Robot assisted bladder neck artificial urinary sphincter implantation in neurological male patients: preliminary results

Peyronnet b1, tricard T2, brierre t3, hascoet J1, gaillard v2, Manunta A1, castel-lacanal E3, saussine c2, gamé x3

Research Type

Clinical

Abstract Category

Neurourology

Abstract 337
On Demand Neurourology
Scientific Open Discussion Session 24
On-Demand
Robotic-assisted genitourinary reconstruction Stress Urinary Incontinence Male
1. university of rennes, 2. university of strasbourg, 3. university of Toulouse
Presenter
Links

Abstract

Hypothesis / aims of study
In neurological male patients, implanting the artificial urinary sphincter (AUS) cuff at the bladder neck is an option aiming to decrease the risk of erosion. The robotic approach may decrease the morbidity of bladder neck AUS implantation but only scant evidence exist. The aim of this study was to report the preliminary results of robot-assisted bladder neck AUS implantation in male patients with neurogenic stress urinary incontinence (SUI)
Study design, materials and methods
The charts of all male patients with spina bifida (SB) or spinal cord injury (SCI) who underwent a primary robotic bladder neck AUS implantation at three academic centers between 2011 and 2020 were retrospectively reviewed. The procedure was performed with the Da-Vinci robot (Si and Xi) using a four arm transperitoneal approach. The primary endpoint was continence at 3 months and at the last follow-up categorized as: complete continence (0 pads), improved SUI, unchanged SUI, or worsened SUI. Patient characteristics, perioperative outcomes, and follow-up data were also collected.
Results
Eleven patients were included over the study period: 7 SCI and 4 SB. The median age was 40 years. One patient had a supra-trigonal cystectomy with concomitant robot-assisted augmentation cystoplasty . The median length of hospitalization was 4 days. There were 2 post-operative complications (33.3%): one Clavien 3 and one Clavien 4. After a median follow-up of 14 months, only one explantation was required (16.7%) due to early AUS infection in the patient who had a concomitant augmentation cystoplasty. Three patients underwent device revision at 4, 7 and 12 months respectively for pump repositioning (n=1) and early recurrence of SUI with cuff downsizing in the two later cases. At 3 months and at the last follow-up, four patients had recovered complete continence (36.4%), 6 patients had improvement in SUI (54.5%) and one patient had unchanged incontinence (9%)
Interpretation of results
Although the sample size was small which prevent to draw robust conclusions, this study is one of the first to report robot-assisted bladder neck implantation in male patients with neurogenic stress urinary incontinence. The results were encouraging although the high rate of early revisions deserve further evaluation. Data comparing robotic and open bladder neck AUS implantation in this population are also needed
Concluding message
In this preliminary experience, robot-assisted bladder neck AUS implantation for neurogenic SUI yielded interesting results. The functional outcomes were satisfactory but the high rate of early revisions, already reported in the literature (Hervé, BMJ case report 2017), should prompt further evaluation in the upcoming years.
Disclosures
Funding none Clinical Trial No Subjects Human Ethics Committee CNIL Helsinki Yes Informed Consent Yes
21/11/2024 16:52:55