjacent focus of
osteomyelitis can occur. Radiographic п¬Ѓndings of
articular TB include monoarticular involvement,
soft-tissue swelling, joint effusions, periarticular
osteopenia and marginal erosions. The articular
cartilage is preserved until late in the disease[10]. This
latter triad of abnormalities is called the Phemister
triad.
If left untreated, bone sequestration and sinus
formation can develop. Complete joint obliteration
with п¬Ѓbrous ankylosis ensues[8]. The mimics of
this entity include pyogenic, fungal, rheumatoid
arthritis and rarely neoplasm when involving
the epiphysis. Factors favoring the diagnosis of
tuberculosis include insidious onset, significant
osteoporosis, minimal sclerosis, relative absence
of periosteal reaction and bone proliferation, and
relative preservation of joint space till late in the
disease[4].
In this case, it is likely that the extensive shoulder
pathology developed even when the patient was on
ATT, because of non-compliance with the therapy.
CONCLUSION
The diagnosis of musculoskeletal TB is difficult
for the clinician by virtue of its rarity. However,
management whether conservative or surgical,
depends on diagnostic efficacy. While imaging
п¬Ѓndings are atypical in this process, the radiologist
December 2009
KUWAIT MEDICAL JOURNAL
must be aware of the obscure manner of presentation
of this disease and aim to reduce morbidity.
5.
ACKNOWLEDGEMENT
We thank Mr Salman and Mr Hamad for their
invaluable help in the processing of these images.
6.
REFERENCES
7.
1.
2.
3.
4.
Harisinghani MG, McLoud TC, Shepard JA, Ko JP,
Shroff MM, Mueller PR. Tuberculosis from head to toe.
Radiographics 2000; 20:449-470.
Moore SL, Rafii M. Imaging of musculoskeletal and
spinal tuberculosis. Radiol Clin North Am 2001; 39:329342.
Leone A, Cerase A, Constantini A. Musculoskeletal
tuberculosis. Radiologist 2000; 7:227-237.
Resnick D. Tuberculous infection. In: Resnick D, editor.
8.
9.
10.
333
Diagnosis of bone and joint disorders. 3rd ed. London:
WB Saunders; 2002. p 2524-2545.
Lakhkar DL, Yadar M, Soni A, Kumar M. Unusual
presentation of shoulder joint tuberculosis: a case
report. Ind J Radiol Imag 2006; 16:1:23-26.
Chapman M, Murray RO, Stoker DJ. Tuberculosis of
the bones and joints. Semin Roentgenol 1979; 14:266282.
Dhillon MS, Rao SS, Sandhu MS, Vasisht RK, Nagi ON.
Tuberculosis of the patella. Skeletal Radiol 1998; 27:4042.
Burrill J, Williams CJ, Bain G, Conder G, Hine AL, Misra
RR. Tuberculosis: a radiologic review. Radiographics
2007; 27:1255-1273.
Lalam RK, Casar-Pullicino VN, Tins BJ. Magnetic
resonance imaging of appendicular musculoskeletal
infection. Top Magn Reson Imaging 2007; 18:177-191.
Sheldon PJ. Forrester DM, Learch TJ. Imaging of
intraarticular masses. Radiographics 2005; 25:105-119.
334
KUWAIT MEDICAL JOURNAL
December 2009
Case Report
AIDS Encephalopathy in a 14-Year-Old Girl
Manal Alsuraikh , Mapkar Osman, Kobolo YM Prasad
Department of Internal Medicine, Al-Jahra Hospital, Kuwait
Kuwait Medical Journal 2009; 41 (4): 334-336
ABSTRACT
Human immunodeficiency virus (HIV) syndrome
encephalopathy is a known clinical entity, but it is not
a common presenting feature in HIV infected children.
It is usually associated with a long illness history and
low CD4 counts. We report a young patient who had
many rare features at presentation. She had acquired
HIV infection vertically from her mother. The other
rare feature she had was gross hepatomegaly due to
extensive fatty infiltration proved by liver biopsy to be
exclusively due to HIV infection.
KEY WORDS: fatty liver, HIV, HIV encephalopathy, opportunistic infections
INTRODUCTION
Globally, there has been a rise in the incidence
of human immunodeficiency virus (HIV) infection
over the past decade. Organ-involvement in HIV has
been well described. However, the diagnosis of HIVencephalopathy is made uncommonly. Progressive
and static encephalopathy with cognitive, behavioral
and motor manifestations has been described in HIV
infected children[1]. Fatty liver has been described
commonly in HIV either due to HIV virus itself,
associated with hepatitis B and C virus co-infections
or due to treatment with anti-retroviral agents[2].
CASE REPORT
A fourteen year-old girl was admitted with a
history of fever and tonic-clonic seizures of oneday duration. She had her п¬Ѓrst seizure four months
previously, which was associated with difficulty in
walking and performing daily activities and gradual
cognitive decline. She also lost weight.
General examination on admission showed a
febrile patient with cachexia, mild pallor, no icterus
or lymphadenopathy with normal hemodynamics
in post-ictal state. Neurologically, she was
stuporous with normal cranial nerves except fundus
examination which showed optic atrophy. There was
generalized hypotonia, brisk reflexes and bilateral
extensor plantars. There was no neck stiffness.
Abdominal examination revealed п¬Ѓrm non-tender
hepatomegaly extending up to the right iliac fossa.
The rest of the systemic examination was normal.
The patient was shifted to intensive care unit to
control her seizures and for assisted ventilation as
she developed hypoxia due to status epilepticus.
Her blood investigations showed lymphopenia,
low platelets, normocytic normochromic anemia and
raised liver enzymes. Serum alkaline phosphtase
(ALP) was 261 IU/l, gamma glutamic transferase
(GGT) was 320 IU/l, aspartate amino transferase
(AST) was 128 IU/l and alanine amino trasferase (ALT)
was 110 IU/l with normal bilirubin levels. Her serum
calcium, phosphorus and magnesium levels were
normal as also were her renal functions. Computed
axial tomography (CT) scan of brain showed brain
atrophy. Cerebrospinal fluid examination showed
increased proteins (0.99 g/l) with normal cell count
and sugar. Electroencephalography (EEG) was
grossly abnormal with diffuse slowing of the basic
activity. Magnetic resonance imaging (MRI) of the
brain showed global white matter changes with no
features suggestive of toxoplasmosis, lymphoma
or cryptococcus. There were bilateral basal ganglia
calcification and ventricular dilatations and the
posterior fossa showed thinning of brain stem and
cerebellum (Fig. 1). Ultrasound and CT abdomen
showed massive hepatomegaly (Fig. 2). Hepatitis
screen for hepatitis A, B and C was negative. Liver
biopsy revealed changes of diffuse, severe, mixed
macrovesicular and microvesicular (predominantly
macrovesicular) steatosis (Fig. 3). Special stain for
copper did not reveal increased deposit within
hepatocytes and there were no inclusion bodies.
Mantoux test and brucella agglutination test were
negative. Investigations done to rule out hemolytic
anemias proved negative. Metabolic disorders
screening for Wilson’s disease and hemochromatosis
as well as lysosomal and glycogen storage diseases
were negative. Her thyroid function tests were
Address correspondence to:
Dr Manal Alsuraikh, MRCP, Department of Internal Medicine, Al-Jahra Hospital, Kuwait. E-mail: alsuraikhmanal@yahoo.com
December 2009
KUWAIT MEDICAL JOURNAL
335
Fig. 1: MRI brain showing global brain atrophy
Fig. 2: CT abdomen showing gross hepatomegaly
Fig. 3: Chest X-ray showing bilateral pneumonitis
Fig.4: Photomicrograph of the liver biopsy showing diffuse
macrovesicular fatty change (hematoxylin and eosin X 400)
normal. HIV test was positive by enzyme linked
immunosorbent assay (ELISA) and Western blot.
Subsequently, she was investigated for opportunistic
infections and was positive for cytomegalovirus,
Epstein Barr virus, JC virus and Cryptosporidium
but was negative for Pneumocystis jirovecii and
Mycobacterium avium intracellulare. She was screened
for latent tuberculosis The CD4 count was 5 and the
CD4:CD8 ratio was inverted. Tracheal aspirate for
Pneumocystis carini and virology were negative. Blood
was also sent for Mycobacterim avium intracellulare,
malaria, JC virus. Patient developed muco-cutaneous
herpes simplex (perioral, anogenital) and in tracheal
secretions (Fig. 4). Our diagnosis was AIDS,
opportunistic infections and AIDS encephalopathy.
After anti-retroviral treatment (HAART), patient
developed CMV and polyoma virus in urine and
blood, Candida septicemia, Pseudomonas in ETT and
grew MRSA in nasal swabs.
On reviewing family history, it was found that
the patient’s mother died of leukemia and her father
died at age of 40 years from supposedly severe
pneumonia. We suspected vertical transmission and
screened her twin brother as well after appropriate
counseling and he was detected to be HIV positive
with no manifestation of AIDS. The patient expired
in spite of adequate and aggressive management.
DISCUSSION
AIDS is a collection of symptoms and infections
resulting from the specific damage to the immune
system caused by the HIV[3]. The later stages of the
disease leave the individual prone to opportunistic
infections and tumors. HIV infection is transmitted
through direct contact with a mucous membrane or
the blood stream with bodily fluid containing HIV
such as blood, semen, vaginal fluid, fluids and breast
milk. The vertical transmission is the predominant
route of transmission in children and accounts
for 85% of pediatric HIV infections. In 2005 alone
AIDS claimed 2.4 - 3.3 million lives out of which
more than 570,000 were children. The symptoms of
AIDS are primarily the result of conditions that do
not normally develop in individuals with healthy
immune systems. Most of these conditions are
infections caused by bacteria, viruses, fungi and
parasites. Opportunistic infections in AIDS patients
affect nearly every organ system. People with AIDS
336
AIDS Encephalopathy in a 14-Year-Old Girl
also have increased risk of developing various types
of cancers such as Kaposi sarcoma, cervical cancer
and lymphomas.
The true incidence of central nervous system
involvement is not known, although it is thought
to occur in most HIV infected children. It is at least
three times more than that in adults. The diagnosis
of HIV encephalopathy is made uncommonly in
HIV infected children as progressive and static
encephalopathy with cognitive, behavioral and motor
manifestations. The risk of HIV encephalopathy is
correlated directly with the severity of HIV-related
symptoms and depression of CD4 count and P 24
antigen level in the mother[4]. Most children will
have their encephalopathy in the early years of their
lives. The diagnosis of HIV encephalopathy is based
on CDC-revised classification system: presence of
one or more progressive neurological п¬Ѓnding for at
least two months (in the absence of other identifiable
causes) from amongst the following:
1. Failure to attain or loss of milestones or
of intellectual ability, verified by standard
developmental scale or neuropsychological
tests
2. Impaired brain growth or acquired microcephaly
as demonstrated by head circumference
measurements or brain atrophy on CT scan or
MRI with serial imaging in children less than
two years
3. Acquired symmetric motor deficits with
paresis, pathological reflexes, ataxia and/or gait
disturbance[1]
The virus probably enters the CNS through infected
macrophages. The neurological manifestations may
result from the direct effects of the virus or through
cells of macrophages lineage and toxic cytokines.
Although most affected children do not have an
identifiable pathogen other than HIV in presentation
(as our patient), other CNS process like opportunistic
infections, inflammatory diseases, vascular or
neoplastic process can cause encephalopathy and
must be searched for. Imaging of brain will show
diffuse cortical atrophy, attenuation of white matter
and inter-cerebral calcification especially in basal
ganglia.
Presence of hepatomegaly, splenomegaly (as in
our patient) and increased viral load increase the
December 2009
likelihood of development of HIV encephalopathy[2].
Being a manifestation of advanced disease, the median
survival rate in patients with HIV encephalopathy is
about 11 month from the diagnosis. Hepatomegaly is
a common manifestation of pediatric HIV infection.
It might be due to HIV infection itself, metabolic
derangements, chronic inflammation, hepatitis coinfection and treatment with certain nucleoside
reverse transcriptase inhibitors. Our patient presented
with fatty liver with no obvious predisposing factors.
There is increasing concern that patients with chronic
HIV infection may be at increased risk of nonalcoholic fatty liver disease (NAFLD), which may
evolve into non-alcoholic steatohepatitis (NASH)
and cirrhosis[6]. The cornerstone of management of
HIV-associated fatty liver is currently to treat the
predominant underlying condition.
CONCLUSION
We present this case in view of the rare presenting
features of HIV in this patient and the long time
interval for HIV encephalopathy to appear and
the associated fatty liver. HIV is a global disease. It
should be suspected in this area as well and age is
no barrier.
REFERENCES
1.
2.
3.
4.
5.
6.
7.
Udgirkar VS, Tullu MS, Bavdekar SB, Shaharao VB,
Kamat JR, Hira PR. Neurological manifestations of
HIV Infection. Indian Pediatr 2003; 40:230-234.
Chun HM, Landrum ML. Liver-related complications
in HIV- infected individuals. Infectious Diseases in
Clinical Practice 2007; 15:38-48.
Marx JL. New disease baffles medical community.
Science 1982; 217: 618-621.
Chang L, Ernst T, Leonido-Yee M, Walot I, Singer
E. Cerebral metabolite abnormalities correlate with
clinical severity of HIV-1 cognitive motor complex.
Neurology 1999; 52:100-108.
Glass JD, Wesselingh SL. Viral load in HIV- associated
dementia. Ann Neurol 1998; 44:150-151.
Abuzaitoun OR, Hanson IC. Organ-specific
manifestations of HIV disease in children. Pediatr
Clin North Am 2000, 47:109-125.
Ristig M, Drechsler H, William G. Hepatic steatosis
and HIV infection. AIDS Patient Care and STDs 2005;
19: 356-365.
December 2009
KUWAIT MEDICAL JOURNAL
337
Case Report
Child Survived with Complete Neurological
Recovery after Prolonged Out-of-Hospital
Cardiac Arrest due to Electric Shock
Hashim E Al-Hashemi1, Yasser A Shalan2, Akram Zakaria1
1
Pediatric Intensive Care Unit, Farwania Hospital, Kuwait
2
Department of Pediatrics, Farwania Hospital, Kuwait
Kuwait Medical Journal 2009; 41 (4): 337-340
ABSTRACT
The mortality and neurological morbidity in children
secondary to out-of-hospital cardiac arrest due to
electric shock is very high. Poor prognosis is related to
lack of cardiopulmonary resuscitation in the п¬Ѓeld, long
duration between cardiac arrest and hospital arrival,
absent pulse on presentation, need for many doses of
epinephrine and relatively long duration of resuscitation
in the emergency room. We present a nine-year-old girl
who sustained an electric injury outside the hospital.
She had no cardiopulmonary resuscitation in the п¬Ѓeld,
presented to the emergency room after 20 minutes with
cardiopulmonary arrest, pulseless, asystole rhythm, п¬Ѓxed
dilated pupils and needed four doses of epinephrine
and ten defibrillation shocks to revert to normal sinus
rhythm. Although optimal pediatric defibrillation doses
are unknown and 2 joules/kg is thought to be suboptimal,
she needed two doses of 7 joules/kg and eight doses of 12
joules/kg to revert to sinus rhythm. However, our patient
had perfect neurological outcome on follow-up after six
months from the event.
KEY WORDS: cardiac arrest, defibrillation, electric shock, neurological outcome
INTRODUCTION
In children the outcome of cardiac arrest outside
the hospital has been poor, with very high rates of
mortality[1,2]. Several studies have demonstrated
that cardiac arrests and longer periods of
cardiopulmonary resuscitation (CPR) were associated
with worse neurological outcomes. Schindler et al[1]
demonstrated that out of 80 patients with cardiac
arrest, six (8%) survived to hospital discharge, and
at one year follow-up three had moderate deficits,
two were in a persistent vegetative state, and one
died. They also demonstrated that no survivors with
good neurological outcome received more than three
boluses of epinephrine or more than 30 minutes of
resuscitation.
We report a case of a nine-year-old girl who
was a victim of electrical injury and presented
to emergency room (ER) after 20 minutes in
cardiopulmonary arrest (CPA), pulseless, asystolic
rhythm and п¬Ѓxed dilated pupils. She needed four
doses of epinephrine and ten shocks for secondary
ventricular п¬Ѓbrillation and remarkably survived
with complete neurological recovery on follow up
after six months.
CASE HISTORY
A nine-year-old previously healthy girl, presented
to our ER 20 minutes after sustaining an electric
shock. The electric current passed through her lips
while drinking from a water cooler and she was
thrown away. She lost her consciousness, became
unresponsive and apneic. She was brought by car
to the hospital. No CPR was done on the way to the
hospital.
On arrival to ER she was in complete CPA with
п¬Ѓxed dilated pupils and a temperature of 34.4 ВєC. The
inlet was mucous membrane of lips and the outlet
was the second toe of right foot (Fig. 1 a, b). Initial
blood gases, after intubation showed severe metabolic
acidosis; pH 6.9, PCO2 6.7 kPa, PO2 15.3 kPa,
HCO3 10.3 mmol/l, BE -21mmol/l. The patient was
intubated and connected to a mechanical ventilator.
As the monitor showed asystole, external cardiac
compression (ECC) was started. The patient received
initially two doses of epinephrine (1 mg) until the
rhythm converted to ventricular п¬Ѓbrillation (VF)
after four minutes. The patient was in pulseless VF.
Therefore, cycles of defibrillation with epinephrine
were started. She received a total of 10 shocks; two
Address correspondence to:
Dr. Hashim E. Al-Hashemi, Pediatric Department, Farwania Hospital, Kuwait. P.O.Box 2380, Al-Ardiya 92400, Kuwait. Fax: 00965-4889534,
E-Mail:Hashimessa@yahoo.com
338
Child Survived with Complete Neurological Recovery after Prolonged ...
December 2009
Fig. 1 a,b: showing the inlet at lower lip and the outlet at the right second toe
shocks at 200 J, then eight shocks at 360 J. Two more
doses of epinephrine (1 mg) and one dose of lignocaine
30 mg were given. After 10 minutes of resuscitation
the rhythm was converted to normal sinus rhythm
with recovery of spontaneous circulation (Fig. 2 a, b).
