By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Robotic surgery, also known as robot-assisted surgery, enables surgeons to conduct a wide range of difficult procedures with greater accuracy, flexibility, and control than is feasible with traditional approaches.
Robotic surgery is typically connected with minimally invasive surgery, which is conducted through small incisions. It is also utilized in certain classic open surgical procedures. The most common clinical robotic surgical system combines a camera arm and mechanical arms with surgical tools attached.
The surgeon operates the arms while seated at a computer station beside the operating table. The console provides the surgeon with a high-definition, enlarged 3D picture of the operative site. The surgeon directs the other team members who help during the procedure.
Surgical robots are important for minimally invasive surgery because they allow for accurate manipulation of surgical tools beyond the capabilities of humans in a tiny operating room. Building a tiny manipulator for minimally invasive neurosurgery using this method.
Two tiny gripping manipulators, a stiff neuroendoscopy, a suction tube, and a perfusion tube comprise the micro manipulator. The tiny grasping manipulator is the subject of this study.
GI, cardiothoracic, gynecologic oncology, otolaryngology (head and neck), and urologic surgery are among the specialities that provide robotic-assisted surgery. Each treatment is carried out by a highly talented and experienced team of surgeons, nurses, and technicians who have been particularly trained to use robotic surgical equipment.
The benefits of adopting robotic technology for surgeons include enhanced 3D visualization and precision control of surgical tools. Because it makes it simpler for surgeons to avoid surrounding nerves and organs, the technique may be excellent for certain delicate or complicated surgery.
Memory devices are critical in averting complications during robot-assisted surgery. Based on the patient’s physical record, memory storage systems can perform a variety of roles. They can also show particular information to assess calibration offsets indicating storage drive system misalignment, data life, and so on.
The Egypt 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.
CMR Surgical has announced that their Versus Surgical Robotic System has been adopted in Egypt. Versus has been implemented at both Ain Shams University Specialized Hospital and the International Hospital for Urology and Nephrology (IHUN) as CMR collaborates with ATG group to address strong demand for Versus from one of the Middle East and Africa (MEA) region’s major nations.
Versus is being utilized to execute a variety of high-volume general surgery and urological operations, assisting in the treatment of patients suffering from colorectal and urological malignancies, as well as bowel and kidney problems.
High-tech surgical treatment is widely available in Egypt’s health-care system, with the use of cutting-edge RAS technology spreading quickly in Ministry of Health-supported public institutions like as Ain Shams. Ain Shams is one of the largest teaching hospitals in Africa and the Middle East, with a global reputation as a research and training facility.
Versus was the first to be utilized in Egypt, where it is used for a variety of general and urological surgical operations. Versus is being used in urological surgery at IHUN. When compared to open surgery, using robotic keyhole surgery in certain circumstances may minimize recovery time for a patient and dramatically reduce physical strain of operating.