在保持尿控期间，盆底肌和尿道外括约肌对施加的膀胱压力有不同的反应。

Pelvic floor muscles and the external urethral sphincter have different responses to applied bladder pressure during continence.

机构信息

Glickman Urological and Kidney Institute, Cleveland Clinic, Cleveland, Ohio 44195, USA.

出版信息

Urology. 2010 Jun;75(6):1515.e1-7. doi: 10.1016/j.urology.2009.11.065. Epub 2010 Mar 5.

DOI:10.1016/j.urology.2009.11.065

PMID:20206969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2879447/

Abstract

OBJECTIVES

To determine the functional innervation of the pelvic floor muscles (PFM) and whether there is PFM activity during an external pressure increase to the bladder in female rats.

METHODS

Thirty-one female adult virgin Sprague-Dawley rats received an external increase in bladder pressure until urinary leakage was noted while bladder pressure was recorded (leak point pressure [LPP]) under urethane anesthesia. Six of the rats underwent repeat LPP testing after bilateral transection of the levator ani nerve. Another 6 rats underwent repeat LPP testing after bilateral transection of the pudendal nerve. Simultaneous recordings of PFM (pubo- and iliococcygeus muscles), electromyogram (EMG), and external urethral sphincter (EUS) EMG were recorded during cystometry and LPP testing.

RESULTS

Thirteen rats (42%) showed tonic PFM EMG activity during filling cystometry. Eighteen rats (58%) showed no tonic PFM EMG activity at baseline, but PFM EMG could be activated by pinching the perineal skin. This activity could be maintained unless voiding occurred. The external increase in bladder pressure caused significantly increased EUS EMG activity as demonstrated by increased amplitude and frequency. However, there was no such response in PFM EMG. LPP was not significantly different after levator ani nerve transection, but was significantly decreased after pudendal nerve transection.

CONCLUSIONS

PFM activity was not increased during external pressure increases to the bladder in female rats. Experimental designs using rats should consider this result. The PFM, unlike the EUS, does not contribute to the bladder-to-urethra continence reflex. PFM strengthening may nonetheless facilitate urinary continence clinically by stabilizing the bladder neck.

摘要

目的

确定盆底肌（PFM）的功能神经支配，以及在雌性大鼠膀胱受到外部压力增加时是否存在 PFM 活动。

方法

31 只成年雌性 Sprague-Dawley 大鼠在乌拉坦麻醉下接受膀胱外部压力增加，直到出现尿漏（漏点压力[LPP]），同时记录膀胱压力。其中 6 只大鼠在阴部神经双侧横断后重复进行 LPP 测试。另外 6 只大鼠在阴部神经双侧横断后重复进行 LPP 测试。在膀胱测压和 LPP 测试过程中，同时记录 PFM（耻骨尾骨肌）、肌电图（EMG）和尿道外括约肌（EUS）EMG 的活动。

结果

13 只大鼠（42%）在膀胱充盈测压时表现出 PFM EMG 活动的张力。18 只大鼠（58%）在基线时没有 PFM EMG 活动，但可以通过捏会阴皮肤来激活 PFM EMG。这种活动可以维持，除非发生排尿。外部增加膀胱压力导致 EUS EMG 活动明显增加，表现为幅度和频率增加。然而，PFM EMG 没有这种反应。阴部神经横断后 LPP 无显著差异，但阴部神经横断后显著降低。

结论

在雌性大鼠膀胱受到外部压力增加时，PFM 活动没有增加。使用大鼠的实验设计应考虑到这一结果。与 EUS 不同，PFM 不会对膀胱到尿道的控尿反射产生影响。然而，PFM 强化可能通过稳定膀胱颈在临床上有助于尿控。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e1b4/2879447/6f0e476cf7ae/nihms176548f1.jpg

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在保持尿控期间，盆底肌和尿道外括约肌对施加的膀胱压力有不同的反应。

Pelvic floor muscles and the external urethral sphincter have different responses to applied bladder pressure during continence.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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