Robot-assisted surgery makes use of sophisticated equipment that augments your surgeon’s hands. Through tiny incisions, it enables surgeons to execute surgeries in difficult-to-reach regions. Additionally, the unique technology allows for accurate motions and increased magnification. This technology can execute the most complex and delicate procedures.
Robotic surgery is suitable for a wide range of operations. Urologists, gynecologic surgeons, general surgeons, cardiothoracic surgeons, and colorectal surgeons utilise it regularly. This treatment is carried out by a surgeon who has completed training in robotic-assisted surgery. Some surgeons obtain formal training through fellowships in minimally invasive and robotic surgery. To enhance your understanding of urologic robotic surgeries, keep reading.
A cystectomy is a significant operation that removes the complete bladder (radical cystectomy) or a portion of the bladder (partial cystectomy). It is typically used to treat bladder cancer. A robotic partial cystectomy is performed when cancer has only infiltrated a portion of the bladder.
The surgeon utilises robotic equipment to remove the bladder, lymph nodes, and surrounding organs. The surgical robot improves the surgery by offering three-dimensional, high-definition vision and increased instrumental dexterity. If your surgeon uses a robot to reconstruct your urinary system, the surgeon’s and assistant’s hands will never enter the human cavity.
The surgical removal of a segment of the kidney using an advanced surgical robot is known as robotic partial nephrectomy. Patients who have a tiny kidney tumour or when removing the complete kidney would result in renal failure and the need for dialysis may be candidates for robotic partial nephrectomy. For individuals with smaller kidney tumours, robotic partial nephrectomy is the chosen surgical technique.
Small incisions in the belly are used to implant the robotic surgical equipment and camera during a robotic partial nephrectomy. The blood supply to the malignant kidney is interrupted at the command of the robotic surgeon, allowing the kidney to be dissected and the cancerous section to be separated from the surrounding tissue.
Sural Nerve Graft:
A robotic laparoscopic sural nerve graft is a treatment used after prostatectomy to restore erectile function in patients with prostate cancer. Following anaesthesia, the surgeon will create five tiny incisions in the lower belly through which the robotic-operated camera and other arms will be passed to complete the process. The surgeon will use a console to control the robot system, allowing for a good view of the surgery and precise movement controls.
The surgeon will remove your prostate through one of the keyhole incisions and will use intracorporeal suturing to reduce the chance of problems. After the radical prostatectomy, your surgeon will take a non-essential nerve from your leg and reconnect it where the nerves around the prostate were previously.
Robotic radical prostatectomy is a sort of minimally invasive surgery that removes the whole prostate using surgical robotic technology. The robotic laparoscopic procedure allows surgeons to operate through small ports rather than big incisions, resulting in quicker recovery periods, fewer problems, and shorter hospital stays.
Surgical robotics blends minimally invasive methods with cutting-edge clinical technologies. Furthermore, robotic surgery gives 3D vision and accurate guidance, allowing for nerve sparing. When a large excision of the prostate and nerve is planned and discussed with the patient before surgery, a sural transplant of the nerve is a possibility.
Robot-assisted surgeries are a blessing and great help for surgeons and even patients. The techniques used by surgeons to perform treatments are similar to those used in open surgery. The key distinction is in how they approach the surgical site. Your surgeon makes little incisions rather than huge ones. Another distinction is that surgical tools require less room to perform their function. Robotic technology allows surgeons to do minimally invasive treatments with greater precision.
Robotic arms are always stable, and robotic wrists allow surgeons to handle tissue and operate from angles or locations that would be impossible to reach otherwise. Recently, many hospitals and healthcare practitioners, especially surgeons, are preferring robotic surgeries for complicated cases. This is mainly because this sort of surgery is safer, more dependable, and simpler for both the physician and the patient. With this in view, many hospitals are adopting this type of technology for better healthcare.