by admin-blog-kh | August 18, 2023 4:53 am
Robotic Surgery is breaking barriers and redefining treatment options for a wide range of diseases and conditions that affect different parts of the body. We have already covered Robotic Surgery for Kidney, Liver and Cardiac conditions. When it comes to Cancer treatment, Robotic Surgery has come as a boon and is becoming a popular choice for Oncologists, to treat a wide range of cancers. In this article, we will learn more.
Depending on the patient and severity of the condition, the objectives of cancer treatment are one or more of the below:
While open-incisional surgery was the only option for cancer treatment in the past, a minimally invasive (MI) procedure called laparoscopy emerged later. As with any MI procedure, laparoscopic cancer surgery comes with less bleeding, less collateral damage to surrounding tissue, less pain and faster recovery. These 2 types of procedures are still used today. However, they come with their own disadvantages. That is why, in recent years, Robotic Surgery has emerged as an excellent option that is becoming more and more popular.
Not everyone is a candidate for Robotic surgery. It is not used for cancers present on the surface of the body, as a Robotic procedure is unnecessary, and an open/laparoscopic procedure is good enough in this case[2]. It is preferred for cancers that are deep inside the body, where narrow and confined spaces make access a challenge for the surgeons. Again, depending on the location deep inside, the stage or severity of disease, size of the growth, and overall health or condition of the patient, the surgeon will take a call on whether open, laparoscopic or robotic surgery will be done. Robotic surgery is generally suitable for early-stage localised cancers; for cancers that have metastasised, open surgery is preferable. Patients who are in good overall health, have not undergone prior surgeries (scar tissues can hinder robotic arm movement) and have minimal pre-existing comorbidities are suitable for robotic surgery. This decision will be made after a thorough checkup and diagnostic tests.
Robotic surgery was an inevitable evolution in cancer treatment. One of the characteristics of open cancer surgeries is the large incision, which is required to gain access to the affected, cancerous tissue/organ/gland. However, cancer patients are already immune-compromised (immunity is on the decline) and nutrition-compromised (the cancer is preventing proper absorption of nutrients from food). On top of that, the long recovery time involved in open surgery further compromises immunity, nutrition and overall health of the patient. This further delays the start of other treatment options such as chemotherapy and radiotherapy.
The quick recovery time with Robotic surgery overcomes this drawback of open surgery. Again, laparoscopic procedures have their own limitations around flexibility and control. In contrast, Robot-assisted surgery or just ‘Robotic surgery’ using the da Vinci Surgical System (from Intuitive Surgical) or other competing systems, enables oncological surgeons to perform more complex cancer surgeries than is possible with open surgery. There is more precision, flexibility and control, making it the most superior among all three options.
The highly superior visualization available with robotic cancer surgery is a deciding factor. It helps the surgeon to perform a radical operation (remove the entire cancerous growth, plus metastasized tissue around it) while preserving the nerves and other critical structures intact. This is particularly relevant in gynaecological cancers, rectal and prostate cancers. For example, in prostate cancer surgery, one of the key objectives is to leave the blood-vessels and nerves intact, to minimize the risk of impotency and incontinence for the patient. The highly magnified, 3D view makes this task easy.
Glioma is a type of tumour that starts in the brain stem and spreads to the spinal column. Robotic Surgery makes it easy to remove gliomas, and with minimal complications.
The Head and Neck is a tightly-packed space with multiple organs, tissues, glands, muscles, nerves and vasculature. This area is vulnerable to cancer from the HPV virus or metastasized cancers from other parts of the body. Previously, open surgery would be done by making long incisions through the throat, cheeks and jaw, and repositioning of the lower-jaw-bone in order to access hard-to-reach areas or cancers. This led to ugly scars, difficulty in swallowing or breathing, and a lengthy recovery. In contrast, Robotic Transoral Surgery (TORS) uses the natural mouth cavity to access the cancer. This is very effective to do resection (removal of) cancers of the throat[4], tongue, tonsils, larynx (voice box) and salivary-glands and perform an occasional glossectomy or partial removal of the tongue. The more precise resection means, the frequency and dosage of radiation therapy, if required subsequently, can be reduced, leading to fewer complications from radiotherapy.
Previously, open surgery for removing cancer in the thyroid glands would require long incisions to be made in the neck followed by a complex procedure. This led to visible scars and mixed results (not very effective always). In contrast, in Robotic Thyroidectomy, the surgical system accesses the cancer by making small incisions behind the ear or under the arm. The procedure has a high success rate. Healing is fast, and scars are almost invisible.