On arrival to the pediatric intensive care unit (PICU)
the patient was hypotensive (BP 85/40 mmHg) and
was started on dopamine. She developed generalized
tonic convulsions and was started on phenytoin
infusion. Glasgow Coma Scale (GCS) was 6/15 and
pupils were 3 mm with sluggish reaction. She had
generalized hypotonia and hyporeflexia. Laboratory
investigations showed evidence of myocardial injury
(Troponin I 9.4 mcg/l (0.0-0.03) creatinine kinase
CK: 32,469U/l (20-270), CKMB 272 mcg/l (0.6-6.3).
Repeated cardiac enzymes were 1.86, 4,854 and 28.8
respectively. This could be a complication of repeated
shocks causing muscle injury. Electrocardiogram
(ECG) showed ST elevation and T wave inversion in
V2-V4. Echocardiogram showed good left ventricular
size and function, hypokinetic septum, trivial mitral
regurgitation and mild tricuspid regurgitation.
Initial results of renal function, liver function and
coagulation profile were normal. No evidence of
other organ damage was detected.
The patient showed remarkable improvement in
the PICU; she did not have any arrhythmias afterward.
She was extubated on the second day and dopamine
stopped on the fourth day. Neurologically; level of
consciousness started to improve within 24 hours
and she was back to normal after 72 hours without
any focal neurological signs. CT – brain showed
normal brain with no hypoxic changes. The patient
was discharged after seven days from PICU to the
general ward in good general condition. The patient
was discharged home after 10 days. Her speech,
vision and hearing were normal and there was no
neurological deficit. She was seen after six months
and her neurological examination was unremarkable
with normal cognitive function.
DISCUSSION
We report the case of a nine-year-old girl who
sustained an electrical shock from household
electrical equipment. Electrical injury affects the
heart through two mechanisms; direct necrosis of the
myocardium or cardiac dysrhythmia. Asystole and
VF are the most serious of the cardiac complications
of electrical injury[3,4]. Several factors such as voltage,
tissue resistance, tissue susceptibility, type of current,
current pathway, site, and duration of electrical
contact determine the severity and distribution of
the injury[5]. In our case the current passed through a
low resistance area, the mucous membrane of the lip,
passed through the heart to the right foot. The current
was low voltage (220 - 240V, alternating current 5060 Hz) used in household electrical equipment which
can cause sudden death, usually from VF[5,6].
One striking point in our case was the perfect
neurological outcome after out-of-hospital cardiac
arrest. The outcome of cardiac arrest in children
outside the hospital has been poor, with very high
rates of mortality and neurologic morbidity. Many
survivors remain in a persistent vegetative state[1,2]. A
December 2009
KUWAIT MEDICAL JOURNAL
339
Fig. 2 a, b: ECG Lead II showing ventricular п¬Ѓbrillation during resuscitation then the Conversion to normal sinus rhythm.
collective review of 44 articles published from 1970
to 1997 on pediatric cardiac arrest found that overall
survival after out-of-hospital cardiac arrest was poor
at 8.4%[7]. In studies of the neurologic outcome of outof-hospital cardiac arrests in children, all survivors
of arrest had serious neurologic disabilities[1,2,8].
Several studies attempted to identify predictors of
survivals in pediatric out-of-hospital cardiac arrest.
First, early effective bystander CPR and witnessed
arrest are crucial to increasing the chances of
survival[7]. The presence of pulse on arrival to the
hospital is a very important predictor of survival.
Studies showed that children with a respiratory
arrest who still had a palpable pulse had a better
outcome than those with a cardiac arrest[9,10]. This is
because children usually have an arrest secondary to
hypoxia. If the hypoxic insult has been of sufficient
duration and severity to stop the heart, the severe
anoxia undergone by the central nervous system
often precludes a neurologic recovery except in
the setting of hypothermia[1]. The initial cardiac
rhythm has been increasingly recognized to be an
important factor of survival in pediatric cardiac
arrest. Cardiac arrest in children is typically due
to asystole or pulseless electrical activity, whereas
VF and pulseless ventricular tachycardia (VT)
namely, shockable rhythms, are relatively rare[1].
In the collective review approximately 10% of the
pediatric cardiac arrest patients were in VF or VT
and 30% of them survived to discharge from hospital
in comparison to 5% survival only in patients with
asystole.[7].
Another important predictor of survival to
hospital discharge is the duration of resuscitation
in the ER and the doses of epinephrine given. Most
studies have shown that resuscitation of more than 20
to 30 minutes and the use of more than two doses of
epinephrine are associated with poor prognosis[1,11,12].
Our patient obviously had many predictors of
poor survival and neurological outcome; she arrived
to ER after 20 minutes, no CPR was done on the
way, arrived pulseless, п¬Ѓrst recorded rhythm was
asystole with secondary VF and needed four doses
of epinephrine. The only good predictor for survival
was the duration of resuscitation which did not
exceed 10 minutes.
The other remarkable point in our case is the
number and energy doses of defibrillation the patient
received to treat her VF. The patient needed 10
shocks. She received starting dose of 200 J (7 J/kg)
for two doses followed by 360 J (12 J/kg) for the rest
of the CPR. Fortunately, she responded within seven
minutes with recovery of spontaneous circulation.
She did not show any long term evidence of cardiac
dysfunction or neurological deficit as a result of this
high dose. The optimal defibrillation dose in children
is unknown; recommended energy doses for children
are derived from limited animal studies[13], from case
series with few patients[14], and from extrapolation
of adult doses. Studies that prospectively evaluate
the effectiveness of current recommendations for
pediatric shock doses are lacking, and the data
obtained from pediatric animal models and from a
case series[15] indicate that a 2 J/kg dose is at least
suboptimal. It has been suggested that high shock
doses are effective and well tolerated by pediatric
hearts[16]. In this sense, the European Resuscitation
Council’s new guidelines recommend 4 J/kg as the
first energy dose for defibrillation in children[17].
Experimental data on the myocardial injury provoked
by electric shocks are also non-conclusive, with some
studies demonstrating an absence of deleterious
effects of high doses of biphasic energy[18] and other
studies suggesting myocardial damage and worse
neurological outcome in piglets treated with adult
biphasic doses[19,20].
340
Child Survived with Complete Neurological Recovery after Prolonged ...
Our patient showed excellent recovery on follow
up; her cardiac enzymes were back to baseline and
echocardiography showed normal ventricular
function. Neurologically the patient did not have
any neurological deficit with Pediatric Cerebral
Performance Category Scale[21] one at six months
after arrest.
CONCLUSION
Despite the poor outcome of cardiac arrest in
children outside the hospital, some cases may survive
with good neurological outcome. This may be
attributed to many factors of which the cause of the
arrest, electrical shock in our case, can be an important
factor. This point should be further investigated and
patients with favorable etiologies may deserve more
prolonged and aggressive resuscitation. We suggest
using a higher start shock doses for defibrillation in
pediatric arrest, it is well tolerated by pediatric heart
and may be more effective in an arrest situation.
ACKNOWLEDGEMENT
We are thankful to Dr. Essam A Ismail, consultant
pediatrician in Farwania hospital, for his advise in
the preparation of this manuscript.
REFERENCES
1.
2.
3.
4.
5.
6.
7.
Schindler MB, Bohn D, Cox PN, et al. Outcome of outof-hospital cardiac or respiratory arrest in children. N
Engl J Med 1996; 335:1473-1479.
O’Rourke PP. Outcome of children who are apneic and
pulseless in the emergency room. Crit Care Med 1986;
14:466-468.
Koumbourlis AC. Electrical injuries. Crit Care Med
2002; 30:S424-S430.
Varol E, Ozaydin M, Altinbas A, Dogan A. Low-tension
electrical injury as a cause of atrial п¬Ѓbrillation: a case
report. Tex Heart Inst J 2004; 31:186-187.
Solem L, Fischer RP, Strate RG. The natural history of
electrical injury. J Trauma 1977; 17:487-492.
Jensen PJ, Thomsen PE, Bagger JP, Norgaard A,
Baandrup U. Electrical injury causing ventricular
arrhythmias. Br Heart J 1987; 57:279-283.
Young KD, Seidel JS. Pediatric cardiopulmonary
resuscitation: a collective review. Ann Emerg Med 1999;
33:195-205.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
December 2009
Ronco R, King W, Donley DK, Tilden SJ. Outcome and
cost at a children’s hospital following resuscitation
for out-of-hospital cardiopulmonary arrest. Arch
Pediatr Adolesc Med 1995; 149:210-214.
Innes PA, Summers CA, Boyd IM, Molyneux EM.
Audit of paediatric cardiopulmonary resuscitation.
Arch Dis Child 1993; 68:487-491.
Thompson JE, Bonner B, Lower GM Jr. Pediatric
cardiopulmonary arrests in rural populations.
Pediatrics 1990; 86:302-306.
Barzilay Z, Somekh E, Sagy M, Boichis H. Pediatric
cardiopulmonary resuscitation outcome. J Med 1988;
19:229-241.
Zaritsky A, Nadkarni V, Getson P, Kuehl K. CPR in
children. Ann Emerg Med 1987; 16:1107-1111.
Geddes LA, Tacker WA, Rosborough JP, Moore
AG, Cabler PS. Electrical dose for ventricular
defibrillation of large and small animals using
precordial electrodes. J Clin Invest 1974; 53:310-319.
Gutgesell HP, Tacker WA, Geddes LA, Davis S, Lie
JT, McNamara DG. Energy dose for ventricular
defibrillation of children. Pediatrics 1976; 58:898901.
Berg MD, Samson RA, Meyer RJ, Clark LL, Valenzuela
TD, Berg RA. Pediatric defibrillation doses often fail
to terminate prolonged out-of-hospital ventricular
п¬Ѓbrillation in children. Resuscitation 2005; 67:63-67.
Gurnett CA, Atkins DL. Successful use of a biphasic
waveform automated external defibrillator in a highrisk child. Am J Cardiol 2000; 86:1051-1053.
Biarent D, Bingham R, Richmond S, et al. European
Resuscitation Council guidelines for resuscitation
2005. section 6. Paediatric life support. Resuscitation
2005; 67:S97-S133.
Killingsworth CR, Melnick SB, Chapman FW, et al.
Defibrillation threshold and cardiac responses using
an external biphasic defibrillator with pediatric and
adult adhesive patches in pediatric-sized piglets.
Resuscitation 2002; 55:177-185.
Berg RA, Samson RA, Berg MD, et al. Better outcome
after pediatric defibrillation dosage than adult
dosage in a swine model of pediatric ventricular
п¬Ѓbrillation. J Am Coll Cardiol 2005; 45:786-789.
RodrГ­guez-NГєГ±ez A, Lopez-Herce J, Garcia C,
Dominguez P, Carrillo A, Bellon JM. Spanish sudy
group of cardiopulmonary arrest in children.
Pediatric defibrillation after cardiac arrest: initial
response and outcome. Crit Care 2006; 10:R113.
Fiser DH. Assessing the outcome of pediatric
intensive care. J Pediatr 1992; 121: 68-74.
December 2009
KUWAIT MEDICAL JOURNAL
341
Case Report
Gyrate Atrophy of the Choroid and Retina
with Hyperornithinemia: Report of Three
Cases and Review of Literature
Adnan Al Wayel, Morad Nasr, Sherif Sadik
Department of Ophthalmology, Ibn Sina Hospital, Sabah Area, Kuwait
Kuwait Medical Journal 2009; 41 (4): 341-345
ABSTRACT
Hyperornithinemia associated with gyrate atrophy
of the choroid and retina is a rare, autosomal
recessive disorder resulting from a deficiency of
the mitochondrial matrix enzyme, ornithine daminotransferase (OAT). This enzyme catalyses the
pyridoxal phosphate-dependent transamination
of ornithine and a-ketoglutarate to D’-pyrroline
5-carboxylic acid and glutamic acid. Over 150
biochemically documented cases have been reported
out of which one-third are Finnish.
We report three cases of this metabolic disorder
in one family who was investigated for high
myopia associated with degenerative changes in
the fundus. The diagnosis was made on clinical,
electrophysiological and biochemical features. Since
this disorder can present in the pediatric age with
myopia, children presenting with degenerative
myopia need to be investigated for this disorder.
KEY WORDS: Gyrate atrophy (GA), Ornithine d-aminotransferase (OAT)
INTRODUCTION
Gyrate atrophy (GA) of the choroid and retina was
п¬Ѓrst described by Fuchs in 1896[1]. Human hereditary
deficiency of ornithine aminotransferase (OAT)
activity is transmitted as an autosomal recessive trait[2]
and results in 10 to 20-fold increased level of plasma
ornithine and is shown to be associated with GA[3].
The initial complaint of decreasing visual acuity and
night vision is followed by the appearance of sharply
demarcated, circular areas of chorioretinal atrophy
with hyperpigmented margins in the midperiphery of
the fundus[3].
This appears through the п¬Ѓrst three decades of life
and leads to blindness in the fourth to seventh decades.
Myopia, posterior subcapsular cataracts, and vitreous
opacities may also be present[4].
OAT is a mitochondrial nuclear encoded pyridoxal
phosphate enzyme that catalyzes the interconversion
of ornithine glutamate and proline. GA is a genetic
disorders with increased frequency in the Finnish
population with an incidence of one case per 50,000
individuals in Finland[4].
Valle in a review in 2001 revealed that amongst
the over 150 biochemically documented cases of GA,
about one third of them were from Finland and only
seven of them (less than 5%) had been responsive to
therapy with Vitamin B6 dietary supplementation[5].
CASE REPORT
Three children (two boys, 9 and 7 years old and one
girl, 11-year-old) of second-degree consanguineous
parents were involved. The girl child presented with
a two-year history of deterioration in vision. The
past medical history was unremarkable. She had
night blindness and constriction of the visual п¬Ѓelds.
She had been prescribed glasses for myopia when
she was four years of age. Her great grandmother
had visual complaints at 60 years of age for
which she was not investigated. General physical
examination did not reveal any abnormality. There
was no muscle weakness. Ophthalmic examination
showed that she had myopia. Visual acuity was
6/60 uncorrected. With a correction of – 4.0 Sp/– 2.0
Cyl in both eyes visual acuity improved to 6/18.
There was concentric constriction of visual п¬Ѓelds
noted on perimetry. Color vision was normal.
Fundoscopy revealed normal central part (Fig . 1,
2) with sharply demarcated depigmented lesions in
the midperiphery of both retina characteristically
described as GA (Fig . 3, 4).
Address Correspondence to:
Dr. Morad Nasr, FRCS, Department of Ophthalmology, P.O.Box 449, Al Ardiya 92400, Kuwait. Tel: 6502079, E-mail: morad63@hotmail.com
342
Gyrate Atrophy of the Choroid and Retina with Hyperornithinemia...
December 2009
Fig. 1: Fundus view of the right eye showing central part of the
retina with spared macula
Fig. 2: Fundus view of the left eye showing central part of the retina
with spared macula
Fig. 3: Sharply demarcated, circular areas of chorioretinal atrophy in
the mid-periphery with hyperpigmented margins (girl)
Fig. 4: Sharply demarcated,circular areas of chorioretinal atrophy in
the mid-periphery with hyperpigmented margins (girl)
Fig. 5: Sharply demarcated, circular areas of chorioretinal atrophy in
the mid-periphery of the retina (elder boy)
Fig. 6: Sharply demarcated,circular areas of chorioretinal atrophy in
the mid-periphery with hyperpigmented margins (elder boy)
Fig. 7: Sharply demarcated, circular areas of chorioretinal atrophy in
the mid-periphery of the retina (younger boy)
Fig. 8: Sharply demarcated, circular areas of chorioretinal atrophy in
the mid-periphery of the retina (younger boy)
December 2009
KUWAIT MEDICAL JOURNAL
Screening for all the family revealed two of her
brothers having the same fundus picture (Fig . 5-8) with
myopia between (-3.0 Ornithine d-aminotransferase
(OAT) Sp/-2Cyl) to (-4.5 Sp/-3.0 Cyl). Visual acuity
improved to 6/12 with glasses. The color vision was
normal.
The routine blood chemistry including liver and
renal function tests and muscle enzymes were within
normal limits. The blood ammonia was 51 Ојg / dl
(reference range 25-93 Ојg/dl). Quantitative analysis
of plasma and urinary amino acids were carried
out by gradient elution high-performance liquid
chromato-graphy (HPLC) using a C18 octadecylsilyl
(ODS), 5 Ојm particle column after pre-column
derivatization with ophthalaldehyde.
A massive increase in the concentration of ornithine
in plasma and urine, between 721-864 Ојmol/l
(reference range 24 - 112 Ојmol/l), mild hypo-lysinemia
54 - 83 Ојmol/l (reference range 107 - 244 Ојmol/l) and
lysinuria was noted. The d-lactam of ornithine was
detected in their urine. No other abnormal amino
acids were detected. In view of the ophthalmological
п¬Ѓndings associated with increased blood ornithine
without hyperammonemia or homocitrullinuria, a
diagnosis of hyperornithinemia associated with GA of
the choroid and retina, was made.
The patients were started on pyridoxine 30 mg/
day orally and arginine restricted diet with plenty of
gelatin which is a rich source of proline. They were
advised to come for a follow up after six months
to monitor their blood ornithine levels. After six
months blood ornithine level decreased only in the
female patient and it was 390 umol/l. However, the
patients were not compliant and were lost to follow
up. Electroretinogram (ERG) showed an extinguished
response in all the siblings. Electrooculogram (EOG)
was subnormal as were the values of dark adaptation
thresholds. This, to the best of our knowledge, is the
п¬Ѓrst documentation of hyperornithinemic gyrate
atrophy (HOGA) from Kuwait.
DISCUSSION
The majority of cases of myopia in children
are variants in the frequency curve of axial length
and curvature. Pathological axial myopia is a
degenerative and progressive condition which is
essentially a disturbance of growth on which is
imposed degenerative phenomenon. The clinical
manifestations of degenerative myopia are the same
as those of simple myopia except that the visual
acuity may not be corrected to normal with any
lenses. Thus, myopia of a mild degree may show
marked degenerative changes while high myopia
may show no changes. An inborn error of ornithine
metabolism resulting in hyperornithinemia, as
in these cases, leads to degenerative myopia.
343
Hyperornithinemia occurs in two types of genetic
disease. In GA of the choroid and retina associated
with
hyperornithinemia,
plasma
ornithine
concentration is increased 10 - 20 fold and there
is no hyperammonemia or homocitrullinuria[6].
