Robotic surgery, also known as robot-assisted surgery, enables medical professionals to carry out a variety of intricate treatments with greater accuracy, adaptability, and control than is feasible with traditional methods. Robotic surgery is frequently related to minimally invasive surgery, which involves operations done through small incisions. It may also be employed sometimes during various types of open surgery.
The most extensively used clinical robotic surgical system consists of a camera arm and mechanical arms with surgical tools fastened to them. At a computer console located close to the operating table, the surgeon operates the arms. An enlarged, high-definition 3D picture of the surgical site is provided to the surgeon through the console. Throughout the procedure, the surgeon directs the other team members.
Compared to traditional approaches, surgeons who utilize the robotic system report that it improves precision, flexibility, and control throughout the surgery and gives them a better view of the spot. Surgeons may carry out delicate and intricate treatments using robotic surgery that could be challenging or impossible with traditional techniques.
Your operation will be performed using methods akin to open surgery by your surgeon. The method by which your surgeon enters the surgery site is the key distinction. Your surgeon uses little incisions rather than huge ones. The fact that the surgical equipment requires less room to function is another distinction. This reduces the necessity of moving your organs and muscular tissue.
Compared to a human hand, the robotic arm moves with more precision. They also have a wider range of motion. Instruments can revolve in confined places in ways that aren't normally conceivable thanks to the arms.
Views of the surgery region are enhanced and in high-resolution thanks to a specialized camera. Moreover, it possesses 3D imaging capabilities that are superior to those of the human eye.
Due to the tiny instruments, surgeons are able to execute parts of the treatment inside the patient's body that, in the past, required a considerably wider incision to be made outside the patient's body.
Robotic surgery has effectively solved the drawbacks of conventional laparoscopic and thoracoscopic surgery, enabling the execution of intricate and sophisticated surgical operations with higher precision and a minimally invasive method. The surgeon is sitting comfortably on the robotic control console, which lessens the physical strain on the surgeon compared to the uncomfortable postures needed for laparoscopic surgery.
The operating surgeon is given a 3-dimensional vision that improves depth perception in place of the flat, 2-dimensional image received by the standard laparoscopic camera; camera motion is steadily and conveniently controlled by the operating surgeon using voice-activated or manual master controls. Moreover, using robotic arm tools offers a greater range of motion than using conventional laparoscopic tools, enabling the surgeon to carry out more difficult surgical maneuvers.
Robot-assisted surgical treatments across the whole surgical spectrum have been successfully carried out in a very short period of time. According to preliminary findings, the hospital stays, mortality, and morbidity rates compare favorably with those of traditional laparoscopic procedures. There are, however, very few randomized, prospective trials that contrast the results of robotic treatments with those of traditional approaches. Before robotic surgery may be incorporated into standard surgical practice, further procedure-specific, randomized studies must be conducted.
The global Robot-Assisted Surgery Market size is USD 94481.05 million in 2021 and is projected to reach a CAGR of 16.69% from 2023-2030.
The market is being driven primarily by the growing use of automated surgical instruments and the worldwide shortage of doctors and surgeons. The market's expansion is also being aided by rising investments made by regional and international players in the introduction of cutting-edge surgical robots. In addition, the primary drivers of market expansion are anticipated to be the rising incidence of bone degenerative diseases and the rising number of hip and knee replacement procedures as a result of rising cases of arthritis and osteoporosis. Over 4,50,000 hip replacements are performed annually in the United States, according to a report from the Agency for Healthcare Research and Quality. The Australian Institute of Health and Welfare (AIHW) reports that the total knee replacement rate for osteoarthritis has increased by 38% between 2005-2006 and 2017-2018.
The increasing prevalence of chronic diseases, the rising preference for minimally invasive treatments, and the entry of new market players are the primary drivers of the market's expansion. Worldwide, cardiovascular diseases account for the majority of deaths and are the most common. Ischemic heart disease accounts for nearly 16% of global deaths, according to the World Health Organization's 2020 updates. The number of cardiopulmonary surgeries and coronary artery bypass grafting (CABG) surgeries is also rising due to the rising prevalence of cardiovascular diseases.
The adoption of automated medical instruments is also increasing, which is expected to further propel the market over the next few years. Technological advancements in the field of automated medical instruments include the combination of cameras, high-definition 3D imaging, computing technology, sensors, remote navigation technology systems, robotic controlled catheters, and other accessories used for medical surgeries
Asia Pacific to dominate the Market
To maintain their dominant positions in the worldwide market, the leading market players are primarily concentrating on technical advancement and the introduction of next-generation robotic equipment. Also, the growing market for automated surgical tools is anticipated to encourage the introduction of new businesses. Also, it is projected that the strategic industrial advances of the top market players in the form of acquisitions, mergers, and collaborations would increase rivalry. Some of them are Intuitive Surgical, Stryker, Medtronic PLC, Zimmer Biomet Holdings, Inc., Globus Medical, Inc., Auris Health, Asensus Surgical, Smith & Nephew, Think Surgical, OMNIlife Science (Corin Group), Corindus Vascular Robotics, Microsure, Medrobotics Corporation, Titan Medical, Verb Surgical, avateramedical GmbH, TINAVI Medical, Reinshaw.
Surgical robots are used in minimally invasive operations because they enable accurate manipulation of surgical tools in a compact operating room. Robotic surgery, also known as robot-assisted surgery, enables medical practitioners to perform a range of complex operations with more control, flexibility, and accuracy.
Clinical robotic surgical systems typically consist of mechanical arms or camera arms with surgical tools attached. As medical robotic systems become more widely used due to technological advancements in areas such as more effective motors, compact and light materials, power backup, sophisticated controls, safety mechanisms, and cost-effectiveness, the demand for surgical robots or robot-assisted surgeries is predicted to increase during the forecast period. The growth in operations done globally and the adoption of robotic surgery for common procedures are further factors that are predicted to propel the global market for surgical robots.