Potential applications of medical robots in the healthcare industry

Potential applications of medical robots in the healthcare industry

Healthcare Tech Outlook | Tuesday, August 23, 2022

The medical field has a brighter future because of the advances in robotics.

FREMONT, CA: According to the statistics, the global market for medical robots was valued at USD 7.24 billion in 2015 and is anticipated to reach USD 20 billion by 2023. The desire to use robots in medical services for minimally invasive surgeries, notably neurologic, orthopedic, and laparoscopic procedures, is critical in this development.

As a result, several robots are being developed to perform various functions inside the hospital environment. Surgical and rehabilitation robots are examples of robots with some experience in human care. These robots are programmed to assist surgeons and healthcare professionals, with artificial intelligence mechanisms and rehabilitation robots helping patients recover from severe conditions such as strokes, empathic robots assisting in the care of older or physically/mentally challenged individuals, and industrial robots performing a variety of routine tasks, such as sterilizing rooms and delivering medical supplies and medications.


Doctors employ robots to help them evaluate and treat patients in rural or remote places, granting them telepresence in the examination room. Experts can be made available remotely to reply to questions and direct therapy through the robot. Essential features of these robotic devices are route capability within the ER and modern cameras for physical examination.

Surgical assistants

Surgical robots are characterized by the ability to direct a highly complicated robotic arm via controls located at a workstation outside the operating room. These remote-controlled robots assist specialists with minimally invasive treatments and other tasks. Additional applications for these surgical-assist robots are being created regularly, as the continued development of 3DHD technology provides specialists with the spatial references necessary for a profoundly complex medical procedure, including enhanced natural stereo visualization and augmented reality.

Recovery robots

These robots are adaptable to the condition of each patient recovering from strokes, severe brain or spinal cord injuries, and neurobehavioral or neuromuscular diseases such as multiple sclerosis. These play a crucial role in rehabilitating people with disabilities, including enhanced mobility, strength, coordination, and personal fulfillment. Augmented reality and rehabilitation robots can improve balance, walking, and other motor skills.

Clinical transportation

These robots deliver supplies, prescriptions, and meals to patients and personnel, enhancing communication between specialists, medical clinic staff members, and patients. Most of these gadgets have highly specialized capabilities for autonomous navigation across the business. To enhance the navigational capacities of transportation robots, however, there is a need for highly developed and functional interior route frameworks based on sensor combination area innovation.

Robots for sterilization and disinfection

With the rise of antitoxin-resistant microorganisms and the spread of disease-causing pathogens such as Ebola, more medical care facilities are adopting robots to clean and sanitize surfaces. These robots can quickly eliminate all microorganisms and illnesses from a room. UV light and hydrogen peroxide fumes are today's most prevalent sanitization methods.

Automated systems for administering prescriptions

The primary advantages of robots are speed and accuracy, two characteristics indispensable to pharmacies. Robots can currently handle powder, liquids, and highly viscous substances with much more speed and accuracy than in the past due to advancements in computerized administration frameworks.

Digital consultation application

This robotic application managed by AI has efficient properties, and an enormous enough data set the scope to reflect the client's illnesses. When the client reports specific side effects, the program identifies the disease by comparing the symptoms to the available knowledge bases.

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