Cancers that affect the thoracic cavity and mediastinal or middle-chest area include those of the esophagus, lung and thymus, among others. People suffering from early stages of small cell lung cancer, non-small cell lung cancer and posterior mediastinal tumours can first undergo chemotherapy or radiation, and based on the success, go in for Robotic Surgery for a complete resection (removal). There are minimal to no complications this way.
Robotic surgery is very effective for partial or total resection (called radical surgery) of cancers of the pancreas, liver, gall-bladder and bile ducts.
Robotic surgery is very effective for blood-less resection of cancers of the uterus, cervix, ovaries and endometrium. It is also used to treat benign (non-cancerous) conditions such as excessive menstrual bleeding, fibroids, pelvic prolapse and endometriosis.
Robotic surgery is being used to treat cancers of the adrenal glands, bladder, kidneys, penis, prostate, testicles and ureters. In fact, it’s the standardized procedure for treating prostate cancer. When it comes to kidney cancer, the entire kidney would be removed using open surgery, previously (called as radical nephrectomy). Now, robotic surgery is used to precisely remove the affected part of the kidney and leave the rest of it which is healthy – intact. For bladder cancer, once the bladder is removed, robotic surgery also helps rebuild an alternate mechanism to hold the urine.
Gastrectomy or partial removal of the stomach affected by cancer[6], is done robotically today. Treating cancers of the intestine, colon and rectum used to be a complex procedure using open surgery, previously. Today, Robotic surgery is being increasingly preferred by surgeons and patients alike for these and sigmoid cancers. Robotic Surgery makes it easy to use nerve-sparing techniques whenever possible. This helps preserve the bladder, sphincter and sexual function of the patient.
Integration of AI into robotics has transformed surgical oncology with accurate tumour removal in various specialties, such as pediatric oncology, urology and neurosurgery, real-time intraoperative decision-making, and personalized interventions. AI and 3D imaging have significantly improved kidney tumor removal in robot-assisted partial nephrectomy as shown in the ACCURATE trial, with automation of procedural steps, surgical guidance via 3D imaging and healthy kidney tissue preservation. AI-powered ultrasound provides clear tumour boundaries, ensuring complete removal of cancer tissue and reducing unwanted healthy tissue removal in breast conservation surgery.
In paediatric surgery, AI-driven robotic systems are ensuring safe surgeries in anatomically difficult regions of the body and the robotic arms are capable of delicate movements, thereby sparing healthy tissues. These systems can navigate complex brain structures using real-time imaging and haptic feedback (sense of touch).
The combination of AI and robotics enables the intraoperative assessment of tumour margins. AI and tactile sensors enable robotic palpation to identify tumours, eliminating the need for preoperative imaging.
There are concerns about who should be held accountable in the event of surgical errors: Should it be the surgeon, software developers or the machine? There are no clear-cut answers to these complex questions, as AI expands its capabilities in decision-making. This also raises the question about trust between the doctor and the patient when decisions are heavily influenced by algorithms. This is crucial in high-risk and paediatric surgeries when human judgement is important.
Robotic surgery has transformed the field of oncology with 3D imaging, wristed instruments, tremor filtration and lessened surgeon fatigue, which have enhanced precision in complete tumour removal, healthy tissue preservation and reduced complications (e.g., urinary function is preserved in prostate surgeries). The high cost and ethical concerns of robotic surgeries are hurdles that need to be addressed for widespread adoption of this technique.
Kauvery Hospital is globally known for its multidisciplinary services at all its Centers of Excellence, and for its comprehensive, Avant-Grade technology, especially in diagnostics and remedial care in heart diseases, transplantation, vascular and neurosciences medicine. Located in the heart of Trichy (Tennur, Royal Road and Alexandria Road (Cantonment), Chennai, Hosur, Salem, Tirunelveli and Bengaluru, the hospital also renders adult and pediatric trauma care.
Chennai – Alwarpet/Vadapalani 044 4000 6000 • Trichy – Cantonment – 0431 4077777 • Trichy – Heartcity – 0431 4077777 • Trichy – Tennur – 0431 4022555 • Maa Kauvery Trichy – 0431 4077777 • Kauvery Cancer Institute, Trichy – 0431 4077777 • Hosur – 04344 272727 • Salem – 0427 2677777 • Tirunelveli – 0462 4006000 • Bengaluru – 080 6801 6801
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