Robotic artificial urinary sphincter implantation in female patients under constant direct vision

Peyronnet b1, Hascoet J1, freton l1, alimi Q1, haudebert C1, lethuillier v1, richard c1, Bensalah k1, Manunta A1

Research Type

Clinical

Abstract Category

Female Stress Urinary Incontinence (SUI)

Abstract 586
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Scientific Open Discussion Video Session 38
On-Demand
Robotic-assisted genitourinary reconstruction Female Stress Urinary Incontinence
1. university of rennes
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Abstract

Introduction
One of the potential advantages of the robot-assisted approach for artificial urinary sphincter (AUS) implantation in female patients would be to allow direct vision throughout the dissection of the bladder neck. However, this was not the case in the technique initially described (Fournier, Urology 2014) in which the posterior aspect of the bladder neck was dissected blindly. The objective of this video was to describe a change modified robotic anterior AUS implantation in female patients with constant direct vision during bladder neck dissection.
Design
We present the case of a 50-year-old female patient with a history of TVT referred for stress urinary incontinence due to intrinsic sphincter deficiency with a fixed urethra, a maximum urethral closure pressure of 16 cmH2O and wearing 5 pads per day who was consented for 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 vaginal fornix helped by the assistant finger placed in the vagina is more extensive than in the initial technique, aiming to free the fingertip widely. This will allow a large mobilization of the bladder neck during the dissection granting a direct vision during the dissection of the posterior aspect of the bladder neck using the medial prograsp as a retractor to move the bladder neck medially and upwards.
Conclusion
We describe here a modified anterior technique of robotic AUS implantation in female patients that allows continuous direct vision during the bladder neck dissection and may reduce the risk of intraoperative bladder neck and vaginal injury
Disclosures
Funding none Clinical Trial No Subjects Human Ethics not Req'd video Helsinki Yes Informed Consent Yes
22/12/2024 07:25:00