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Robotic surgery is a sort of minimally invasive surgery in which doctors utilize very small surgical instruments that are inserted into the patient’s body through a succession of tiny incisions.
These instruments are attached on three robotic arms, providing the surgeon with a wide range of motion and precision as he or she performs the treatment.
A fourth arm carries a high-definition, three-dimensional camera that improves visualization by tenfold magnification of the body’s tissue and architecture and guides the surgeon during the process.
After scaling each action down to size, the robot translates the surgeon’s hand, wrist, and finger movements in real-time to direct each device.
The India Surgical Robotics Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
AIIMS and Medtronic Have Joined Forces to Launch New Surgical Robotics. It is the first such center at AIIMS to use Medtronic’s Hugo TM robotic-assisted surgery (RAS) system. RAS is a new medical technology that can assist standardize surgical techniques and allow surgeons to execute difficult surgery.
The training center will provide a wide range of training to improve RAS knowledge and skill set, ranging from fundamental skills training through procedural training to more advanced and specialized areas in soft-tissue surgery.
The training will aid in the transmission of procedural knowledge capabilities employing surgical robotics to surgeons, fellows, and residents from throughout the country. Medtronic’s collaboration with AIIMS is a cornerstone of its dedication to making the advantages of RAS available to more patients in India.
Robotic-assisted surgery allows surgeons to conduct complex procedures with greater precision, flexibility, and control than is feasible with traditional approaches.
Despite the fact that surgical robots have been available for many years, adoption has been limited due to a variety of problems, one of which is training. Surgical robotics and artificial intelligence are already transforming the way surgical care is given.
This project will pave the road for surgeons to transition from open and laparoscopic surgery to advanced RAS, as well as minimize their learning curve for mastering robotic procedures.
It combines wristed instruments, 3D visualization, and Touch Surgery Enterprise, a cloud-based surgical video collection and management solution, with dedicated support teams that specialize in robotics program me optimization, servicing, and training.