Hypolysinemia occurs due to increased renal
clearance of lysine. Plasma glutamic acid
concentrations are sometimes reduced. A deficiency
in the activity of OAT can be demonstrated in
cultured п¬Ѓbroblasts and phytohemagglutinin
(PHA)-stimulated lymphocytes. In another
disorder, the hyperornithinemia-hyperammonemiahomocitrullinuria syndrome (HHH syndrome), a
defect in the transporter that mediates ornithine
entry into the mitochondria results in increased
plasma ammonium and glutamine concentrations
particularly after ingestion of a protein load.
Urinary excretion of orotic acid is increased in HHH
individuals.
The human OAT gene has been cloned and
mapped (10q26), and more than 60 mutations causing
the disease have been identified[6].
GA of the choroid and retina begins in childhood
and leads to blindness in the fourth to seventh decade
of life[7]. The affected individuals develop axial
myopia in early childhood and most have impaired
peripheral and night vision by the п¬Ѓrst decade.
Sharply demarcated, circular areas of chorioretinal
atrophy are observed in the periphery of the retina
on fundoscopy. There is concentric reduction of the
visual п¬Ѓelds leading to tunnel vision and eventually
blindness. Posterior capsular cataracts have been
reported in nearly all patients. The standard tests
of visual function become abnormal at an irregular
rate, with periods of rapid progression interspersed
with periods of relatively stable function.
The ERG, which may be normal initially,
eventually diminishes in amplitude and usually is
totally extinguished well before the chorioretinal
atrophy becomes complete. A few patients have been
reported to have mild proximal muscle weakness.
Tubular aggregates in type 2 skeletal muscle п¬Ѓbres and
ultrastructural abnormalities in the mitochondria of
the skeletal muscle and liver have been described[8].
Despite clinical, biochemical and molecular
characterization of GA, the exact pathophysiologic
mechanism of the progressive retinal degeneration
is unknown and several hypotheses have been
proposed. Sipila and coworkers[9] have proposed
that deficiency of creatine and creatine phosphate
may account for both the histologic abnormalities in
muscle and chorioretinal degeneration. They have
suggested that the high ornithine concentrations
inhibit glycine transaminidase thereby reducing
creatinine synthesis and causing a reduction in total
body creatine and creatine phosphate. The well-
344
Gyrate Atrophy of the Choroid and Retina with Hyperornithemia...
documented sensitivity of glycine transaminidase
to ornithine in vitro and the observations that fasting
plasma guanido-acetate, creatine and creatinine
are all reduced in patients with GA as compared to
normals provide evidence for this hypothesis[9].
Another hypothesis for the pathophysiology of
GA involves the deficient synthesis of D1-pyrroline5-carboxylate owing to the deficiency of OAT and
to inhibitory effects of ornithine on D1-pyrroline5-carboxylate synthase, the enzyme that catalyses
the formation of D1-pyrroline-5-carboxylate from
glutamate. The observation that D1-pyrroline-5carboxylate synthase is inhibited in vitro by nearphysiological concentrations of L-ornithine and that
ornithine is toxic to cells lacking OAT supports this
hypothesis[10].
No form of therapy has been reported to be
unequivocally effective in patients with this rare
disorder. Pyridoxine, the precursor of the co-factor,
pyridoxal phosphate, has been administered in
pharmacological doses in an attempt to stimulate any
residual OAT activity. A signficant reduction in plasma
ornithine has been reported in seven patients with this
therapy[11-13]. Fibroblast OAT in six of these patients
responded in vitro to high concentrations of pyridoxal
phosphate in the assay mixture. One patient described
by Valle and co-workers[10] had an in vivo response
without an in vitro response while Kennaway et al[14]
described a patient with an in vitro response without
an in vivo response. The B6-responsive patients of
Weleber and co-workers[12] showed a biochemical
response as indicated by a decrease in blood ornithine
levels, even to low doses of pryidoxine (18 - 30 mg
/day). Clinical improvement was observed with
high doses (600 mg/day) of this vitamin. However,
the two pyridoxine-responsive patients of Hayasaka
and co-workers[15] had some progression of their
chorioretinal degeneration over two years despite
lowering of their blood ornithine levels while on 120
mg and 600 mg of this vitamin. Hence the possibility
remains that pyridoxine therapy may not produce
clinical improvement even if it produces a biochemical
response. However, the rate of progression of the
disease may be slowed by this therapy. Lowering of
plasma ornithine has also been achieved by dietary
restriction of arginine and by lowering protein intake
to 0.2 g/kg/day[16].
Dietary arginine restriction limits the source
of ornithine. The long-term reduction of ornithine
accumulation by an arginine-restricted diet has
slowed the progression of the chorioretinal atrophy[17].
Promotion of the renal excretion of ornithine by
administration of pharmacological doses of lysine and
a-aminoisobutyric acid have been attempted. Although
these compounds increase ornithine excretion, the
long-term efficacy of this therapy is not known.
December 2009
Creatine supplementation has been tried
for therapy by some workers[18] because of the
hypothesis that GA may be due to a deficiency of
creatine and creatine phosphate. Although creatine
supplementation has resulted in improvement in
histologic abnormalities in the skeletal muscle there
was a continued progress of the chorioretinal lesions
in 13 patients at a 5-year follow-up[19]. These results
however indicate that creatine depletion does play a
role in muscle abnormalities.
Based on a hypothesis that a deficiency of proline
in the retina and choroid may produce atrophies in
the affected patients despite normal serum proline
levels, supplemental proline has been administered.
Proline therapy has been reported to minimize the
progression of the disease in one patient and halt the
progression in two of the four patients of Hayasaka
and coworkers[15]. Thus, the outcome of this therapy
is mixed. In conclusion, no single therapy has been
shown to halt the progression of this disease in all
affected patients. Genetic counseling of the family
members and evaluation of their blood ornithine levels
which are elevated even in the presymptomatic stage
when all other standard visual function tests may be
normal, forms an important part of management of
these cases. Recently, a microradiographic method for
assay of OAT has been reported indicating a potential
for prenatal diagnosis by the п¬Ѓrst trimester chorionic
villus sampling[20].
CONCLUSION
Myopia in a child may be due to the rare, inherited
metabolic disorder �hyperornithinemia' associated
with GA of the choroid and the retina.
Although treatment with pyridoxine, dietary
restriction of arginine, and
supplementation with
creatine and proline have been attempted in previously
reported cases, no form of therapy is found to be
unequivocally effective.
REFERENCES
1.
2.
3.
4.
5.
Fuchs E. Ueber zwei der retinitis pigmentosa
verwandte krankheiten (retinitis punctata albescens
und atrophia gyrata choroideae et retinae). Arch
Augenheilkd 1896; 32:111-116.
Takki K, Simell O. Genetic aspects in gyrate atrophy of
the choroid and retina with hyperornithinaemia. Br
J Ophthalmol 1974; 58:907-916.
Koraszewska-Matuszewska
B,
Korzekwa
M,
Samochowiec-Donocik E. Gyrate atrophy of the
choroid and retina in children. Klin Oczna 2005;
107:121-123.
Takki KK, Milton RC. The natural history of gyrate
atrophy of the choroid and retina. Ophthalmology
1981; 88:292-301.
Valle D, Simell O. The hyperornithinemias, In: Scriver
CR, Beaudet AL, Sly WS, editors. The metabolic and
December 2009
KUWAIT MEDICAL JOURNAL
molecular bases of inherited disease. 8th ed. New
York: McGraw-Hill; 2001:1875-1895.
6. Michaud J, Thompson GN, Brody LC, et al.
Pyridoxine-responsive gyrate atrophy of the choroid
and retina: clinical and biochemical correlates of the
mutation A226V. Am J Hum Genet 1995; 56:616622.
7. Christopher R, Babu SV, Shetty KT. Hyperornithinemia associated with gyrate atrophy of the
choroid and the retina: two cases from India. Ann
Clin Biochem 1999; 36:519-522.
8. Fleury M ,Barbier R ,Ziegler F, et al. Myopathy with
tubular aggregates and and gyrate atrophy of the
choroid and retina due to hyperornithemia. J Neurol
Neurosurg Psychiatry 2007; 78: 656-657.
9. Sipila
I. Inhibition of arginine-glycine
amidinotransferase by ornithine. A
possible
mechanism for the muscular and chorioretinal
atrophies in gyrate atrophy of the choroid and
retina with hyperornithinemia. Biochem Biophys
Acta 1980; 613:79-84.
10. Valle D, Askanas V, Kaiser-Kupfer MI, Takki K,
Engel K. Increased sensitivity of gyrate atrophy
п¬Ѓbroblasts and cultured muscle cells to ornithine
toxicity. Pediatr Res 1980; 14:528-535.
11. Arshinoff SA, Leung K, Strube YNJ. Gyrate Atrophy,
In: William Tasman M, editor. Duane’s Clinical
Ophthalmology. Philadelphia: Lippincott Williams
& Wilkins; 2005; 174-178.
12. Weleber RG, Kennaway NG. Clinical trial of vitamin
B6 for gyrate atrophy of the choroid and retina.
Ophthalmology 1981; 88: 316-324.
345
13. Javadzadeh A, Gharabaghi D. Gyrate atrophy of the
choroid and retina with hyperornithemia responsive
to vitamin B6: a case report. J Med Case Reports 2007;
1:27.
14. Kennaway NG, Weleber RG, Buist NR. Gyrate atrophy
of the choroid and retina with hyperornithinemia:
biochemical and histological studies and response to
vitamin B6. Am J Hum Genet 1980; 32: 529-541.
15. Hayasaka S, Saito T, Nakajima H, Takahashi O, Mizuno
K, Tada K. Clinical trials of vitamin B6 and proline
suplementation for gyrate atrophy of the choroid and
retina. Br J Ophthalmol 1985; 69:283-290.
16. Santinelli R, Costagliola C, Tolone C, et al. Low-protein
diet and progression of retinal degeneration in gyrate
atrophy of the chorid and retina: a twenty – six year
follow up. J Inherit Metab Dis 2004; 27:187-196.
17. Kaiser-Kupfer MI, Caruso RC, Valle D, Reed GF. Use of
an arginine-restricted diet to slow progresson of visual
loss in patients with gyrate atrophy. Arch Ophthalmol
2004; 122:982-984.
18. Sipila I, Rapola J, Simell O, Vannas A. Supplementary
creatine as a treatment for gyrate atrophy of the choroid
and retina. N Engl J Med 1981; 304:867-870.
19. Vannas-Sulonen K, Sipila I, Vannas A, Simell O, Rapola
J. Gyrate atrophy of the choroid and retina. A п¬Ѓve-year
follow-up of creatine supplementation. Ophthalmology
1985; 92:1719-1727.
20. Roschinger W, Endres W, Shin YS. Characteristics of
L-ornithine:2-oxoacid aminotrans-ferase and potential
prenatal diagnosis of gyrate atrophy of the choroid and
retina by п¬Ѓrst trimester chorionic villus sampling. Clin
Chim Acta 2000; 296:91-100.
346
KUWAIT MEDICAL JOURNAL
December 2009
Case Report
Double Aneuploidy: Down Syndrome Associated
with Klinefelter Syndrome
Fouad Abdulla Ali
Department of Pediatrics, Salmaniya Medical Complex, Bahrain
Kuwait Medical Journal 2009; 41 (4): 346-349
ABSTRACT
The occurrence of double aneuploidy, i.e., the existence
of two meiotic non-disjunction events is relatively rare.
Although the association between double autosomal trisomy,
such as trisomy 21 and 18 is extremely unusual, rare cases
of combination between Down syndrome and gonosomal
trisomy have been reported.
We report the case of an Indian boy with Down and
Klinefelter syndrome. The patient’s condition resulted from
de novo trisomy-21 with extra X-chromosome (48, XXY, +21).
He was born normally with birth weight, length and head
circumference of 2590 gram, 45 cm and 31 cm respectively.
The age of the mother was 31 years and father was 32 years
at the time of delivery.
He had dysmorphic features of Down syndrome with an
imperforated anus, severe mental retardation, small phallus
and bilateral undescended testicles but no congenital heart
disease. The weight and height were on the 3rd centile
while the head circumference was below the third centile.
The patient developed hypothyroidism by the age of six
years and was maintained on L-thyroxin. Testosterone level
was pre-pubertal and failed to rise after human chorionic
gonadotropin (HCG) stimulation test.
KEY WORDS: aneuploidy, down syndrome, klinefelter syndrome, non-disjunction
INTRODUCTION
The occurrence of double aneuploidy, i.e., the
existence of two meiotic non-disjunction events is
relatively rare. Multiple non-disjunction has been
observed in non-viable trisomy causing spontaneous
abortion[1]. Reported cases of live born double
aneuploidy usually involve acrocentric autosomes
and sex chromosomes, the commonest being between
Down syndrome and gonosomal trisomy[2].
CASE REPORT
The patient was an Indian boy born on 18-03-1992
at term by spontaneous vaginal delivery. The
pregnancy was complicated by hypertension and
gestational diabetes, but the mother was not on
any medications. Birth weight, length and head
circumference were 2590 gram (5th* centile), 45 cm
(3rd centile) and 31 cm (< 3rd centile) respectively.
Apgar score was 8 and 9 at one and п¬Ѓve minutes
after birth. At birth, the patient had features of
Down syndrome with imperforate anus. He had
colostomy on the second day of life and later total
surgical correction was performed. The mother
was 31 years and the father 32 years old at time of
delivery. They were not related and had another
normal son and a daughter.
The developmental milestones were delayed. He
had his social smile at п¬Ѓve months, crawl at two years
and he walked when he was two and half years old.
The speech was delayed but the hearing and vision
were normal. He is mentally retarded but has no
behavioral disturbance and attends a special school
for the mentally handicapped. The patient developed
hypothyroidism by the age of six years and was
maintained on L-thyroxin.
Physical examination revealed a weight and
height at 3rd centile while head circumference below
3rd centile. He had facial features of Down syndrome
including hypertelorism, depressed nasal bridge,
upslant palpebral п¬Ѓssures, epicanthic folds, small
mouth, geographical tongue and flat occiput. There
were no brush п¬Ѓeld spots and eye examination was
normal (Fig. 1). The hands were short and broad
with bilateral simian creases and clinodactyly of the
п¬Ѓfth п¬Ѓngers (Fig. 2). The feet showed a gap between
hallux and second toe (Fig. 3). The phallus was
small with bilateral undescended testicles and no
signs of puberty. Cardiac examination was normal.
Neurological examination showed generalized
hypotonia and the joints were hyperflexible.
The karyotype was 48, XXY, +21 (Fig. 4), TSH
11.0 uIU/ml (0.25 -4.99), free T4 4.4 pmol/l (6 - 24.5)
Address correspondence to:
Fouad Abdulla Ali, MBBS, DCH, ABP, Consultant Pediatrician and Clinical Geneticist, Department of Pediatrics, Salmaniya Medical Complex,
P.O. Box 12, Kingdom of Bahrain. Mobile: (00973) 39455486, E-mail: fouadali@batelco.com.bh
December 2009
KUWAIT MEDICAL JOURNAL
347
Fig. 1: Facial features of Down syndrome
Fig. 2: Palm of the patient showing a single palmar crease and
п¬Ѓfth п¬Ѓnger clinodactyly
and testosterone 0.07 nmol/l raised to only 0.5 nmol/
l after human chorionic gonadotropin (HCG) test.
Echocardiogram is normal.
Fig. 3: Foot of the patient showing sandle gap between п¬Ѓrst and
second toes
DISCUSSION
The purpose of meiosis is to achieve reduction
from diploid state of gonadal stem cell (2n = 46) to
haploid complement of normal gametes. In meiosis
I, the primary gametocyte (oocyte or spermatocyte)
gives rise to two secondary gametocytes, each with 23
chromosomes. In meiosis II, the secondary gametocyte
separate into their component chromatides, each
gamete contains a haploid set of chromosomes. The
diploid complement is restored at conception with the
union of two haploid gametes.
Non-disjunction is the failure of homologous
chromosome to segregate symmetrically at cell division.
In non-disjunction in meiosis I, pair of homologous
chromosomes fail to separate, while non-disjunction
in meiosis II, the chromatides fail to separate. Each
defect will produce a disomic and a nullisomic cell (2:0
segregation). This ends with trisomic or monosomic
conceptus. Angel et al[3] proposed three events as a
mechanism for non-disjunction. The п¬Ѓrst is failure of
homology to pair during meiosis I, so that they exist
in two separate univalent instead of bivalents. The
348
Double Aneuploidy: Down Syndrome Associated with Klinefelter Syndrome
December 2009
Fig. 4: Karyotype of the patient showing 48, XXY, +21
second event, the univalent provide the separation of
the two chromatides. In the third event, the separated
chromosomals segregate at random to either the oocyte
or to the polar body.
For the acrocenrtic chromosomes (13, 14, 15, 21
& 22), the proportion of cases of paternal origin was
similar among the п¬Ѓve trisomies: 12% for trisomy 13,
17% for trisomy 14, 12% for trisomy 15, 9% for trisomy
21 and 11% for trisomy 22. The stage of non-disjunction
was also similar among the п¬Ѓve trisomies, with the
majority of cases of maternal origin being due to nondisjunction at meiosis I, whereas for paternally derived
cases, non-disjunction occurred primarily at meiosis
II[4]. 55% of 47, XXY and 90% of 47, XXX syndromes are
due to maternal non-disjunction, in which 68% arise
during meiosis I[5].
Double aneuploidy is the result of either a double
event on non-disjunction resulting in one abnormal
gamete, or less likely separate events in gametogenesis
in both parents. The higher occurrence of 48, XXY, +21
may be due to greater accessibility of disomic ovum to
Y-carrying sperm, and promotion of non-disjunction
in ovum by Y-bearing sperm. 48, XXY, +21 was found
to be age-dependent, as the proportion of mothers
and fathers over age 35 was increased in the general
population. This is in contrast to the apparently ageindependent 48, XYY, +21[2].
Microsatellite polymorphisms and cytogenetic
heteromorphisms determined that both aneuploidies
of a terminated pregnancy with 48, XXX, +21 arose
as a result of non-disjunction in maternal meiosis II[6].
