Liliana Bordeianou1, Patricia Sylla, Christine V Kinnier, David Rattner. 1. Pelvic Floor Disorders Center, Division of Gastrointestinal Surgery, Massachusetts General Hospital, 15 Parkman Street, ACC 460, Boston, MA, 02114, USA, lbordeianou@mgh.harvard.edu.
Abstract
BACKGROUND: Perineal approaches for rectal prolapse repair have low complication rates but high recurrence rates, while abdominal approaches that include sigmoidopexy have lower recurrence rates but higher complication rates. To optimize both recurrence and complication rates, we developed a novel procedure that uses transanal endoscopic microsurgery (TEM) to perform a sigmoidopexy via a perineal approach. METHODS: We created a rectal prolapse model in six swine and two human cadavers using a previously published technique. The rectum was mobilized and eviscerated transanally. After marking the planned point of sigmoid transection, the rectum was returned to the peritoneal cavity. A TEM proctoscope was inserted transanally alongside the rectum, and the lateral sigmoid colon walls were sutured to the sacrum. The sigmoid colon was then transected where previously planned, and a primary sigmoid anastomosis was performed. Total operative time, sigmoidopexy operative time, and suture security were measured and compared to standard rectosigmoidectomy and abdominal sigmoidopexy times. RESULTS: No sigmoid colon, iliac vessel, bladder, or ureteral injuries occurred. At least two sigmoidopexy sutures were secure on inspection in all animals and human cadavers, with increasing success of secure suture placement as experience increased. Operative length was similar to traditional abdominal sigmoidopexy. CONCLUSIONS: TEM sigmoidopexy is technically feasible. This approach has the potential to reduce the recurrence rate associated with perineal approaches alone, but further study is needed to confirm this hypothesis.
BACKGROUND: Perineal approaches for rectal prolapse repair have low complication rates but high recurrence rates, while abdominal approaches that include sigmoidopexy have lower recurrence rates but higher complication rates. To optimize both recurrence and complication rates, we developed a novel procedure that uses transanal endoscopic microsurgery (TEM) to perform a sigmoidopexy via a perineal approach. METHODS: We created a rectal prolapse model in six swine and two human cadavers using a previously published technique. The rectum was mobilized and eviscerated transanally. After marking the planned point of sigmoid transection, the rectum was returned to the peritoneal cavity. A TEM proctoscope was inserted transanally alongside the rectum, and the lateral sigmoid colon walls were sutured to the sacrum. The sigmoid colon was then transected where previously planned, and a primary sigmoid anastomosis was performed. Total operative time, sigmoidopexy operative time, and suture security were measured and compared to standard rectosigmoidectomy and abdominal sigmoidopexy times. RESULTS: No sigmoid colon, iliac vessel, bladder, or ureteral injuries occurred. At least two sigmoidopexy sutures were secure on inspection in all animals and human cadavers, with increasing success of secure suture placement as experience increased. Operative length was similar to traditional abdominal sigmoidopexy. CONCLUSIONS: TEM sigmoidopexy is technically feasible. This approach has the potential to reduce the recurrence rate associated with perineal approaches alone, but further study is needed to confirm this hypothesis.
Authors: Philip C Müller; Daniel C Steinemann; Lukas Chinczewski; Gencay Hatiboglu; Felix Nickel; Kaspar Z'graggen; Beat P Müller-Stich Journal: Surg Endosc Date: 2018-05-01 Impact factor: 4.584
Authors: Daniel C Steinemann; Philip C Müller; Martin Apitz; Felix Nickel; Hannes G Kenngott; Beat P Müller-Stich; Georg R Linke Journal: J Surg Res Date: 2017-11-14 Impact factor: 2.192