Introduction and hypothesis: We describe the surgical management of intravesical mesh perforation following transvaginal mesh surgery for pelvic organ prolapse.
Methods: A 73-year-old woman presented with intravesical mesh perforation 17 years following transvaginal mesh-based prolapse repair at an outside hospital. The patient presented with intermittent hematuria and recurrent urinary tract infections. Cystoscopy demonstrated an approximately 3-cm area of intravesical mesh with associated stone spanning from the bladder neck through the left trigone and ureteral orifice. A robotic-assisted transvesical mesh excision and left ureteroneocystostomy was carried out. Robotic-assisted repair was performed transvesically via transverse bladder dome cystotomy. Dissection was carried out circumferentially around the mesh in the vesicovaginal plane, including a 1-cm margin of healthy tissue. The eroded mesh was excised, and the vaginal wall and bladder were closed with running absorbable sutures. Given the location of the mesh excision and repair, a left ureteral reimplantation was performed. The transverse cystotomy was closed and retrograde bladder filling with methylene blue-stained saline confirmed watertight repairs, with no vaginal extravasation.
Results: The patient was discharged the following morning and had an uneventful recovery, including transurethral indwelling catheter removal at 2 weeks after CT cystogram and subsequent ureteral stent removal at 6 weeks postoperatively. At 2-month follow-up she had no new urinary symptoms or obstruction of the ureteral reimplantation on renal ultrasound.
Conclusions: A robotic-assisted approach is a feasible option for managing transvaginal prolapse mesh perforation into the bladder. Pelvic surgeons must be well equipped to handle transvaginal mesh complications in a patient-specific manner.
Keywords: Intravesical mesh; Pelvic organ prolapse; Robotic-assisted surgery; Transvaginal mesh; Urogynecology.
© 2024. The International Urogynecological Association.