While another case report of 48, XXY, +21 have shown
that the origin of the extra X chromosome was the result
of paternal non-disjunction at meiosis I and the extra
chromosome 21 derived from maternal meiosis II nondisjunction[7]. Cases of multiple non-disjunction of sex
chromosomes are reported due to segregation error on
one parent even with multiple X chromosomes[8].
The simultaneous occurrence of two events of
non-disjunction is probably more frequent than it
would be expected by chance. Double aneuploidy has
repeatedly been found in spontaneous abortions with
an incidence of 2.18%[9]. Live born double trisomies
mostly involve acrocentric autosomes and sex
chromosomes. Only few cases reported non-mosaic
trisomy 21 in combination with other aneuploidy,
usually sex chromosomes, the most frequent being
XXY (Klinefelter syndrome)[10,11] with one case report
of a twin with 48, XXY, +21[12]. Other associations
include XXX[13], XYY[14], XO (Turner syndrome)[15] and
trisomy 18[16]. A combination between trisomy 13 and
trisomy 18 with extra sex chromosomes were reported
in less frequency[17,18] .
CONCLUSION
The п¬Ѓndings in our patient support the hypotheses
that a segregation defect at a cellular level may cause
non-disjunction involving more than one chromosome.
DNA study with microsatellite markers is required
to determine the cause and the nature of these
events in our patient. This is in order to improve our
understanding of the mechanism of non-disjunction.
December 2009
KUWAIT MEDICAL JOURNAL
REFERENCES
1.
2.
3.
4.
5.
6.
7.
8.
9.
Diego-Alvarez D, Ramos-Corrales C, Garcia-Hoyos
M, et al. Double trisomy in spontaneous miscarriages:
cytogenetic and molecular approach. Hum Reprod
2006; 21:958-966.
Kovaleva NV, Mutton DE. Epidemiology of double
aneuploidies involving chromosome 21 and the sex
chromosomes. Am J Med Genet A 2005; 134:24-32.
Angell RR. Predivision in human oocytes at meiosis I: a
mechanism for trisomy formation in man. Hum Genet
1991; 86:383-387.
Zaragoza MV, Jacobs PA, James RS, Rogan P, Sherman
S, Hassold T. Non-disjunction of human acrocentric
chromosomes: studies of 432 trisomic fetuses and
liveborns. Hum Genet 1994; 94:411-417.
MacDonald M, Hassold T, Harvey J, Wang LH, Morton
NE, Jacobs P. The origin of 47, XXY and 47, XXX
aneuploidy: heterogeneous mechanisms and role of
aberrant recombination. Hum Mol Genet 1994; 3:13651371.
Park VM, Bravo RR, Shulman LP. Double nondisjunction in maternal meiosis II giving rise to a fetus
with 48, XXX, +21. J Med Genet 1995; 32:650-653.
Lorda-Sanchez I, Petersen MB, Binkert F, et al. A 48, XXY,
+21 Down syndrome patient with additional paternal X
and maternal 21. Hum Genet 1991; 87:54-56.
Leal CA, Belmont JW, Nachtman R, Cantu JM, Medina
C. Parental origin of the extra chromosomes in polysomy
X. Hum Genet 1994; 94:423-426.
Li QY, Tsukishiro S, Nakagawa C, et al. Parental origin
10.
11.
12.
13.
14.
15.
16.
17.
18.
349
and cell stage of non-disjunction of double trisomy in
spontaneous abortion. Congenit Anom (Kyoto) 2005;
45:21-25.
Hou JW, Wang TR. Double aneuploidy with Down’sKlinefelter’s syndrome. J Formos Med Assoc 1996;
95:350-352.
Karaman A, Kabalar E. Double aneuploidy in a Turkish
child: Down-Klinefelter syndrome. Congenit Anom
(Kyoto) 2008; 48:45-47.
Iliopoulos D, Poultsides G, Peristeri V, Kouri G,
Andreou A, Voyiatzis N. Double trisomy (48, XXY, +21)
in monozygotic twins: case report and review of the
literature. Ann Genet 2004; 47:95-98.
Gobbi U, Burroni M, Licci A, et al. Two cases of very
rare double 48, XXX, +21 trisomy. Minerva Pediatr 1980;
32:133-138.
Parmar RC, Muranjan MN, Swami S. Trisomy 21 with
XYY. Indian J Pediatr 2002; 69:979-981.
Ruangdaraganon N, Kotchabhakdi N, Mekanandha V.
Double aneuploidy: 46, X, +21 a combination of Down
syndrome and Turner syndrome. J Med Assoc Thai
1993; 76:S215-217.
Grosse KP, Schwanitz G. Double autosomal trisomy:
case report (48, XX, +18, +21) and review of literature. J
Ment Defic Res 1977; 21:299-308.
Malhes JB, Moore CM, Gershank JJ. A case of double
trisomy in a liveborn infant: 48, XXY, “13. Clin Genet
1977; 11:147-150.
Chen CP, Chern SR, Yeh LF, Chen WL, Chen LF, Wang
W. Prenatal diagnosis and genetic analysis of double
trisomy 48,XXX,+18. Prenat Diagn 2000; 20:750-753.
350
KUWAIT MEDICAL JOURNAL
December 2009
Case Report
Cutaneous Tuberculosis (Scrofuloderma) in
a Five Year-Old Boy: Case Report
Mohammad Dehghan, Vahideh Kazeminezhad, Laily Najafi
Department of Dermatology, 5th Azar Hospital, Golestan University of Medical Sciences, Gorgan, Iran
Kuwait Medical Journal 2009; 41 (4): 350-352
ABSTRACT
Cutaneous tuberculosis (CTB) is a rare form of extrapulmonary TB in our region. The incidence of CTB seems
to be increasing in some countries. CTB continues to be
one of the most elusive and difficult diagnoses to make for
dermatologists practicing in developing countries. We report
the case of a п¬Ѓve-year-old boy with an infected discharging
ulcer on his face referred to our hospital in Gorgan, north
of Iran. After physical, pathological and radiological
examination, the diagnosis of CTB was confirmed. The
condition improved after standard antitubercular regimen.
KEY WORDS: CTB, Middle East
INTRODUCTION
Tuberculosis (TB) is still a serious problem in both
developing and developed countries[1]. The incidence
of TB registered an upward trend even in developed
countries with the advent of HIV infection[2] and
chemotherapy[3]. Cutaneous TB (CTB) is a rare
form of extra pulmonary TB primarily occurring
in developing countries[4] and accounts for 1 - 2%
of extra-pulmonary cases. It is often confused with
various cutaneous disorders both clinically and hist
opathologically[1,2,5]. In such a situation, it is crucial
to recognize the different clinical features of CTB to
prevent missed or delayed diagnoses[5]. The incidence
of CTB seems to be increasing in some countries
like Tunisia[6]. Lupus vulgaris and TB verrucosa cutis
remain the most common forms of CTB, and erythema
induratum of bazin is the most common tuberculid[7,8].
In Lupus vulgaris the usual sites of involvement are
head and neck[8]. In the whole spectrum of CTB,
there are a proportion of patients with disseminating
involvement, who are of great epidemiological
significance as they require a change in the standard
therapeutic regimens recommended for CTB[9,10]. CTB
is a rare form of extra-pulmonary TB in our region
(Middle East). This form should be more extensively
studied because it may be suggestive of visceral
forms of TB.
CASE PRESENTATION
A п¬Ѓve-year-old boy was referred to our dermatology
clinic with a suppurative discharging ulcer in the
periauricular region. It had developed over the last
eight months before admission as a painful red swelling
of periauricular region which then ruptured to form a
п¬Ѓstula after three months with suppurative discharge
(Fig. 1). The patient had a history of productive cough,
anorexia and night sweats since one year. A diagnosis of
dermatophytosis with superadded bacterial infection
was made, which was unsuccessfully treated with
different drugs such as systemic antibiotics (penicillin,
cephazolin, erythromycin, cloxacillin, cephalexin)
and antifungal drugs (griseofulvin, terbinafin). His
vital signs were normal. On physical examination, an
ulcerative nodule was seen in the periauricular region
with tenderness and induration. Retro-auricular and
cervical lymphadenopathy was seen. Smears and
cultures were negative for dermatophytosis and the
smear was negative for Leishman bodies. Smears
of sputum and the lesion were positive for acid-fast
bacillus (AFB). Pathological and histological п¬Ѓndings
of skin biopsy specimen were as follows: ulcerated
skin tissue with multiple granuloma formation in the
dermis composed of epitheloid and multinucleated
giant cells (Langhans type) surrounded by chronic
inflammatory cells (lymphocytes and plasma cells)
(Fig. 2). A consolidation was seen on chest X-ray, in
the upper lobe of the right lung obliterating the right
border of the upper mediastinum and hilum of the
right lung (silhouette sign). An air-bronchogram was
apparent in the lesion (Fig. 3). Based on the above
mentioned clues, the diagnosis of CTB was established
and the standard regimen was prescribed for a period
of six months. Subsequently, improvement was noted
on his face (Fig. 4) and in his chest X-ray.
Address correspondence to:
Laily Najafi, MD, 5th Azar Hospital, Golestan University of Medical Sciences, Gorgan, Iran. Telfax: +0098-171-2241280, E-mail: l.najafi@yahoo.com
December 2009
KUWAIT MEDICAL JOURNAL
Fig 1: A case of cutaneous tuberculosis with ulcerated nodules in
preauricular area with infective discharge
351
Fig 2: Scrofuloderma (low magnification). There are several
tubercles (Г—100)
Fig 3: Chest X-ray with consolidation in the right upper lobe with air
bronchogram appearance
DISCUSSION
CTB is a rare infection, with an incidence of 3.5%
reported among patients with organ TB[3]. The clinical
presentation of CTB may vary depending upon host
immunity, infection route and previous exposure[3,11].
Unexpected areas such as the trunk, extremities,
periocular and perianal regions might be involved
instead of the conventional regions such as the head
and neck, especially the nose, the cheek, and the
ears[8,11].
Generally CTB is classified to two groups: the
п¬Ѓrst group is CTB with actual invasion of bacillus
into the skin and the second group is tubeculoids or
hypersensitivity reactions accompanied with primary
foci in other sites. The most common form of CTB
is different depending on geographical areas. The
majority of investigators believe that lupus vulgaris is
the most common clinical form of CTB[12].
The characteristic lesion is a plaque, composed
of nodules of an �apple-jelly’ colour, which extend
irregularly in some areas, and when they ulcerate,
they heal by scarring causing considerable
tissue destruction over many years[13]. Although
scrofuloderma is one of the most common forms of
CTB as reported in some series[14], most cases develop
from an infected lymph node, and less commonly as
a result of an infected bone, joint[15] and infection of
the lacrimal system[16].
Fig 4: Atrophic scars after antitubercular treatment
This case highlights scrofuloderma arising from
underlying lymph node involvement. Other diagnoses
that need to be considered include carbuncle,
deep mycotic infections, leishmaniasis, atypical
mycobacteriosis, tertiary syphilis and cutaneous
malignancies. Although a positive culture remains the
gold standard for diagnosis of TB, PCR may actually
have a higher sensitivity than culture. A further
advantage for PCR is the possibility for early diagnosis
and institution of treatment in these patients[17]. Our
patient had a suppurative discharging ulcer in the
periauricular region eight months before admission
and a history of productive cough, anorexia and night
sweats since one year. Smears of sputum and the lesion
were positive for AFB. Pathological and histological
п¬Ѓndings of skin biopsy were as follows: ulcerated
352
Cutaneous Tuberculosis (Scrofuloderma) in a Five Year-Old Boy: Case Report
skin tissue with multiple granuloma formation in the
dermis composed of epitheloid and multinucleated
giant cells (Langhans type) surrounded by chronic
inflammatory cells (lymphocytes and plasma cells)
(Fig. 2). A consolidation was seen in the chest X-ray,
in the upper lobe of the right lung which obliterated
the right border of upper mediastinum and hilum
of right lung (silhouette sign). An air-bronchogram
was apparent in the lesion (Fig. 3). Based on the
above mentioned clues, the diagnosis of CTB was
established and the standard regimen was prescribed
for a period of six months. Subsequently, clinical
improvement was noted on his face (Fig. 4) and on
his chest X-ray. A six-month regimen including four
drugs in the initial two months (rifampicin, isoniazid,
pyrazinamide plus ethambutol or streptomycin),
followed by rifampicin and isoniazid in the fourmonth continuation phase is highly effective
in patients with fully sensitive organisms. This
standard six-month regimen is now recommended
by the British and American Thoracic Societies. For
osteoarticular TB, the American Thoracic Society
recommends six-to-nine-month duration of therapy
for patients with drug sensitive disease[18].
CONCLUSION
It is very important to consider the diagnosis
of CTB in chronic lesions, especially when there is
a chronic infection. Unusual cases of CTB are not
uncommon and a high index of clinical suspicion is
one of the most important factors in making a correct
diagnosis.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
REFERENCES
16.
1.
17.
2.
3.
Gonul M, Kilic A, Kulcu Cakmak S, Gul U, Kocak O,
Demiriz M. Annular lupus vulgaris: an unusual case
undiagnosed for п¬Ѓve years. Eur J Dermatol 2007;
17:83-85.
Padmavathy L, Rao LL, Ethirajan N, Krishnaswami
B. Ulcerative lupus vulgaris of face: an uncommon
presentation in India. Indian J Tuberc 2007; 54:52-54.
Kivanc-Altunay I, Baysal Z, Ekmekci TR, Koslu A.
Incidence of cutaneous tuberculosis in patients with
organ tuberculosis. Int J Dermatol 2003; 42:197-200.
18.
December 2009
Motta A, Feliciani C, Toto P, De Benedetto A, Morelli
F, Tulli A. Lupus vulgaris developing at the site of
misdiagnosed scrofuloderma. J Eur Acad Dermatol
Venereol 2003; 17:313-315.
Morand JJ, Garnotel E, Simon F, Lightburn E. Cutaneous
tuberculosis overview. Med Trop (Mars) 2006; 66:229236.
Bravo FG, Gotuzzo E. Cutaneous tuberculosis. Clin
Dermatol 2007; 25:173-180.
Ho CK, Ho MH, Chong LY. Cutaneous tuberculosis in
Hong Kong: an update. Hong Kong Med J 2006; 12 :272277.
Ceylan C, Gerceker B, Ozdemir F, Kazandi A. Delayed
diagnosis in a case of lupus vulgaris with unusual
localization. J Dermatol 2004; 31:56-59.
Bhoyar A, Goodyear H. Oral 6, Cutaneous tuberculosis
in an infant. Br J Dermatol 2007; 156:1404-1405.
Kumar B, Rai R, Kaur I, Sahoo B, Muralidhar S, Radotra
BD. Childhood cutaneous tuberculosis: a study over 25
years from northern India. Int J Dermatol 2001; 40:26-32.
Senol M, Ozcan A, Mizrak B, Turgut AC, Karaca S, Kocer
H. A case of lupus vulgaris with unusual location. J
Dermatol. 2003; 30:566-569.
Higgins C, Cerio R. Tuberculous mycobacterial infections
of the skin, In: Arndt KA, Leboit PE, Robinson JK,
Wintroub BU, editors. Cutaneous medicine and surgery.
Philadelphia: W.B Saunders; 1996. p 983-992.
Tappeiner G, Wolff K. Tuberculosis and other
mycobacterial infections, In: Fitzpatric TB, Eisen AZ,
Wolff K, et al, editors. Dermatology in general medicine.
New York: McGraw-Hill ; 1993. 2370-2394.
Yates VM, Ormerod LP. Cutaneous tuberculosis in
Blackburn district (U.K.): a 15-year prospective series,
1981-95. Br J Dermatol 1997; 136:483-489.
Zampetti A, Feliciani C, Capizzi R, Valenzano F, Mancos
S, Amerio PL. Scrofuloderma induced by surgical
drainage in a joint tuberculosis. Scand J Infect Dis 2005;
37:540-542.
Tur E, Brenner S, Meiron Y. Scrofuloderma (tuberculosis
colliquativa cutis). Br J Dermatol 1996; 134:350-352.
Negi SS, Khan SF, Gupta S, Pasha ST, Khare S, Lal S.
Comparison of the conventional diagnostic modalities,
bactec culture and polymerase chain reaction test for
diagnosis of tuberculosis. Indian J Med Microbiol 2005;
23:29-33.
Blumberg HM, Burman WJ, Chaisson RE, et al. American
Thoracic Society/Centers for Disease Control and
Prevention/Infectious Diseases Society of America:
treatment of tuberculosis. Am J Respir Crit Care Med
2003; 167:603-662.
December 2009
KUWAIT MEDICAL JOURNAL
353
Selected Abstracts of Articles Published
Elsewhere by Authors in Kuwait
Kuwait Medical Journal 2009, 41 (4): 353-355
Identification of Mycobacterium Tuberculosis-Specific Genomic Regions
Encoding Antigens Inducing Protective Cellular Immune Responses
Mustafa AS, Al-Attiyah R
Department of Microbiology, Faculty of Medicine, Kuwait University, Kuwait
E-mail: abusalim@hsc.edu.kw
Indian J Exp Biol 2009; 47:498-504
Comparative genomic studies have identified 11 regions of difference (RD1, RD4, RD5, RD6, RD7,
RD9, RD10, RD11, RD12, RD13 and RD15) in Mycobacterium tuberculosis genome which are absent
in all vaccine strains of M. bovis BCG. The proteins encoded by genes predicted in these RDs could
be useful as protective vaccines and/or exacerbate the disease process by inducing cellular immune
responses involved in protection and pathogenesis of tuberculosis. In our studies, by using pools of
overlapping synthetic peptides covering the sequence of putative proteins encoded by genes predicted
in each RD, we have determined the cellular immune responses in relation to antigen-induced
proliferation and secretion of the protective Th1 cytokine IFN-gamma and the pathologic Th2 cytokine
IL-10 by peripheral blood mononuclear cells of tuberculosis patients and healthy humans. It has been
observed that peptides of RD1pool induced the highest antigen-induced proliferation and IFN-gamma
responses, whereas the peptides of RD12pool and RD13pool induced the highest IL-10 responses.
Furthermore, addition of RD12pool and RD13pool to peripheral blood mononuclear cells (PBMCs)
cultures inhibited the RD1pool-induced secretion of IFN-gamma by PBMCs of healthy humans. These
results suggest the relevance of RD1-encoded proteins in protection and RD12- and RD13-encoded
proteins in pathogenesis of tuberculosis.
