Extraperitoneal Single-Port Robot-Assisted Radical Prostatectomy.

Abstract

Robot-assisted radical prostatectomy (RARP) is currently the standard minimally invasive procedure for the surgical management of localized prostate cancer. It has been shown that the minimally invasive robotic approach offers comparable oncologic and functional outcomes with potential advantages, including decreased blood loss, shorter hospital stay, and recovery period when compared with open surgery. Generally, the transperitoneal RARP approach is the most commonly performed among robotic surgeons, owing to its wider space and early adoption. However, similar oncologic outcomes have been reported with the extraperitoneal approach. Owing to its perceived technical difficulty, extraperitoneal RARP is less adopted nowadays. This approach, however, has its merits particularly in cases where intraperitoneal access can be problematic with extensive adhesions from previous surgeries. Also, extraperitoneal approach allows for minimal bowel manipulation, less steep Trendelenburg positioning, and less pneumoperitoneum, which reflect on early recovery of bowel function after RARP. Both transperitoneal and extraperitoneal approaches can be performed using either the conventional multiport robotic system or the more recent single-port (SP) robotic system. With respect to extraperitoneal RARP, there has been an increased adoption of the SP system, with purported advantages such as better cosmesis, less postoperative analgesic and opioid requirements, and shorter duration of hospital stay. Herein, we describe the technical steps relevant to extraperitoneal single-port robot-assisted radical prostatectomy, and elaborate on the clinical outcomes reported in the literature.