BACKGROUND: On the basis of studies with animals and experience with functioning muscle transfer in plastic surgery, we have developed a surgical technique to restore detrusor function for patients with bladder acontractility in whom there is no treatment alternative. METHODS: Three patients (aged 26 years, 28 years, and 68 years) with bladder acontractility as a result of spinal-cord injury (two patients) and chronic overdistension (one patient), who required catheterisation for bladder emptying for 5 years, 2 years, and 2 years, respectively, took part in our study. The patients were treated with microneurovascular free transfer of autologous latissimus dorsi muscle to the bladder to restore detrusor function. Follow-up included clinical and urodynamic evaluation, colour doppler sonography, intravenous urography, and flow-mode computerised tomography. FINDINGS: The three patients voluntarily emptied their bladders at 16 weeks, 16 weeks, and 30 weeks after surgery, respectively. There was no need for further catheterisation throughout the follow-up period. On urodynamic assessment at 12 months after the operation bladder capacity was found to be 600 mL, 600 mL, and 650 mL, residual urinary volume 0 mL, 50 mL, 90 mL, and maximum flow rate 26 mL/s, 25 mL/s, and 18 mL/s, respectively. Activity at the transplanted latissimus dorsi was confirmed by ultrasonography and flow-mode computerised tomography. INTERPRETATION: Microneurovascular free transfer of latissimus dorsi muscle to functionally restore a deficient detrusor muscle has proved to be successful for the three patients in our study. This technique may also be an option to restore the function of other smooth-muscle organs.
BACKGROUND: On the basis of studies with animals and experience with functioning muscle transfer in plastic surgery, we have developed a surgical technique to restore detrusor function for patients with bladder acontractility in whom there is no treatment alternative. METHODS: Three patients (aged 26 years, 28 years, and 68 years) with bladder acontractility as a result of spinal-cord injury (two patients) and chronic overdistension (one patient), who required catheterisation for bladder emptying for 5 years, 2 years, and 2 years, respectively, took part in our study. The patients were treated with microneurovascular free transfer of autologous latissimus dorsi muscle to the bladder to restore detrusor function. Follow-up included clinical and urodynamic evaluation, colour doppler sonography, intravenous urography, and flow-mode computerised tomography. FINDINGS: The three patients voluntarily emptied their bladders at 16 weeks, 16 weeks, and 30 weeks after surgery, respectively. There was no need for further catheterisation throughout the follow-up period. On urodynamic assessment at 12 months after the operation bladder capacity was found to be 600 mL, 600 mL, and 650 mL, residual urinary volume 0 mL, 50 mL, 90 mL, and maximum flow rate 26 mL/s, 25 mL/s, and 18 mL/s, respectively. Activity at the transplanted latissimus dorsi was confirmed by ultrasonography and flow-mode computerised tomography. INTERPRETATION: Microneurovascular free transfer of latissimus dorsi muscle to functionally restore a deficient detrusor muscle has proved to be successful for the three patients in our study. This technique may also be an option to restore the function of other smooth-muscle organs.
Authors: Karel Dewulf; Nitya Abraham; Laura E Lamb; Tomas L Griebling; Naoki Yoshimura; Pradeep Tyagi; Andrew Veerecke; Sarah N Bartolone; Bernadette M M Zwaans; Dirk De Ridder; Ananias Diokno; Michael B Chancellor Journal: Int Urol Nephrol Date: 2017-02-23 Impact factor: 2.370