Solitary Rectal Ulcer Syndrome: A Clinicopathological Study of 13 Cases
Al-Brahim N, Al-Awadhi N, Al-Enezi S, Alsurayei S, Ahmad M
Department of Pathology, Farwania Hospital, Kuwait
E-mail: nabeel.albrahim@gmail.com
Saudi J Gastroenterol 2009; 15:188-192
Background/Aims: Solitary rectal ulcer syndrome (SRUS) is a rare disorder that has a wide spectrum of
clinical presentation and variable endoscopic п¬Ѓndings. To further characterize the clinical and pathological
features, a retrospective, hospital-based clinicopathological study was conducted.
Material and methods: All cases of SRUS diagnosed at Farwania Hospital, Kuwait, between 2002 and 2007
were retrieved from the computerized п¬Ѓling system. The histological slides were reviewed by two authors
to confirm the diagnosis. Immunohistochemical stain for smooth muscle actin (SMA) was performed. The
clinical п¬Ѓles were reviewed for clinical features and endoscopic п¬Ѓndings.
Results: Thirteen cases were identified: 8 males and 5 females. The age range was 15-85. Rectal bleeding,
constipation, and abdominal pain were the most common presenting symptoms and were seen, either
alone or in various combinations, in 12 of the 13 cases. Rectal ulceration was the most common endoscopic
п¬Ѓnding, being seen in 9 of the 3 cases; 3 of these cases had multiple ulcerations. Two patients had rectal
polyps, with one of them having multiple polyps. The histological examination revealed surface serration,
fibromuscular obliteration of the lamina propria, and crypts’ distortion in all the cases. Seven of the cases
354
Selected Abstracts of Articles Published Elsewhere by Authors in Kuwait
December 2009
had diamond crypts. Ectatic mucosal vessels were a common п¬Ѓnding. Positivity for SMA in the lamina
propria was seen in all examined cases.
Conclusion: SRUS is a rare disorder and only 13 cases were diagnosed in Farwania hospital over a 6year period. The clinical presentation of our patients was variable. The presence of polyps and multiple
ulcerations on endoscopy is further evidence that SRUS is a misnomer. Surface serration, п¬Ѓbromuscular
obliteration, and crypts’ distortion are the most characteristic features. The presence of diamond crypts is
an additional diagnostic feature.
Long-Term Follow-Up of 100 High-Risk Renal Transplant
Recipients Converted from Calcineurin Inhibitors to
Sirolimus: A Single Center Experience
Halim MA, Al-Otaibi T, Johny KV, Hamid MH, Tawab KA, Balaha MA, Abraham M, Said T, Nair MP, Al-Waheeb S,
Al-Muzairai I, Nampoory MR
Ibn Sina Hospital, Hamed Alessa Organ Transplantation Centre, Safat, Kuwait
E-mail: medhatmohamed2000@yahoo.com
Transplant Proc 2009; 41:1666-1670
While conversion of stable renal transplant recipients (RTR) from calcineurin inhibitors (CNI) to
sirolimus (SRL) is safe and effective, it is still under investigation for recent, high-risk cases. We studied
the long-term effects of conversion of high-risk subjects maintained on a CNI, mycophenolate mofetil,
plus steroid regimen to SRL, mycophenolate mofetil, plus steroid on graft and patient outcomes. We
retrospectively reviewed the п¬Ѓrst 100 RTR converted to SRL treatment over approximately 5 years.
The main indications for conversion were biopsy-proven acute rejection (BPAR), CNI toxicity, CNI
elimination, and acute-tubular necrosis (ATN). Exclusion criteria were limited to bone marrow
suppression. The overall mean +/- SD age was 38.5 +/- 15.6 years, including pediatric and geriatric age
groups. Mean +/- SD body mass index (BMI) was 28.99 +/- 8.0 and 40% had a BMI > 30. There were
40% RTR from deceased donors and 60% showed 4 to 6 HLA mismatches. Preconversion total BPAR
and steroid-resistant rejection incidences were 35% and 14%, respectively. Mean +/- SD time to start of
SRL was 11.9 +/- 22.8 months posttransplantation. Proteinuria > 2 g/d, leukopenia, and hyperlipidemia
increased significantly after conversion (P = .001, P = .0003, and P = .0001, respectively). Patient and
graft survivals were 95% and 90%, respectively. There was significant improvement in graft function
postconversion (P < .0001). There was a high incidence of side effects and cases of SRL discontinuation.
Multivariate analysis demonstrated the influence of bone marrow suppression, obesity, hyperlipidemia,
nutritional status, proteinuria, and graft function on graft and patient outcomes. We concluded that
conversion from CNI to SRL was effective among high-risk RTR, but with a high incidence of adverse
events during long-term follow-up.
Recent Advances in the Diagnosis and Treatment of MultidrugResistant Tuberculosis
Ahmad S, Mokaddas E
Department of Microbiology, Faculty of Medicine, Kuwait University, Kuwait
Respir Med 2009 Aug 4 [Epub ahead of print]
Tuberculosis (TB) is a major infectious disease killing nearly two million people, mostly in developing
countries, every year. The increasing incidence of resistance of Mycobacterium tuberculosis strains
December 2009
KUWAIT MEDICAL JOURNAL
355
to the most-effective (п¬Ѓrst-line) anti-TB drugs is a major factor contributing to the current TB
epidemic. Drug-resistant strains have evolved mainly due to incomplete or improper treatment of
TB patients. Resistance of M. tuberculosis to anti-TB drugs is caused by chromosomal mutations in
genes encoding drug targets. Multidrug-resistant (resistant at least to rifampin and isoniazid) strains
of M. tuberculosis (MDR-TB) evolve due to sequential accumulation of mutations in target genes.
Emergence and spreading of MDR-TB strains is hampering efforts for the control and management of
TB. The MDR-TB is also threatening World Health Organization’s target of tuberculosis elimination by
2050. Proper management of MDR-TB relies on early recognition of such patients. Several diagnostic
methods, both phenotypic and molecular, have been developed recently for rapid identification of
MDR-TB strains from suspected patients and some are also suitable for resource-poor countries.
Once identified, successful treatment of MDR-TB requires therapy with several effective drugs some
of which are highly toxic, less efficacious and expensive. Minimum treatment duration of 18-24
months is also long, making it difficult for health care providers to ensure adherence to treatment.
Successful treatment has been achieved by supervised therapy with appropriate drugs at institutions
equipped with facilities for culture, drug susceptibility testing of MDR-TB strains to second-line
drugs and regular monitoring of patients for adverse drug reactions and bacteriological and clinical
improvement.
Health-Related Quality of Life of Kuwaiti Women with Breast Cancer: A
Comparative Study using the EORTC Quality of Life Questionnaire
Alawadi SA, Ohaeri JU
Department of Medicine, Faculty of Medicine, Kuwait University, Kuwait
E-mail:alawadish@yahoo.com
BMC Cancer 2009; 9:222
Background: The Kuwaiti perspective on quality of life (QOL) in breast cancer is important because it adds
the contribution from a country where the disease affects women at a relatively younger age and seems to
be more aggressive. We used the EORTC QLQ - C30 and its breast-specific module (BR-23) to highlight the
health-related QOL of Kuwaiti women with breast cancer, in comparison with the international data, and
assessed the socio-demographic and clinical variables that predict the п¬Ѓve functional scales and global
QOL (GQOL) scale of the QLQ - C30.
Methods: Participants were consecutive clinic attendees for chemotherapy, in stable condition, at the
Kuwait Cancer Control Center.
Results: The 348 participants were aged 20-81 years (mean 48.3, SD 10.3); 58.7% had stages III and IV
disease. Although the mean scores for QLQ - C30 (GQOL, 45.3; and п¬Ѓve functional scales, 52.6% - 61.2%)
indicated that the patients had poor to average functioning, only 5.8% to 11.2% had scores that met the < or
= 33% criterion for problematic functioning, while 12.0% to 40.0% met the >66% criterion for more severe
symptoms. Most (47.8% - 70.1%) met the >66% criterion for “good functioning” on the BR-23 functional
scales. The mean scores of the QLQ - C30 indicated that, despite institutional supports, Kuwaiti women
had clinically significantly poorer global QOL and functional scale scores, and more intense symptom
experience, in comparison with the international data (i.e., < or = 10% difference between groups). For
the BR-23, Kuwaiti women seemed to have clinically significantly better functional scale scores, but more
severe symptoms, especially systemic side effects and breast symptoms. Younger women had poorer
HRQOL scores. In regression analysis, social functioning accounted for the highest proportion of variance
for GQOL.
Conclusion: The relatively high number that met the criterion for good functioning on the functional
scales is an evidence base to boost national health education about psychosocial prognosis in cancer. In
view of the poor performance on the symptom scales, clinicians treating Kuwaiti women with breast
cancer should prepare them for the acute toxicities of treatment and address fatigue. The п¬Ѓndings call for
the institution of a psycho-oncology service to address psycho-social issues.
356
KUWAIT MEDICAL JOURNAL
December 2009
Forthcoming Conferences and Meetings
Compiled and edited by
Babichan K Chandy
Kuwait Medical Journal 2009; 41 (4): 356-362
6th Annual International Pediatric Orthopaedic
Symposium presented by POSNA and AAOS
Dec 02 - 06, 2009
Lake Buena Vista, FL, United States
Contact: American Academy of Orthopaedic
Surgeons
Phone: 847-823-7186; Fax: 847-823-8125
E-Mail: meeting@aaos.org
Asian Cardiology Summit 2009 (ACS 2009)
Dec 04 - 06, 2009
Singapore, Singapore
Contact: Amilyn Ang
Phone: 65-63-490-249
E-Mail: AM.Ang@elsevier.com
Update on Cervical Diseases
Dec 03 - 05, 2009
New York, NY, United States
Contact: American College of Obstetricians and
Gynecologists, 409 12th St., S.W., PO Box 9692
Phone: 202-638-5577
E-Mail: coding@acog.org / meetings@acog.org
The First Persian Gulf Congress on Rhinology and
Facial Plastic Surgery
Dec 04 - 06, 2009
Kish Island
Contact: Mrs. Maryam Dehghan: Rhinology Research
Society
Phone: 982-188-758-705; Fax: 982-188-741-343
E-Mail: info@rhinologysociety.org
27th Annual Infectious Disease Seminar for the
Practicing Physician
Dec 04 - 06, 2009
Naples, FL, United States
Contact: Julie Embick
Phone: 330-325-6575 or 877-325-1212
Fax: 330-325-5929
E-Mail: ce@neoucom.edu
Mayo Clinic 4th Annual Practical Course in Dermoscopy
& Update on Malignant Melanoma
Dec 04 - 06, 2009
Scottsdale, AZ, United States
Contact: Meeting Organiser
Phone: 480-301-4580; Fax: 480-301-8323
E-Mail: king.staci@mayo.edu
The 8th International Symposium in Ocular
Pharmacology and Therapeutics
Dec 03 - 06, 2009
Rome, Italy
Contact: Hila Vakrat
Phone: 41-0-225-330-948 Fax: 41-0-225-802-953
E-Mail: oishay@isopt2009.com
Pain Management Conference Cruise
Dec 05 - 12, 2009
Honolulu, HI, United States
Contact: Continuing Education, Inc.
Phone: 1-800-422-0711; Fax: 727-522-8304
E-Mail: Sandra@continuingeducation.net
40th Union World Conference on Lung Health
Dec 03 - 07, 2009
Cancun, Quintana Roo, Mexico
Contact: Conference Unit
Phone: 33-143-299-087; Fax: 33-153-108-554
E-Mail: cancun2009@theunion.org
The British Medical Ultrasound Society (BMUS) 2009
Annual Scientific Meeting and Exhibition (EUROSON
2009)
Dec 06 - 08, 2009
Edinburgh, Scotland, United Kingdom
Contact: Meeting Organiser
E-Mail: office@bmus.org
10th Congress of the Slovak Society of Aesthetic
and Cosmetic Dermatology with International
participation
Dec 03 - 05, 2009
Slovakia
Contact: Ms Lenka Cuperova
Phone: 421 55 68 06 261; Fax: 00-421-556-806-156
E-Mail: lenka.cuperova@progress.eu.sk
XXI World Allergy Congress
Dec 06 - 10, 2009
Buenos Aires, Argentina
Contact: Mariu Denovi
Phone: 541-147-779-449; Fax: 541-147-711-536
E-Mail: info@worldallergy2009.com
December 2009
KUWAIT MEDICAL JOURNAL
2009 Annual Meeting of the American College of
Neuropsychopharmacology
Dec 06 - 10, 2009
Hollywood, FL, United States
Contact:
American
College
of
Neuropsychopharmacology, 545 Mainstream Drive
Suite 110, Nashville TN 37228
Phone: 615-324-2360; Fax: 615-324-2361
E-Mail: acnp@acnp.org
8th International Scientific Meeting of Obstetrics and
Gynaecology
Dec 07- 09, 2009
Middle East, United Arab Emirates
Contact: Synovetics
Phone: 971-0-26-673-418; Fax: 971-0-26-673-389
E-Mail: rcog@synovetics.com
26th Annual Advances in Heart Disease
Dec 11- 13, 2009
San Francisco, CA, United States
Contact: UCSF Office of Continuing Medical Education,
3333 California Street, Room 450, San Francisco, CA
94118
Phone: 415-476-4251 / 415-476-5808; Fax: 415-476-0318
/ 415-502-1795
E-Mail: info@ocme.ucsf.edu
Rheumatology for the Primary Care Physician
Dec 12 - 20, 2009
Fort Lauderdale, FL, United States
Contact: Eileen Tener, ACC Phone: 813-333-6878
E-Mail: ETener@CruisersParadise.com
Orthopaedics for the Primary Care Physician
Dec 20- 27, 2009
Port Canaveral, FL, United States
Contact: Eileen Tener, ACC
Phone: 813-333-6878
E-Mail: ETener@CruisersParadise.com
53rd All India Congress of Obstetrics and Gynecology
Jan 09 - 12, 2010
Guwahati, India
Contact: Congress Secretariat
Phone: 912-223-021-648 / 23-021-654 / 23-021-343; Fax:
912-223-021-383
E-Mail: fogsi@bom7.vsnl.net.in
Keystone Symposia: HIV Biology and Pathogenesis
(A6)
Jan 12- 17, 2010
Santa Fe, NM, United States
Contact: Keystone Symposia Meeting Organiser
Phone: 1-800-253-0685 / 1-970-262-1230; Fax: 1-970262-1525
E-Mail: info@keystonesymposia.org
357
Conference of Congenital Heart Diseases from fetel
life to childhood
Jan 13-16,2010
Dar Salwa Hall, Kuwait
Contact: Dr.Amira AAH Al Hay, Head of Conference
Organizing Committee
Phone: +965 25660607; Office tel. and fax: +96524829613;
Mobile: +965 99494093
website: www.pecfek.com;
Email: amira_alhay@hotmail.com
World Cardiology, Metabolism and Thrombosis
Congress (WCMTC)
Jan 20- 23, 2010
Sao Paulo, Brazil
Contact: Iris Lev
Phone: 41-22-533-0948 Fax: 41-22-580-2953
E-Mail: ilev@paragon-conventions.com
ICAD & 3rd ECAA: International Congress of Aesthetic
Dermatology
Jan 21- 23, 2010
Bangkok, Thailand
Contact: Catherine Decuyper
Fax: 33-0-1-568-637-805
E-Mail: emc@euromedicom.com
68th AIOS Annual Conference
Jan 21- 24, 2010
Kolkata, India
Contact: Parminder Singh
Phone: 1-800-102-2220
E-Mail: confsales@saharaglobal.in
The Society of Thoracic Surgeons 46th Annual
Meeting
Jan 25 - 27, 2010
Fort Lauderdale, FL, United States
Contact: The Society of Thoracic Surgeons, 633 N. Saint
Clair Street, Suite 2320, Chicago, IL 60611
Phone: 312-202-5800; Fax: 312-202-5801
E-Mail: sts@sts.org
13th International Congress of the Egyptian HepatoPancreato-Biliary Society
Jan 27- 30, 2010
Cairo, Egypt
Contact: Ms. Fifi Erian
Phone: 20-2-2453-2916 or 20-2-2453-2917; Fax: 20-22453-3515
E-Mail: alfa@alfamedical.org
2nd International Conference on Drug Discovery &
Therapy
Feb 01 - 04, 2010
Dubai, United Arab Emirates
Contact: Atif Hussain
Phone: 97-165-571-132; Fax: 97-165-571-134
E-Mail: marketing@icddt.com
358
KUWAIT MEDICAL JOURNAL
9th International Conference on New Trends in
Immunosuppression and Immunotherapy
Feb 04 - 07, 2010
Prague, Czech Republic
Contact: KENES International
Phone: 41-229-080-488; Fax: 41-229-069-140
E-Mail: immuno@kenes.com
10th Annual International Symposium on Congenital
Heart Disease
Feb 06 - 09, 2010
St. Petersburg, FL, United States
Contact: Suzanne Anderson
Phone: 727-767-8584 Fax: 727-767-8601
E-Mail: cme@allkids.org
3rd International Gulf Group for the Study of Diabetes
Conference
Feb 09 - 11, 2010
Jeddah, Saudi Arabia
