PURPOSE: We explored the role of bladder mechanoreceptors in post-void residual urine in rats with bladder outlet obstruction. MATERIALS AND METHODS: Partial bladder outlet obstruction was induced by a urethral ligature in 11 adult female Sprague-Dawley® rats. Nine sham operated rats served as controls. The outcome was evaluated in acute experiments using α-chloralose anesthesia 6 weeks later. Bladders were catheterized for infusion, pressure recording and intravesical electrical stimulation. Bladder efferent activity was recorded from a thin pelvic nerve branch close to the bladder. Micturition contractions were triggered at different bladder volumes by a brief train of electrical stimulation of bladder afferents while monitoring post-stimulus efferent activity and reflex bladder contractions. The degree of obstruction was assessed by bladder wet weight at the end of the experiment. RESULTS: Bladder weight, micturition threshold volume, anatomical bladder capacity and peak contraction force were significantly increased in obstructed rats. In sham operated controls a triggered micturition reflex was sustained by afferent feedback from the bladder until the bladder was empty. In contrast, reflex discharges failed with substantial volume remaining in the bladder in obstructed rats. The minimal micturition reflex volume correlated positively with bladder weight, micturition threshold volume and maximal bladder capacity (r ≥0.74). CONCLUSIONS: In rats with partial bladder outlet obstruction the micturition reflex failed before the bladder was empty due to a decreased afferent drive from bladder mechanoreceptors. Similar changes may contribute to post-void residual urine in humans with bladder outlet obstruction.
PURPOSE: We explored the role of bladder mechanoreceptors in post-void residual urine in rats with bladder outlet obstruction. MATERIALS AND METHODS: Partial bladder outlet obstruction was induced by a urethral ligature in 11 adult female Sprague-Dawley® rats. Nine sham operated rats served as controls. The outcome was evaluated in acute experiments using α-chloralose anesthesia 6 weeks later. Bladders were catheterized for infusion, pressure recording and intravesical electrical stimulation. Bladder efferent activity was recorded from a thin pelvic nerve branch close to the bladder. Micturition contractions were triggered at different bladder volumes by a brief train of electrical stimulation of bladder afferents while monitoring post-stimulus efferent activity and reflex bladder contractions. The degree of obstruction was assessed by bladder wet weight at the end of the experiment. RESULTS: Bladder weight, micturition threshold volume, anatomical bladder capacity and peak contraction force were significantly increased in obstructed rats. In sham operated controls a triggered micturition reflex was sustained by afferent feedback from the bladder until the bladder was empty. In contrast, reflex discharges failed with substantial volume remaining in the bladder in obstructed rats. The minimal micturition reflex volume correlated positively with bladder weight, micturition threshold volume and maximal bladder capacity (r ≥0.74). CONCLUSIONS: In rats with partial bladder outlet obstruction the micturition reflex failed before the bladder was empty due to a decreased afferent drive from bladder mechanoreceptors. Similar changes may contribute to post-void residual urine in humans with bladder outlet obstruction.
Authors: Zhuo Wang; Harriet H Chang; Yunliang Gao; Rong Zhang; Yumei Guo; Daniel P Holschneider; Larissa V Rodriguez Journal: PLoS One Date: 2017-09-08 Impact factor: 3.240