How to manage vaginal injury during robotic artificial urinary sphincter implantation in female patients ? The role of peritoneal flap interposition

Peyronnet B1, dubois a1, lethuillier v1, haudebert c1, richard c1, penafiel j1, freton l1, bensalah k1, manunta a1, hascoet j1

Research Type

Clinical

Abstract Category

Female Stress Urinary Incontinence (SUI)

Abstract 183
Surgical Videos 2 - Robotic and Laparoscopic
Scientific Podium Video Session 18
Thursday 24th October 2024
17:30 - 17:37
Hall N104
Robotic-assisted genitourinary reconstruction Stress Urinary Incontinence Female
1. university of rennes
Presenter
Links

Abstract

Introduction
One of the potential advantages of the robot-assisted approach for artificial urinary sphincter (AUS) implantation in female patients would be to minimize the risk of intraoperative vaginal or bladder neck injury. However, vaginal injury does occur during robotic female AUS implantation. While the old dogma of stopping the procedure when it happens has been abandoned, the best technique of repair of the vaginal injury has yet tobe determined. The objective of this video was to present a technique of peritoneal flap interposition to repair vaginal injury during robotic female AUS implantation in order to minimize the risk of cuff erosion or infection.
Design
We present the case of a 72-year-old female patient with a history of Burch colposuspension, TVT in 2017 and transvaginal mesh repair for POP who presented with recurrence of stress urinary incontinence. She was wearing 5 pads per day. The cystoscopy did not show any sling extrusion. On physical examination, she had a positive cough stress test with a fixed urethra, no pelvic organ prolapse. On preoperative urodynamics, the maximum urethral closure pressure was 29 cmH2O, there was no detrusor overactivity. She was consted for a robotic AUS implantation
Results
The patient is placed in 23° Tredelenburg at 23° position with side-docking of the Da Vinci Xi Robot . A transperitoneal approach is used. After bladder filling, the Retzius space is dissected to reach the endopelvic fascia on bothside of the bladder neck. The lateral aspects of the bladder are dissected extensively on both sides. Dissection of the vesicovaginal plane is helped by dissecting the TVT and freeing from both the vaginal and urethral walls. When a vaginal injury occur, the first step is to find back the right plane and to try to create a passage around the bladder neck for the future cuff.Then the vagina is closed in multiple layers. Finally a peritoneal V flaps is created and interposed between the vagina and the future cuff, throughout the dissected space around the bladder neck. Out of 101 robotic female AUS, there was 9 vaginal injury. Five were repaired without tissue interposition and four with peritoneal flap interposition. Only two explantation for vaginal exposure were needed, and none in the tissue interposition group (p=0.44)
Conclusion
We describe here a technique of peritoneal flap interposition in case of vaginal injury during robotic female AUS implantation which may minimize the risk of explantation for AUS erosion or infection.
Disclosures
Funding none Clinical Trial No Subjects Human Ethics Committee CHU Rennes Helsinki Yes Informed Consent Yes
Citation

Continence 12S (2024) 101525
DOI: 10.1016/j.cont.2024.101525

16/12/2024 19:22:55