Contact: Ms. Shiella
Phone: 966-2-614-3137; Fax: 966-2-614-3136
E-Mail: info@pediatricians.org.sa
Society of Laparoendoscopic Surgeons AsianAmerican
MultiSpecialty Summit IV
Feb 10 - 13, 2010
Honolulu, Hawaii, United States
Contact: Conference Coordinator
Phone: 800-446-2659; Fax: 305-667-4123
E-Mail: conferences@sls.org
26th Annual Computed Body Tomography 2010: The
Cutting Edge
Feb 11- 14, 2010
Baltimore, MD, United States
Contact: Johns Hopkins University School of Medicine,
Thomas B. Turner Building, 720 Rutland Avenue,
Room 20, Baltimore, Maryland 21205-2195
Phone: 410-502-9634
E-Mail: cmenet@jhmi.edu
December 2009
The 5th International Conference on Ocular Infections
Feb 18 - 21, 2010
Palm Beach, FL, United States
Contact: Hila Dayan
Phone: 41-225-330-948
E-Mail: hdayan@paragon-conventions.com
9th Genoa Meeting on Hypertension, Diabetes and
Renal Diseases
Feb 25 - 27, 2010
Genoa, Italy
Contact: Ms. Barbara Rossi
Phone: 00-39-0-10-583-224; Fax: 00-39-0-105-531-544
E-Mail: genoameeting@aristea.com
Multidisciplinary Head and Neck Cancer Symposium
Feb 25 - 27, 2010
Chandler, AZ, United States
Contact: Meeting Organiser
Phone: 703-502-1550; Fax: 703-502-7852
International Congress of Cardiology (ICC)
Feb 26 - 28, 2010
City: Hong Kong, Hong Kong
Contact: Wingman Wong
Phone: 852-2632-3194; Fax: 852-2144-5343
E-Mail: cardiology@cuhk.edu.hk
68th Annual Meeting of the American Academy of
Dermatology
Feb 26 - Mar 02, 2010
Miami, FL, United States
Contact: American Academy of Dermatology
Phone: 202-842-3555; Fax: 202-842-4355
American Academy of Allergy, Asthma
Immunology (AAAAI) Annual Meeting
Feb 26 - Mar 02, 2010
New Orleans, LA, United States
Contact: AAAAI Education Manager
Phone: 414-272-6071
E-Mail: cme@aaaai.org
and
Obs-Gyne Middle East Meeting
Feb 14 - 16, 2010
Dubai, United Arab Emirates
Contact: Eben Botha
Phone: 00-97-143-365-161; Fax: 00-97-143-364-021
E-Mail: eben.botha@iirme.com
7th Gastroenterology Hepatology & Endoscopy
Symposium
Feb 27- Mar 01, 2010
Cairo, Egypt
Contact: Ms. Fifi Erian
Phone: 20-2-2453-2916 or 20-2-2453-2917; Fax: 20-22453-3515
E-Mail: alfa@alfamedical.org
Winter Anesthesiology Conference
Feb 15 - 17, 2010
Cochin, India
Contact: Eva Rudz
Phone: 914-472-2382; Fax: 914-725-2780
E-Mail: winterconf2010@gmail.com
International Congress XXIII on Endovascular
Interventions
Feb 28 - 04, 2010
City: Scottsdale, AZ, United States
Contact: Erika Scott
Phone: 602-604-5030; Fax: 602-604-5020
E-Mail: escott@azheart.com
December 2009
KUWAIT MEDICAL JOURNAL
4th Duke Winter Anesthesia and Critical Care Review
Feb 28- Mar 05, 2010
Park City, UT, United States
Contact: Dr Scott Brudney; Phone: 919-681-6437
E-Mail: Scott.Brudney@Duke.edu
The 19th Annual International Congress of The Egyptian
Society of Gynecology and Obstetrics (ESGO):
Advances and Debates in Clinical Obstetrics and
Gynecology
Mar 03 - 05, 2010
Hurghada, Egypt
Contact: Mr. Alaa Abdalla or Mrs. Wala
Phone: 2-010-666-1172; Fax: 202-2402-2796
E-Mail: egyicc@link.net
NYSORA World Anesthesia Congress
Mar 07 - 12, 2010
Dubai, United Arab Emirates
Contact: Jo Watling
Phone: 00-441-462-441-166; Fax: 00-441-462-452-562
E-Mail: jo.watling@choicelive.com
Interventional Cardiology 2010: 25th
International Symposium
Mar 07- 12, 2010
Snowmass Village, CO, United States
Contact: Laurel Steigerwald
Phone: 760-720-2263; Fax: 760-720-6263
E-Mail: IC2010@promedicacme.com
Annual
29th Annual Dialysis Conference
Mar 08- 10, 2010
Houston, TX, United States
Contact: Office of Contiuing Medical Education,
University of Missouri
Phone: 573-882-4105; Fax: 573-882-5666
E-Mail: beckmannli@health.missouri.edu OR
Carrk@health.missouri.edu
Thoracic Gulf 2010. Saudi Thoracic Society, American
College of Chest Physicians, and Emirates Respiratory
Society Joint Pulmonary Update
Mar 11- 13, 2010
Abu Dhabi, United Arab Emirates
Contact: Prof. Mohamed Al-Hajjaj Phone: 00-966-505419-532; Fax: 0096-14-679-496
E-Mail: msalhajjaj@yahoo.com
Ist International (ADDC) Abu Dhabi Diabetes
Congress
Mar 12 - 14, 2010
Abu Dhabi, United Arab Emirates
Contact: Congress Manager
Phone: 44-0-1-903-288-288; Fax: 44-0-1-903-520-520
E-Mail: secretariat@addc.gr
359
2010 Winter Escape Emergency Medicine Update
Mar 15 - 19, 2010
Terrace, BC, Canada
Contact: Jim Barr
Phone: 888-308-3007; Fax: 780-483-5995
E-Mail: jim@tandtadventures.com
Gulf Thoracic 2010 Saudi Thoracic Society,
American College of Chest Physicians, and Emirates
Respiratory Society Joint Update in Pulmonary
Medicine
Mar 17- 20, 2010
Abu Dhabi, United Arab Emirates
Contact: Prof. Mohamed Al-Hajjaj
Phone: 00-966-505-419-532; Fax: 0096-14-679-496
E-Mail: msalhajjaj@yahoo.com
7th World Congress of the International Academy of
Cosmetic Dermatology (IACD)
Mar 18 - 23, 2010
Cairo, Egypt
Contact: Ms Sandy Silverstein
E-Mail: IACD@IACDworld.org
2nd African Middle Eastern Congress on Digestive
Oncology
Mar 19- 21, 2010
Alexandria, Egypt
Contact: Ms. Fifi Erian
Phone: 20-224-532-916/20-224-532-917
Fax: 20-224-533-515
E-Mail: alfa@alfamedical.org
Innovations in Plastic Surgery
Mar 19- 21, 2010
Fort Lauderdale, FL, United States
Contact: Diana Sheffey
Phone: 954-659-5490 Fax: 954-659-5491
E-Mail: dheffed@ccf.org
Keystone Symposia: HIV Vaccines (X5)
Mar 21- 24, 2010
Banff, AB, Canada
Contact: Keystone Symposia Meeting Organiser
Phone: 1-800-253-0685 / 1-970-262-1230; Fax: 1-970262-1525
E-Mail: info@keystonesymposia.org
14th Pan Arab Conference on Diabetes PACD14
Mar 23 - 26, 2010
Cairo, Egypt
Contact: Mahmoud Ibrahim, MD
Phone: 2012-213-1868; Fax: 202-2472-9793
E-Mail: mahmoud@arab-diabetes.com
360
KUWAIT MEDICAL JOURNAL
December 2009
7th European Breast Cancer Conference
Mar 24 - 27, 2010
Barcelona, Spain
Contact: ECCO - the European CanCer Organisation,
Avenue E. Mounier 83, B-1200 Brussels, Belgium
Phone: 32-27-750-201
Fax: 32-27-750-200
E-Mail: adline.lewuillon@ecco-org.eu / riitta.
kettunen@ecco-org.eu
2010 Annual Conference of the American Society for
Laser Medicine and Surgery
Apr 14 - 18, 2010
Phoenix, AZ, United States
Contact: American Society for Laser Medicine and
Surgery, 2100 Stewart Avenue, Suite 240, Wausau, WI
54401
Phone: 715-845-9283; Fax: 715-848-2493
E-Mail: information@aslms.org
14th Pan Arab Conference on Diabetes PACD14
Mar 23- 26, 2010
Cairo, Egypt
Contact: Mahmoud Ibrahim, MD
Phone: 2012-213-1868; Fax: 202-2472-9793
E-Mail: mahmoud@arab-diabetes.com
The 45th Annual Meeting of the European Association
for the Study of the Liver (EASL 2010)
Apr 14 - 18, 2010
Vienna, Austria
Contact: Secretariat: KENES International
Phone: 41-22-807-0360
Fax: 41-22-328-0724
E-Mail: easloffice@easloffice.eu
41st Annual Meeting of the Society for Paediatric
Nephrology
Mar 25 - 27, 2010
Hamburg, Germany
Contact: Jutta Vach
E-Mail: jutta.vach@conventus.de
Hair and Scalp Diseases in Clinical Practice.
International Course and Symposium
Mar 26 - 28, 2010
Warsaw, Poland
Contact: Lidia Rudnicka
Phone: 48-225-081-480; Fax: 48-225-081-492
E-Mail: lidiarudnicka@yahoo.com
Saudi Hypertension Conference 2010
Mar 29 - 31, 2010
Jeddah, Saudi Arabia
Contact: Tawfik Albassam
Phone: 96-638-552-733; Fax: 96-638-552-733
E-Mail: info@shc2009.org
The 3rd Congress of the Asia Pacific Initiative on
Reproduction (ASPIRE 2010)
Apr 09 - 11, 2010
Bangkok, Thailand
Contact: KENES International
Phone: 41-229-080-488; Fax: 41-229-069-140
E-Mail: aspire2010@kenes.com
20th Annual Meeting of the European Society of Clinical
Microbiology and Infectious Diseases
Apr 10 - 13, 2010
Vienna, Austria
Contact: European Society of Clinical Microbiology
and Infectious Diseases
Phone: 41-616-867-799; Fax: 41-616-867-798
E-Mail: info@escmid.org
Valves in the Heart of the Big Apple VI: Evaluation &
Management of Valvular Heart Diseases 2010
Apr 15 - 17, 2010
New York State, NY, United States
Contact: Leslie J. Yerman
Phone: 212-561-9879; Fax: 212-452-2027
E-Mail: info@heartvalveconference.com
2010 Annual Meeting of the American Society for
Aesthetic Plastic Surgery (ASAPS)
Apr 22 - 28, 2010
Washington, DC, United States
Contact: American Society for Aesthetic Plastic Surgery
(ASAPS)
Phone: 800-364-2147; Fax: 562-799-1098
E-Mail: asaps@surgery.org
British Renal Society: BRS Conference 2010
Apr 26 - 29, 2010
Manchester, England, United States
Contact: Conference Secretariat
Phone: 44-1-483-764-114; Fax: 44-1-483-727-816
E-Mail: brs@britishrenal.org
The 1st International Congress on Controversies in
Allergology and Immunology
Apr 29 - 01, 2010
Sorrento, Italy
Contact: Conference Secretariat: KENES International
Phone: 41-229-080-488; Fax: 41-229-069-140
E-Mail: immuno@kenes.com
The 4th International Conference of Biomarkers in
Chronic Diseases
May 04 - 06, 2010
Riyadh, Saudi Arabia
Contact: Conference Secretariat
Phone: 00-96-614-675-939; Fax: 00-96-614-675-931
E-Mail: biomarkers@ksu.edu.sa
December 2009
KUWAIT MEDICAL JOURNAL
The European Congress on Obstetrics
Gynaecology (EBCOG)
May 05 - 08, 2010
Antwerp, Belgium
Contact: Congress Secretariat
Phone: 32-9-233-8660; Fax: 32-9-233-8597
E-Mail: EBCOG2010@semico.be
and
7th Metabolic Syndrome, Type II Diabetes and
Atherosclerosis Congress (MSDA)
May 12 - 16, 2010
Marrakesh, Morocco
Contact: Lily-Claude LEVASSEUR
Phone: 33-139-042-424; Fax: 33-139-040-741
E-Mail: msda2010@agence-plb.com
FIP World Congress of Podiatry
May 13 - 15, 2010
Amsterdam, Netherlands
Contact: Wendy van Buren
Phone: 31-0-348-443-251; Fax: 31-0-348-446-920
E-Mail: п¬Ѓp2010@mccm.nl
26th Iranian Congress of Radiology
May 13 - 16, 2010
Tehran, Islamic Republic of Iran
Contact: Conference Secretariat - ISR
Phone: 0098-21-4446-2078; Fax: 0098-21-4441-1224
E-Mail: info@icr2010.ir
World Congress of Immunodiseases and Therapy
May 15 - 17, 2010
Beijing, China
Contact: Kayla Liu
Phone: 0086-411-8479-9479; Fax: 0086-411-84799629
E-Mail: kayla@webbitmail.cn
14th Annual International Congress on Hematologic
Malignancies
May 17- 20, 2010
Whistler, BC, Canada
Contact: Physicians’ Education Resource, 3500
Maple Ave, Suite 700 Dallas, TX 75219
Phone: 888-949-0045; Fax: 214-367-3304
E-Mail: info@pergrouplp.com
10th International Congress of Immunology and
Allergy of Iran
May 18 - 20, 2010
Tehran, Islamic Republic of Iran
Contact: Dr. Mandana Sattari
Phone: 982-123-872-573; Fax: 982-122-439-952
E-Mail: info@icia2010.com
361
6th World Congress of the International Society of
Physical and Rehabilitation Medicine
Jun 04 - 09, 2011
San Juan, Puerto Rico
Contact: Werner Van Cleemputte, Managing Director
Medicongress Waalpoel 28/34, B-9960 Assenede,
Belgium
Phone: 32-0-93-443-959; Fax: 32-0-93-444-010
E-Mail: werner@medicongress.com
29th European Academy of Allergy and Clinical
Immunology Congress (EAACI)
Jun 05 - 09, 2010
London, England, United Kingdom
Contact: Congress Secretariat
E-Mail: eaaci2010@congrex.com
International College of Neuropsychopharmacology
2010 Congress
Jun 06 - 10, 2010
Hong Kong, China
Contact: Organiser
Phone: 0-1-355-244-966; Fax: 0-1-355-249-959
E-Mail: cinp2010@congrex.com
13th International Conference on Emergency
Medicine
Jun 09 - 12, 2010
Singapore, Singapore
Contact: Stella Chee
Phone: 65-63-795-261; Fax: 65-64-752-077
E-Mail: admin@icem2010.org
Euroanaesthesia 2010: The European Anaesthesiology
Congress
Jun 12 - 15, 2010
Helsinki, Finland
Contact: Secretariat
Phone: 32-0-27-433-290; Fax: 32-0-27-433-298
E-Mail: registration@euroanesthesia.org
World Congress of Cardiology
Jun 16- 19, 2010
Beijing, China
Contact: Conference Secretariat: KIE
Phone: 551-150-521-215; Fax: 551-150-520-286
E-Mail: tjioekie@uol.com.br
CARS 2010 - Computer Assisted Radiology and
Surgery - 24th International Congress and Exhibition
Jun 23 - 26, 2010
Geneva, Switzerland
Contact: CARS Conference Office - Mrs. Franziska
Schweikert
Phone: 49-7742-922-434; Fax: 49-7742-922-438
E-Mail: office@cars-int.org
362
KUWAIT MEDICAL JOURNAL
December 2009
Psoriasis International Network Congress 2010
Jul 01- 04, 2010
Paris, France
Contact: Congress Secretariat
Phone: 33-0-153-858-259
Fax: 33-0-153-858-283
E-Mail: pso2010@mci-group.com
The 26th International Pediatric Association Congress
of Pediatrics (IPA 2010)
Aug 05 - 09, 2010
Johannesburg, South Africa
Contact: Liraz Bregman
Phone: 41-229-080-488; Fax:41-227-322-850
E-Mail: IPAcongress@ipa-world.org
World Congress of the World Federation of
Hemophilia
Jul 10- 14, 2010
Buenos Aires, Argentina
Contact: Maria Milagros Salas - Congress & M
Manager
Phone: 1-514-394-2837
E-Mail: hemophilia2010@wfh.org
14th International Congress of Immunology
Aug 22 - 27, 2010
Kobe, Japan
Contact: Prof. Masayuki MIYASAKA
Phone: 81-6-6879-3972; Fax: 81-6-6879-3979
E-Mail: mmiyasak@orgctl.med.osaka-u.ac.jp
7th International Congress on Neuroendocrinology
Jul 10 - 15, 2010
Rouen, France
Contact: Secretary General: William Rostene, INSERM
U.732 HГґpital Saint-Antoinie, 184, rue du Fauborg
Saint Saint-Atoine 75012 Paris, France
Phone: 33-149-284-676
E-Mail: william.rostene@st-antoine.inserm.fr
16th World Congress of Basic & Clinical Pharmacology
Jul 13 - 23, 2010
Copenhagen, Denmark
Contact: Prof. Kim BrГёsen / Tina Ludvig
E-Mail: kbrosen@health.sdu.dk / tludvig@health.
sdu.dk
XVIII International AIDS Conference (AIDS 2010)
Jul 18 - 23, 2010
City: Vienna, Austria
Contact: International AIDS Society HQ, PO Box 20,
CH - 1216 Cointrin, GENEVA, Switzerland
Phone: 41-0-22-7-100-800; Fax: 41-0-22-7-100-899
E-Mail: info@iasociety.org
15th World Congress on Heart Disease, Annual
Scientific Sessions 2010
Jul 24 - 27, 2010
Vancouver, BC, Canada
Contact: Asher Kimchi, M.D.
Phone: 310-657-8777; Fax: 310-659-4781
E-Mail: klimedco@ucla.edu
The 26th International Pediatric Association Congress
of Pediatrics (IPA 2010)
Aug 04 - 09, 2010
Johannesburg, South Africa
Contact: Liraz Bregman
Phone: 41-229-080-488; Fax: 41-227-322-850
E-Mail: IPAcongress@ipa-world.org
28th World Congress of Endourology
Sep 01 - 04, 2010
Chicago, IL, United States
Contact: Bailey-Turner Chernise
E-Mail: cturner@bsdad.uchicago.edu
European Society of Urogenital Radiology: 2010
Symposium of the ESUR
Sep 09 - 12, 2010
City: Bruges, Belgium
Contact: ESUR Head Office
Phone: 43-15-334-064
Fax: 43-15-334-064 - 448
E-Mail: ESURSecretary@ecr.org
38th Annual Meeting of the International Society for
Pediatric Neurosurgery
Sept 13 - 16, 2010
Jeju, Korea
Contact: Gordon Mccomb
E-Mail: gmcomb@chla.usc.edu
World Congress on Refractive Error
Sep 20 - 22, 2010
Durban, South Africa
Contact: Conference Secretariat
Phone: 27-31-201-1470; Fax: 27-31-201-1510
E-Mail: events@confcall.co.za
American College of Surgeons 96th Annual Meeting
Oct 03- 07, 2010
Washington, DC, United States
Contact: American College of Surgeons
Phone: 312-202-5000; Fax: 312-202-5001
E-Mail: postmaster@facs.org
18th International Congress on Palliative Care
Oct 05- 08, 2010
City: Montreal, QC, Canada
Contact: Frank Salvatori
Phone: 450-292-3456 ext 224; Fax: 450-292-3453
E-Mail: frank@odon.ca
December 2009
KUWAIT MEDICAL JOURNAL
363
WHO-Facts Sheet
1. A Strategy to Prevent and Treat Diarrhoea – the Second Biggest Killer of Children
2. Antiviral Use and the Risk of Drug Resistance Pandemic (H1N1) 2009
3. International Day for Disaster Reduction
4. Cardiovascular Diseases (CVDs)
5. Visual Impairment and Blindness
Compiled and edited by
Babichan K Chandy
Kuwait Medical Journal 2009, 41 (4): 363-368
1. A STRATEGY TO PREVENT AND
TREAT DIARRHOEA – THE SECOND
BIGGEST KILLER OF CHILDREN
Global campaigns to п¬Ѓght diarrhoea - the second
deadliest illness for children – must be re-energized
to prevent the deaths of millions in the developing
world, UNICEF and the World Health Organization
(WHO) said today as they released a new report on
the disease.
