Prostate Cancer Surgeons 'Feel' With Their Eyes; 3-D HD View Gives Surgeons Compensatory Illusion of Tactile Sensation
This story is from the category Health
Date posted: 04/03/2010
Robotic surgical technology with its three-dimensional, high-definition view gives surgeons the sensation of touch, even as they operate from a remote console. A new study describes the phenomenon, called intersensory integration, and reports that surgical outcomes for prostate cancer surgery using minimally invasive robotic technology compare favorably with traditional invasive surgery.
Led by physician-scientists at NewYork-Presbyterian Hospital/Weill Cornell Medical Center and appearing in the March issue of British Journal of Urology International, the study is the first to show that a lack of tactile feedback during robotic surgery does not adversely impact outcomes in patients with prostate cancer. It also identified various visual cues that surgeons can use to improve clinical outcomes.
"Anatomical details and visual cues available through robotic surgery not only allow experienced surgeons to compensate for a lack of tactile feedback, but actually give the illusion of that sensation," says Dr. Ashutosh Tewari, the study's lead author; professor of urology, urologic oncology, and public health at Weill Cornell Medical College; and director of the Lefrak Center of Robotic Surgery and the Institute of Prostate Cancer at NewYork-Presbyterian Hospital/Weill Cornell Medical Center. "For patients, this means the safety of knowing the benefits of a robotic approach -- including a quicker recovery -- don't compromise the surgery's primary mission of removing the cancer."
In recent years, robotic-assisted laparoscopic prostatectomy (RALP) has become a popular surgical method for treating prostate cancer because it is less invasive than traditional surgery. No studies have shown that RALP leads to worse outcomes, but doctors have wondered whether this was the case because surgeons often use their fingers to feel the prostate during traditional surgery to refine how much they cut to achieve the best outcome.
Cancer cells produce changes in tissue firmness that surgeons can sense. Because this tactile evaluation is not possible for surgeons using RALP, clinicians have wondered whether the robotic approach could lead surgeons to miss some cancer, and thus subject patients to a greater risk of cancer recurrence.
To find out, the investigators videotaped 1,340 RALPs. After every couple hundred procedures, they examined the pathology results of the prostate that was removed to determine the incidence of positive surgical margins, an indication that a surgeon might not have removed all of the cancer. In this study, the investigators focused on the posterolateral surgical margin (PLSM+), the area where the prostate is attached to the nerves.
"When you look at the entire specimen after surgery is done, you want to see cancer inside of the prostate but you don't want to see cancer touching the surface," Dr. Tewari says. "After surgery we look at the specimen, and if there are no cancer cells touching the surface, we call that a negative margin. If cancer is touching the edge, then we say it has positive margins. This means there may be some cancer left in the patient."
The investigators then studied the videotapes to determine what refinements in the procedure resulted in negative margins. Using this new knowledge to refine the surgery, they conducted the next couple hundred RALPs, reviewed the videotapes, refined their techniques, conducted the next round of RALPs, reviewed, refined and so on.
The investigators found that robotic surgery did not compromise outcomes. The incidence of PLSM+ was 2.1 percent, which gradually declined to 1 percent in the last 100 patients. Positive PLSMs are found in 2.8 percent to 9 percent of patients undergoing traditional prostatectomy.
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