Medical Automation Market Best Productivity Supply Chain Relationship, Development by 2026

Medical Automation Market Infrastructure Growth
and Development in Globe by 2026
Medical Automation Market by Application (Diagnostic and Monitoring
Automation, (Automated Imaging and Analysis, Point-of Care Testing, Others)
and Therapeutic Automation (Surgical Automation, Non-Surgical Automation,
Lab and Pharmaceutical Automation, Medical Logistics and Training)), by End
Users (Hospitals, Diagnostic Laboratories, Academic and Research Institutes,
Ambulatory Care Centers, Others) - Size, Share, Outlook, and Opportunity
Analysis, 2018 – 2026
Medical automation is a technology used to minimize medical errors, promote better management of
chronic illness, and to enable healthcare professionals to anticipate prognosis. It controls the diagnostic,
monitoring, and therapeutic machineries that serves the major responsive tasks into the hospitals. It also
increases the predictability of outcome when patients follow a standardized care path supported by
automation. Click To Read More On Medical Automation Market.
Moreover, automation can help to detect when a patient has deviated from recommended care plan so
the care team can intervene. The technology implementation enhances efficiency of hospitals by
reducing the process time and improving accuracy of a medical procedures. Medical automation in
hospitals such as using robotic assisted systems for health check-ups, is also propelling the growth of
the market and in turn improving patient safety. Hospitals are adopting the medical robotics to reduce
the HAIs rates in healthcare facility and to provide cleaner and safer environment to patients. In 2016,
Xenex, a Texas-based company produced unique robot called Germ-Zapping Robot, that uses high
intensity ultraviolet light to disinfect infections efficiently and quickly, in turn reducing the workload of
staff and cost.
Medical Automation Market Drivers:
Implementation of automated devices has reduced the task time and labor efforts as machine perform
tasks in better manner than the human and has higher consistency for care activities, such as patient’s
routine immunoassay analysis, pre/post analytical workflow monitoring, which significantly reduces
cost and complications.
Several hospitals are utilizing automated technologies for recording and organizing patient information,
contributing to the market growth. For instance, according to the Intuitive Surgical, Inc., surgical
procedures perform by using da Vinci systems (Intuitive surgical company’s products) in various
hospitals globally, around 877 000 surgical procedures have been performed by this product in 2017,
compared with 753 000 procedures in 2016, an increase of 16%. Moreover, the company expects total
da Vinci procedures to grow around 11% to 15% in 2018. Thus, automated machines improve clinical
outcomes that help patients return to active and productive life more quickly. However, high cost of the
automation equipment and lack of skilled professionals majorly in emerging economies are the key
restraining factors for market growth.
Robotically assisted surgeries are used to aid in surgical procedures to overcome the limitations of preexisting minimal invasive surgical procedures to enhance capabilities of the surgeons, which include
gynecological, cardiac, neurological, and orthopedic. Robotic assisted surgeries are carried out with
precision, miniaturization, smaller incisions such as decreased blood loss, less pain, and quick healing
time, which significantly reduces the hospital stay and blood transfusion. According to health research
funding organization, the rate of robotic surgeries is increasing by 25% annually and in 2012,
approximately 400,000 robotic surgeries were performed across U.S.
Ask For Sample Copy Of This Business Research Report :
https://www.coherentmarketinsights.com/insight/request-sample/2323
Market is also expected to witness significant growth as government investments are increasing,
policies continue to improving, and collaboration among market players. For instance, in 2018,
Orgenesis Inc. collaborated with the Atvio Biotech Ltd., an innovator of enhanced bioprocessing
solutions for the development and distribution of advanced automated culturing system for
manufacturing autologous cell therapies. Furthermore, major investments on healthcare research by
various manufacturers is contributing to the market growth. For instance, in 2017, Siemens AG
successfully installed India’s first fully automated Aptio automation track with multidiscipline
modalities at the Aspira Pathlab and Diagnostic Ltd, Mumbai.
Medical Automation Market - Competitor Analysis:
Key players operating in the medical automation market include koninklijke Philips N.V., Siemens AG,
General Electric Company, Medtronic Plc, Accuray Incorporated, Kahle automation, Muratec, Ltd.,
Schneeberger, Hitachi, Tecan Group Ltd., Intuitive surgical, Inc., Stryker Corporation, and Danaher
Corporation.
Medical Automation Market Taxonomy:
By Applications
•Diagnostic and Monitoring Automation
•Automated Imaging and Analysis
•Point-of Care Testing
•Others
•Therapeutic Automation
•Surgical Automation
•Non-Surgical Automation
•Lab and Pharmaceutical Automation
•Medical Logistics and Training
About Coherent Market Insights:
Coherent Market Insights is a prominent market research and consulting firm offering action-ready
syndicated research reports, custom market analysis, consulting services, and competitive analysis
through various recommendations related to emerging market trends, technologies, and potential
absolute dollar opportunity.
Contact Us:
Mr. Shah
Coherent Market Insights
1001 4th Ave, #3200
Seattle, WA 98154
Tel: +1–206–701–6702
Email: sales@coherentmarketinsights.com

Medical automation is a technology used to minimize medical errors, promote better management of chronic illness, and to enable healthcare professionals to anticipate prognosis. It controls the diagnostic, monitoring, and therapeutic machineries that serves the major responsive tasks into the hospitals. It also increases the predictability of outcome when patients follow a standardized care path supported by automation