“It is a tragedy that diarrhoea, which is little
more than an inconvenience in the developed world,
kills an estimated 1. 5 million children each year,”
said UNICEF Executive Director, Ann M. Veneman.
“Inexpensive and effective treatments for diarrhoea
exist, but in developing countries only 39 per cent
of children with diarrhoea receive the recommended
treatment.”
The report, “Diarrhoea: Why Children Are Still
Dying and What Can Be Done,” lays out a sevenpoint plan that includes a treatment package to
reduce childhood diarrhoea deaths and a prevention
strategy to ensure long-term results:
1. Fluid replacement to prevent dehydration;
2. Zinc treatment;
3. Rotavirus and measles vaccinations;
4. Promotion of early and exclusive breastfeeding
and vitamin A supplementation;
5. Promotion of hand washing with soap;
6. Improved water supply quantity and quality,
including treatment and safe storage of
household water; and
7. Community-wide sanitation promotion.
Campaigns targeting childhood diarrhoea in the
1970s and 1980s achieved success by scaling up the
use of oral rehydration solution (ORS) to prevent
dehydration and by educating caregivers. In spite of
the promising results of these campaigns, in recent
years the international community has shifted its
focus to other global emergencies. There is now an
urgent need to focus once more on preventing and
treating diarrhoea.
WHO and UNICEF recommend treating
diarrhoea with low-osmolarity ORS and zinc tablets,
which decrease the severity and duration of the
attack. These treatments are simple, inexpensive and
life-saving.
Access to clean water and good hygiene practices
are extremely effective in preventing childhood
diarrhoea. Hand washing with soap has been shown
to reduce the incidence of diarrhoeal disease by over
40 per cent, making it one of the most cost-effective
interventions for reducing child deaths from this
neglected killer.
Yet despite the known benefits of improving water
supply and sanitation, some 88 per cent of diarrhoeal
diseases worldwide are attributable to unsafe water,
inadequate sanitation and poor hygiene. As of
2006, an estimated 2.5 billion people were not using
improved sanitation facilities, and nearly 1 in every 4
people in developing countries was practicing open
defecation.
For more information contact: Olivia Lawe-Davie,
Communications Officer, Geneve.
Tel: +41 22 791 1209; Mobile: +41 794 755 545;
E-mail: lawedavieso@who.int
2. ANTIVIRAL USE AND THE RISK OF DRUG
RESISTANCE PANDEMIC (H1N1) 2009
As of 4 October 2009, worldwide, there have
been more than 375,000 laboratory confirmed cases
of pandemic influenza H1N1 2009 and over 4500
deaths reported to WHO.
Address correspondence to:
Office of the Spokesperson, WHO, Geneva. Tel.: (+41 22) 791 2599; Fax (+41 22) 791 4858; Email: inf@who.int; Web site: http://www.who.int/
364
WHO-Facts Sheet
As many countries have stopped counting
individual cases, particularly of milder illness, the
case count is significantly lower than the actually
number of cases that have occurred. WHO is actively
monitoring the progress of the pandemic through
frequent consultations with the WHO Regional
Offices and member states and through monitoring
of multiple sources of data.
In the temperate regions of the Northern
Hemisphere, transmission of influenza virus and
rates of influenza-like-illness (ILI) continue to increase
marking an unusually early start to fall and winter
influenza season in many countries. Geographically
widespread influenza is being reported throughout
North America, with the United States reporting ILI
levels elevated above the seasonal baseline for the
past month and Mexico reporting a high intensity
of respiratory diseases for the past three weeks. In
Canada, although overall ILI activity remains low,
focal increases have been reported in the western
part of Canada. In Europe and Central and Western
Asia, early transmission of influenza virus continues
to increase in many countries, with more intense focal
activity being reported in a few. National or regional
ILI levels remained elevated above the baseline in
parts of the United Kingdom (Northern Ireland
and Scotland), Ireland, and Israel. In Ireland, a high
intensity of respiratory diseases has been reported
for the past two weeks, with the highest rates of ILI
reported among children aged 5-14 years old. In
addition to Ireland and Israel, widespread geographic
spread of influenza virus is also now being reported
in Belgium, the Netherlands, and Cyprus. At least
10 countries in the region are also reporting an
increasing trend in respiratory diseases activity. In
Japan, influenza activity continues to be elevated
above the seasonal epidemic threshold since week 33,
most recently in the large population centers.
In the tropical regions of the Americas and Asia,
influenza virus transmission persists, however
influenza activity remained variable. Geographically
widespread to regional influenza activity continues
to be reported throughout the tropical region of the
Americas without a consistent overall trend (and
increasing trend in parts of the Caribbean, and
decreasing in much of tropical Central and South
America). High intensity respiratory diseases activity
was reported in Columbia, Cuba, and El Salvador,
and moderate healthcare impact was experienced
in many countries; two countries, Barbados and
St. Lucia, reported severe healthcare impact. As
influenza transmission slowly declines in many
parts of South and Southeast Asia, several countries
are reporting geographically regional spread (India,
Bangladesh, and Thailand) or localized spread (Sri
December 2009
Lanka and Myanmar) of influenza activity; and most
countries in the region have reported experiencing a
low health care impact since late September.
For more information contact: Media Centre.
Telephone line: +41 22 791 5000
or email: mediainquiries@who.int
3. INTERNATIONAL DAY FOR
DISASTER REDUCTION
Urgent action needed to protect hospitals from
natural hazards
The tragedies that struck the Asia and Pacific
region in early October 2009 underscore the urgent
action that must be taken to better protect hospitals
from natural disasters. Large-scale human suffering
is exacerbated when the very services that are most
needed to save lives - hospitals, clinics and other
health facilities - are counted among the casualties.
The UN International Strategy for Disaster
Reduction (UNISDR) dedicated its annual
International Day for Disaster Reduction of 14
October 2009, to the urgent need to make “Hospitals
Safe from Disasters.” Dozens of hospitals and health
facilities each year are themselves impacted by
floods, hurricanes, cyclones, earthquakes and other
natural hazards because safety measures were not
integrated in their design, location or construction.
The “Hospitals Safe from Disasters” theme was also
used for the 2008-09 World Disaster Reduction campaign
held on 14th of October, 2009. This two-year campaign
has been a joint initiative of UNISDR, the World Health
Organization and the World Bank aimed at ensuring
people’s access to functioning health facilities during
and after natural hazards. The ISDR system is using
today’s event to highlight the gains made during the
campaign and the work that still needs to be done in
making hospitals safer from disasters.
“Since the beginning of the campaign, much
has been achieved to make hospitals safer but
more investments are still needed to improve the
functionality of hospital when disasters occur,” says
Margareta Wahlström, Special Representative of the
UN Secretary-General for Disaster Risk Reduction.
According to a recent WHO survey, only 50% of all
country’s health sectors have a budget allocation for
risk reduction and emergency preparedness.
Hospitals and heath facilities are in the frontline
when floods, hurricanes, cyclones, and earthquakes
strike and many are adversely impacted because
safety measures were not integrated in their design,
construction and functionality. There are at least
90,000 hospitals and other health facilities in the
December 2009
KUWAIT MEDICAL JOURNAL
world’s 49 least-developed countries, many of which
are vulnerable to disasters, including those related to
the harmful effects of climate change.
“No new hospital should be built unless it
can withstand the impact of natural hazards,” Ms
Wahlström adds. “Existing health facilities should also
be assessed for their safety and action take to improve
their safety and the level of their preparedness.”
Several countries in Latin America and the
Caribbean have already assessed the safety of
their health facilities and set priorities for making
improvements. Mexico has demonstrated that it
is possible to make hospitals safer by applying a
Hospital Safety Index to more than 1000 of its highrisk facilities. The Hospital Safety Index measures 145
crucial spots in hospitals that will allow their safety
classification according to three main levels.
The Hospital Safety Index has now been applied
to many facilities in Bolivia, Ecuador and Peru and
in countries elsewhere in the world, such as Oman,
Sudan and Tajikistan. Dubai, within the United Arab
Emirates has also committed to assessing half of its
hospitals by 2010 and the remainder by the end of
2011. Hundreds of health professionals worldwide
have been trained in emergency preparedness.
WHO will continue working with governments
to achieve the objectives of the campaign and
assure that they remain a priority for governments
together with п¬Ѓnancial institutions, private and
non-government organizations, professional bodies,
health institutions and workforce, and international
agencies. Preparedness and risk reduction is the way
ahead in health and humanitarian action.
The last Global Platform for Disaster Risk
Reduction held in Geneva proposed that by 2011
national assessments of the safety of existing health
facilities should be undertaken, and that by 2015
concrete action plans for safer hospitals should be
developed and implemented in all disaster prone
countries. Hospital safety will remain one of the main
elements of the new UNISDR campaign on cities at
risk that will be launched next year.
For more information contact: Paul Garwood,
Communication officer, Health Action in Crises, WHO,
Geneva. Mobile: +41 79 475 5546,
Email: garwoodp@who.int
4. CARDIOVASCULAR DISEASES (CVDs)
What are cardiovascular diseases?
Cardiovascular diseases (CVDs) are a group
of disorders of the heart and blood vessels and
include:
365
•
coronary heart disease – disease of the blood
vessels supplying the heart muscle
• cerebrovascular disease - disease of the blood
vessels supplying the brain
• peripheral arterial disease – disease of blood
vessels supplying the arms and legs
• rheumatic heart disease – damage to the heart
muscle and heart valves from rheumatic fever,
caused by streptococcal bacteria
• congenital heart disease - malformations of
heart structure existing at birth
• deep vein thrombosis and pulmonary embolism
– blood clots in the leg veins, which can dislodge
and move to the heart and lungs.
Heart attacks and strokes are usually acute events
and are mainly caused by a blockage that prevents
blood from flowing to the heart or brain. The most
common reason for this is a build-up of fatty deposits
on the inner walls of the blood vessels that supply the
heart or brain. Strokes can also be caused by bleeding
from a blood vessel in the brain or from blood clots.
KEY FACTS
• CVDs are the number one cause of death
globally: more people die annually from CVDs
than from any other cause.
• An estimated 17.1 million people died from
CVDs in 2004, representing 29%of all global
deaths. Of these deaths, an estimated 7.2 million
were due to coronary heart disease and 5.7
million were due to stroke.
• Low- and middle-income countries are
disproportionally affected: 82% of CVD deaths
take place in low- and middle-income countries
and occur almost equally in men and women.
• By 2030, almost 23.6 million people will die from
CVDs, mainly from heart disease and stroke.
These are projected to remain the single leading
causes of death. The largest percentage increase
will occur in the Eastern Mediterranean Region.
The largest increase in number of deaths will
occur in the South-East Asia Region.
The risk factors for cardiovascular disease
The most important behavioural risk factors of
heart disease and stroke are unhealthy diet, physical
inactivity and tobacco use. Behavioural risk factors
are responsible for about 80% of coronary heart
disease and cerebrovascular disease.
The effects of unhealthy diet and physical
inactivity may show up in individuals as raised
blood pressure, raised blood glucose, raised blood
lipids, and overweight and obesity; these are called
�intermediate risk factors’.
There are also a number of underlying determinants
of CVDs, or, if you like, “the causes of the causes”.
366
WHO-Facts Sheet
December 2009
These are a reflection of the major forces driving
social, economic and cultural change – globalization,
urbanization, and population ageing. Other
determinants of CVDs are poverty and stress.
prevent repeat attacks of rheumatic fever which give
rise to rheumatic heart disease and can stop disease
progression in people whose heart valves are already
damaged by the disease.
Common Symptoms of heart attacks and strokes
Often, there are no symptoms of the underlying
disease of the blood vessels. A heart attack or stroke
may be the п¬Ѓrst warning of underlying disease.
Symptoms of a heart attack include:
•
pain or discomfort in the centre of the chest;
•
pain or discomfort in the arms, the left
shoulder, elbows, jaw, or back.
In addition the person may experience difficulty
in breathing or shortness of breath; feeling sick or
vomiting; feeling light-headed or faint; breaking into
a cold sweat; and becoming pale. Women are more
likely to have shortness of breath, nausea, vomiting,
and back or jaw pain.
The most common symptom of a stroke is sudden
weakness of the face, arm, or leg, most often on one
side of the body. Other symptoms include sudden
onset of: numbness of the face, arm, or leg, especially
on one side of the body; confusion, difficulty speaking
or understanding speech; difficulty seeing with one
or both eyes; difficulty walking, dizziness, loss of
balance or coordination; severe headache with no
known cause; and fainting or unconsciousness.
People experiencing these symptoms should seek
medical care immediately.
Why are cardiovascular diseases a development
issue in low- and middle-income countries?
Over 80% of the world’s deaths from CVDs occur
in low- and middle-income countries.
• People in low- and middle-income countries are
more exposed to risk factors leading to CVDs
and other noncommunicable diseases and are
less exposed to prevention efforts than people in
high-income countries.
• People in low- and middle-income countries who
suffer from CVDs and other noncommunicable
diseases have less access to effective and
equitable health care services which respond to
their needs (including early detection services).
• As a result, many people in low- and middleincome countries die younger from CVDs and
other noncommunicable diseases, often in their
most productive years.
• The poorest people in low- and middle-income
countries are affected most. At household level,
sufficient evidence is emerging to prove that
CVDs and other noncommunicable diseases
contribute to poverty. For example, catastrophic
health care expenditures for households with a
family member with CVD can be 30 per cent or
more of annual household spending.
• At macro-economic level, CVDs place a heavy
burden on the economies of low- and middleincome countries. Heart disease, stroke and
diabetes are estimated to reduce GDP between
1 and 5% in low- and middle-income countries
experiencing rapid economic growth, as many
people die prematurely. For example, it is
estimated that over the next 10 years (2006-2015),
China will lose $558 billion in foregone national
income due to the combination of heart disease,
stroke and diabetes.
What is rheumatic heart disease?
Rheumatic heart disease is caused by damage
to the heart valves and heart muscle from the
inflammation and scarring caused by rheumatic fever.
Rheumatic fever is caused by streptococcal bacteria,
which usually begins as a sore throat or tonsillitis in
children.
Rheumatic fever mostly affects children in
developing countries, especially where poverty is
widespread. Globally, almost 2% of deaths from
cardiovascular diseases is related to rheumatic heart
disease, while 42% of deaths from cardiovascular
diseases is related to ischaemic heart disease, and
34% to cerebrovascular disease.
Symptoms of rheumatic heart disease
Symptoms of rheumatic heart disease include:
shortness of breath, fatigue, irregular heart beats,
chest pain and fainting.
• Symptoms of rheumatic fever include: fever,
pain and swelling of the joints, nausea, stomach
cramps and vomiting.
• Treatment
• Early treatment of streptococcal sore throat can
stop the development of rheumatic fever.
Regular long-term penicillin treatment can
Reducing the burden of cardiovascular diseases
Heart disease and stroke can be prevented
through healthy diet, regular physical activity and
avoiding tobacco smoke. Individuals can reduce their
risk of CVDs by engaging in regular physical activity,
avoiding tobacco use and second-hand tobacco
smoke, choosing a diet rich in fruit and vegetables
and avoiding foods that are high in fat, sugar and
salt, and maintaining a healthy body weight.
Comprehensive and integrated action is the means
to prevent and control CVDs.
• Comprehensive action requires combining
approaches that seek to reduce the risks
December 2009
•
•
KUWAIT MEDICAL JOURNAL
throughout the entire population with strategies
that target individuals at high risk or with
established disease.
Examples of population-wide interventions that
can be implemented to reduce CVDs include:
comprehensive tobacco control policies, taxation
to reduce the intake of foods that are high in fat,
sugar and salt, building walking and cycle ways
to increase physical activity, providing healthy
school meals to children.
Integrated approaches focus on the main common
risk factors for a range of chronic diseases such
as CVD, diabetes and cancer: unhealthy diet,
physically inactivity and tobacco use.
The treatment options
There are several treatment options available such
as:
• Effective and inexpensive medication to treat
nearly all CVDs.
• Survivors of a heart attack or stroke are at high
risk of recurrences and at high risk of dying
from them. The risk of a recurrence or death can
be substantially lowered with a combination
of drugs – statins to lower cholesterol, drugs to
lower blood pressure, and aspirin.
• Operations used to treat CVDs include coronary
artery bypass, balloon angioplasty (where a
small balloon-like device is threaded through an
artery to open the blockage), valve repair and
replacement, heart transplantation, and artificial
heart operations.
• Medical devices are required to treat some CVDs.
Such devices include pacemakers, prosthetic
valves, and patches for closing holes in the heart.
There is a need for increased government investment
through national programmes aimed at prevention
and control of CVDs and other noncommunicable
diseases.
For more information contact: WHO Media centre,
Tel: +41 22 791 2222; E-mail: mediainquiries@who.int
5. VISUAL IMPAIRMENT AND BLINDNESS
Global trends
Global trends since the early 90s show reduced
rates of visual impairment worldwide, and a shift in
the causes. Visual impairment and blindness caused
by infectious diseases have been greatly reduced (an
indication of the success of international public health
action), but there is a visible increase in the number
of people who are blind or visually impaired from
conditions related to longer life expectancies.
367
Globally about 314 million people are visually
impaired, 45 million of them are blind.
Presbyopia, the inability to read or perform near
work that occurs with ageing, causes visual impairment
if it is not corrected. The scope of the problem is not
known, but preliminary studies indicate that the
problem could be vast, especially in developing
countries.
Key facts
• About 314 million people are visually impaired
worldwide, 45 million of them are blind.
• Most people with visual impairment are older,
and females are more at risk at every age, in every
part of the world.
• About 87% of the world’s visually impaired live
in developing countries.
• The number of people blinded by infectious
diseases has been greatly reduced, but age-related
impairment is increasing.
• Cataract remains the leading cause of blindness
globally, except in the most developed countries.
• Correction of refractive errors could give normal
vision to more than 12 million children (ages п¬Ѓve
to 15).
• About 85% of all visual impairment is avoidable
globally.
There are four levels of visual function:
• normal vision
• moderate visual impairment
• severe visual impairment
• blindness.
Who is at risk?
By age: About 82% of all people who are visually
impaired are age 50 and older (although they represent
only 19% of the world’s population).
Increasing numbers of people are at risk of agerelated visual impairment as the global population
grows and demographics shift to a higher proportion
of older people, even in developing countries.
Child blindness remains a significant problem
globally. An estimated 1.4 million blind children
below age 15 will live in blindness for many years.
In addition, more than 12 million children ages п¬Ѓve
to 15 are visually impaired because of uncorrected
refractive errors (near-sightedness, far-sightedness
or astigmatism): conditions that could be easily
diagnosed and corrected with glasses, contact lenses
or refractive surgery.
By gender: Studies consistently indicate that
females have a significantly higher risk of being
visually impaired than males, in every region of the
world, and at all ages.
368
WHO-Facts Sheet
Geographically: Visual impairment is not
distributed uniformly throughout the world.
Approximately 87% of visually impaired people
live in developing countries.
Source: WHO/Prevention of Blindness
Causes of blindness
Globally, the leading causes of blindness, in
order of frequency, are:
• cataract (a clouding of the lens of the eye that
impedes the passage of light),
• uncorrected refractive errors (near-sightedness,
far-sightedness or astigmatism),
• glaucoma (a group of diseases that result in
damage of the optic nerve),
• age-related macular degeneration (which
involves the loss of a person’s central field of
vision).
Other major causes include corneal opacities (eye
diseases that scar the cornea), diabetic retinopathy
(associated with diabetes), blinding trachoma,
and eye conditions in children such as cataract,
retinopathy of prematurity (an eye disorder of
premature infants), and vitamin A deficiency.
Prevention
Globally, about 85% of all visual impairment and 75%
of blindness could be prevented or cured worldwide.
December 2009
Since the 90s, areas of significant prevention progress
on a global scale include:
• further development of eye health care services,
which has led to increased availability and
affordability;
• increased commitment to prevention and cure
from national leaders, medical professionals and
private and corporate partners;
• higher awareness and use of eye health care
services by patients and the general population;
and
• implementation of effective eye health strategies
to eliminate infectious causes of vision loss.
WHO response
WHO works with Member States and public and
private partners to prevent blindness and restore sight
in every part of the world. WHO provides technical
assistance, monitoring and coordination among
partners to strengthen country-level efforts to eliminate
avoidable blindness, treat eye diseases, expand access
to eye health services, and increase rehabilitation for
people with residual visual impairment (including
tools and skills for daily life).
For more information contact: WHO Media centre.
Telephone: +41 22 791 2222;
E-mail: mediainquiries@who.int
December 2009
KUWAIT MEDICAL JOURNAL
369
Yearly Author Index
Kuwait Medical Journal
(KMJ) 2009; Volume 41
Kuwait Medical Journal 2009, 41 (4): 369 -370
Abbas H ...................................................................... 37
Abdel-Mota’al MM ..................................................... 54
AbdulAziz S ............................................................... 66
Abdulsamad AM ....................................................... 117
Aboloyoun N ............................................................. 236
Abul NA .................................................................. 140
Adekile A ............................................................ 243, 257
Ahmed A .................................................................. 330
Ahmed MM ............................................................. 134
Akar NA ................................................................. 243
Akbar MAJ ................................................. 128, 215,292
Aktekin MR ............................................................... 123
Al Hamdan RJ............................................................. 246
Al Harbi O .................................................................. 143
Al Kandari FY ........................................................... 210
Al Kandari SA ......................................................... 210
Al Shammari M ........................................................ 52
Al Shammeri N .......................................................... 13
Al Suraikh M .................................................... 246, 334
Al Terkait N ................................................................. 59
Al Wayel A ................................................................ 341
Al Zafiri A ................................................................... 69
Al-Alawi A ............................................................... 288
Al-Ateeqi W ............................................................... 71
AL-Ayadhi LY .......................................................... 26
AL-Bloushi MAS .................................................... 156
AlBuainain H ......................................................... 248
Al-Busairi WA .......................................................... 134
Al-Dousary AA ......................................... 128, 215,292
AlEnezi B ................................................................... 66
Al-Ghamdi Z ........................................................... 248
Al-Hashemi HE ....................................................... 337
Ali FA ...................................................................... 346
Ali Y ......................................................................... 103
Aljasir B .................................................................. 187
Al-Jehani Y ............................................................... 248
Al-Jumah ES .......................................................... 156
Al-khaledi D ............................................................... 59
Al-Mousa H ............................................................. 31
Al-Mousawi M ....................................................... 317
Al-Mukhaizeem F .............................................. ..... 254
Almutairi A ................................................................ 146
Al-Osaimi S ......................................................... 66, 71
Al-Qattan HY .......................................................... 140
Al-Saleh K ................................................................. 322
Al-Sarraf N ............................................................. 226
AlSayed A ................................................................ 222
Alsherida S ................................................................ 257
Al-Shubaili A ............................................................ 162
AlThani MH ............................................................ 187
Arora R ....................................................................... 143
Atawneh FA .............................................................. 322
Austin ML .................................................................. 330
Ayed AK ............................................ 01, 108, 226, 288
Bahl SR ........................................................................ 69
Baidas G .................................................................. 240
Basak RC .................................................................. 152
BatД± H ........................................................................ 311
Bayam E .................................................................... 230
Behbehani N ........................................... 146, 185, 317
Bilke EM ................................................................ 236
Chandrasekran C ............................................ 108, 226
Chatterjee M ............................................................. 152
Cherian B ................................................................. 222
Cherian SH ............................................................. 222
Dashti AA .................................................................. 117
Dashti HM ........................................................... 03, 117
David B ...................................................................... 37
Dehghan M .............................................................. 350
Desai PB .................................................................... 282
Dicle O ..................................................................... 205
Durak HI ................................................................. 205
El- Kishawi A ........................................................... 327
ElEmmawie AH .................................................... 327
El-Enezy S ................................................ 128, 215, 292
El-Hameed AA ........................................................ 143
El-Hashash OAEF ................................................... 140
El-Saleh M ............................................................... 250
Farag E ..................................................................... 307
Fathy H .................................................................... 307
Fekri F ....................................................................... 20
Feyzi I .................................................................... 302
Gowda S ................................................................ 282
Gurpinar E ......................................................... 123, 311
Habeeb YK ............................................................. 156
Haciyanli M ............................................................ 230
370
KUWAIT MEDICAL JOURNAL
Hamdy I .................................................................... 222
Hatata MZ ............................................................... 236
Hegazy AM ............................................. 128, 215, 292
Hegde BM .......................................................... 91, 279
Hilal JM.................................................................... 69
Hilal J ....................................................................... 246
Hull VV ................................................................. 282
Husain EH ............................................................. 307
Ivanova MK ............................................................... 134
Jadaon MM ................................................................ 117
Jamal W ..................................................................... 103
Jamal-Eddine H ....................................................... 226
Jasser H ..................................................................... 37
Kambar H .................................................................. 63
Katchy KC .................................................................. 54
Kazeminezhad V ..................................................... 350
Kehinde EO............................................................... 103
Khodakhast F ........................................................... 103
Kulkarni SS .............................................................. 282
Kuradi LB .................................................................. 43
Lasheen I ................................................................. 250
Little J ....................................................................... 187
Mandoura NA .......................................................... 187
Math AAK ................................................................ 282
Mathew TC ............................................................. 03
Mohamad ASO .......................................................... 54
Mohammed TMMA .................................................. 146
Mohseni R ................................................................ 20
Mosalem DM ............................................................ 134
Mostafa MMA ......................................................... 149
Moussa L ................................................................... 63
Nagaraj R .................................................................. 257
Nagarajan V ............................................................... 162
Najafi K ................................................................... 20
Najafi L ..................................................................... 350
Nasr M ............................................................... 149, 341
Nayef M ....................................................................... 63
Neyyarapally TI ........................................................ 240
Niazy MN ................................................................. 240
Omar AA .................................................................... 31
Omran AS ................................................................. 302
Osman M .................................................................. 334
Oztekin O .................................................................. 230
Pal K ........................................................................... 39
Pandey T .................................................................. 13
December 2009
Paul V ......................................................................... 43
Postaci H ................................................................... 230
Prasad KYM ............................................................. 334
Raghupathy R ............................................................ 93
Ramadan MAG ...................................................... 317
Rao Y ........................................................................ 43
Rassem MW ............................................................ 152
Redha F ....................................................................... 52
Ridha M ...................................................................... 222
Rotimi VO ............................................................ .... 103
Sachdeva A ............................................................... 37
Sadek SA .................................................................... 59
Sadik S ....................................................................... 341
Sahsah M .................................................................. 103
Sawan S .................................................................... 250
Senol Y ...................................................................... 205
Senol Y ...................................................................... 123
Shahabi G ................................................................. 112
Shaikh R.................................................................... 330
Shalan YA ................................................................. 337
Shamsah A ................................................................. 254
Shawky A ................................................................. 307
Sheikhvatan M ......................................................... 302
Shirazi M ................................................................. 20
Shirzad H ................................................................. 112
Shukkur AM ............................................................ 210
Soleimani A .............................................................. 302
Stuecker R ................................................................ 236
Sukumar M .............................................................. 226
Surana SK ................................................................. 327
Surrun SK ................................................................. 149
Susan A ................................................................... 13
Taher H ..................................................................... 254
Taher MM ................................................................ 317
Tetik C ...................................................................... 311
Vattoth S ................................................................. 13
Vernekar SN ............................................................. 282
Yakan S ..................................................................... 230
Yildirim M ................................................................ 230
Zahid MA .................................................................. 322
Zakaria A .................................................................. 337
Zamanzad B ............................................................. 112
Zarrabi H ................................................................. 20
Zeinali AMH ............................................................. 302
December 2009
KUWAIT MEDICAL JOURNAL
371
Yearly Title Index
Kuwait Medical Journal
(KMJ) 2009; Volume 41
Kuwait Medical Journal 2009, 41 (4): 371 -372
A Case of Severe Primary Hyperthyroidism, Secondary
Hyperparathyroidism, Adrenal Insufficiency and
Osteoporosis with Multiple Fractures. 41 (2): 152-155
Acquired Hemophilia in a Child: Response to Rituximab.
41 (3): 243-245
AIDS Encephalopathy in a 14-Year-Old Girl. 41 (4): 334336
Allergic Sensitization in Healthy School Children in
Kuwait: An Emerging Public Health Concern. 41 (4):
317-321
Association of Spinal Cord Dysfunction with Hereditary
Spherocytosis. 41 (1): 69-70
Atypical Progression of Thyrotoxic Manifestations while
Awaiting Laboratory Confirmation. 41 (2): 162-165
Blunt and Penetrating Thoracic Trauma: Management
Strategy and Short Term Outcome. 41 (3): 226-229
Blunt Injury to Renal Artery. 41 (1): 63-65
Chediak-Higashi Syndrome: Report of a Case with an
Accelerated Phase and Review of Literature. 41 (1): 5962
Child Survived with Complete Neurological Recovery
after Prolonged Out-of-Hospital Cardiac Arrest due to
Electric Shock. 41 (4): 337-340
Congenital Pouch Colon from Al Ahsa Region of Saudi
Arabia – A Changing Demography?. 41 (1): 39-42
Cutaneous Tuberculosis (Scrofuloderma) in a 5-YearOld Boy: Case Report from Gorgan, Iran 41 (4): 350352
Deschooling Doctors and Patients. 41 (4): 279-281
Diagnostic Significance of Tissue Doppler Imaging in
Patients with Acute Inferior Myocardial Infarction and
Precordial ST Segment Depression. 41 (4): 292-301
Double Aneuploidy: Down Syndrome Associated with
Klinefelter Syndrome. 41 (4): 346-349
Effect of Anterior Nasal Packing on Middle Ear Pressure
and Hearing Threshold. 41 (1): 37-38
Effect of Phenytoin Sodium on Reproductive Parameters
in Adult Male Wistar Rats. 41 (1): 43-51
Effects of Visual Feedback Balance Training by Using
Computerised Dynamic Posturography in Patients
with Multiple Sclerosis. 41 (2): 134-139
Elastofibroma Dorsi: An Under Diagnosed Entity Clinical, Imaging and Pathological Features. 41 (1): 1319
Endoscopic Removal of Accidentally Swallowed
Toothbrush. 41 (1): 66-68
Chronic
Inflammatory
Demyelinating
Polyradiculoneuropathy in Two Children. 41 (2): 156161
Evaluation of Problem Based Learning by Tutors and
Students in a Medical Faculty of Turkey. 41 (2): 123127
Clinical and Radiological Aspects of Closed Reduction
in Developmental Dysplasia of the Hip Treated in the
First Six Months. 41 (3): 236-239
Evaluation of the Dermatology Residents Using the
Multisource (360-Degree) Assessment Method. 41 (3):
205-209
Clinical Characterestics and Outcome of Acute
Decompensated Heart Failure Patients (ADHF) in Adan
Hospital, Kuwait. 41 (3): 222-225
Expression of NC-2 Receptor on MCL Cells and Its
Natural Cytotoxicity Against Cancer Cells. 41 (2): 112116
Comparative Efficacy of Two Methods of Skin
Preparation of the Perineal and Genital Skin of Male
Urological Patients. 41 (2): 103-107
External Non-Invasive Cardiac Pacemaker: Evaluation
of Usefulness, Function and Capture Failure Rate. 41
(3): 215-221
372
KUWAIT MEDICAL JOURNAL
Gyrate Atrophy of the Choroid and Retina with
Hyperornithinemia: Report of Three Cases and Review
of Literature 41 (4): 341-345
Hair-Thread Tourniquet Syndrome. 41 (3): 248-249
Heat Treatment of Bacteria: A Simple Method of DNA
Extraction for Molecular Techniques. 41 (2): 117-122
December 2009
Recurrence of Primary Spontaneous Pneumothorax:
Rate and Risk Factors. 41 (4): 288-291
Return to Work Following Cardiac Rehabilitation
in Patients Undergoing Cardiac Procedures with an
Approach to Patient’s Viewpoints and Attitude. 41 (4):
302-306
Idiopathic Pulmonary Hemosiderosis. 41 (2): 146-148
Rituximab in Severe Refractory Autoimmune Hemolytic
Anemia in Children. 41 (3): 257-260
Immune Associated Complication in Meningococcal
Disease; A Report of Two Cases. 41 (2): 140-142
Scrub Typhus Associated with Systemic Lupus
Erythematosus: A Case Report. 41 (2): 149-151
Impaired Holter-Derived Variables of Parasympathetic
Activity in Diabetic Patients with Daily-Life Silent
Myocardial Ischemia. 41 (2): 128-133
Secret of Healthy Living in a Hostile World. 41 (2): 9192
Increased Oxygen Free Radical Production from Isolated
Human PMNLs and Whole Blood by Luminol-enhanced
Chemiluminescence in Autistic Children. 41 (1): 26-30
McKusick Kaufman Syndorme: A Rare Case Report
with Review of Literature 41 (4): 327-329
Mode of Detection of Transvenous Defibrillation Lead
Malfunction in Implantable Defibrillators. 41 (3): 210214
Severe Diabetic Ketoacidosis Precipitated by an Atypical
Antipsychotic Drug. 41 (3): 240-242
Short QT Syndrome : A Case Report and Review of
Literature. 41 (3): 246-247
Small Bowel Tumors: InsД±dД±ous and Important
AbdomД±nal Problems for Surgeons. 41 (3): 230-235
Soft-Tissue Recurrence of Giant Cell tumor of Bone: A
case report. 41 (1): 54-58
Neurocysticercosis in Two Kuwaiti Children. 41 (1): 7174
Students’ Learning Approaches at Medical Schools
Applying Different Curricula in Turkey. 41 (4): 311-316
Neurosarcoidosis as a First Presentation of Systemic
Sarcoidosis - Case Report. 41 (3): 250-253
Surveillance of Healthcare-Associated Infections in
Adult Patients with Leukemia in Kuwait Cancer Control
Center. 41 (1): 31-36
Perceptions and Attitude towards Lumbar Puncture
(LP) among Parents in Kuwait 41 (4): 307-310
Sweet’s Syndrome. 41 (1): 52-53
Pneumatosis Intestinalis of Small Bowel in an Adult: A
Case Report. 41 (2): 143-145
Swine-origin Influenza A (H1N1) Virus Pandemic: Is it a
Sprint or a Marathon? 41 (3): 185-186
Population Health Genomics in Member Countries of
the Cooperation Council for the Arab States of the Gulf.
41 (3): 187-204
The Immune System in Pregnancy: Friend or Foe?. 41
(2): 93-102
Present and Future Biochemical Markers of Cardiac
Diseases. 41 (4): 282-287
Prevalence of Substance Use Among Iranian HighSchool Students in 2005-2006. 41 (1): 20-25
Prevention of Obesity Using Low Carbohydrate
Ketogenic Diet. 41 (1): 3-12
Primary Spontaneous Pneumothorax: An Update. 41 (1):
1-2
The Results of Thoracoscopic Surgery for Secondary
Spontaneous Pneumothorax. 41 (2): 108-111
Tuberculosis of the Shoulder: An Unusual Presentation.
41 (4): 330-333
Urosepsis Simulating Congenital Adrenal Hyperplasia
in an Infant. 41 (3): 254-256
Violence against Medical Staff: Prevalence and Effects
of Violence against Psychiatrists in Kuwait. 41 (2):
322-326