Effects of biochemical changes to filling media during urodynamic testing in women with lower urinary tract symptoms.

Scandinavian journal of urology and nephrology. Supplementum Pub Date : 2004-01-01 DOI:10.1080/03008880410015200

Timothy Gluck, Adrian Wagg, Chris Fry, James Malone-Lee

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引用次数: 5

Abstract

Objective: Detrusor muscle is sensitive, in vitro, to changes in the chemistry of its environment. However, the extent to which the intravesical environment influences bladder function is unclear. This study was designed to assess the impact of changes to the intravesical biochemical environment on urodynamic testing, compared with a normal saline control.

Material and methods: Ninety-four women were studied with repeat fill urodynamics, using a normal saline control and test solutions (hyperosmolar, a solution intended to cause extracellular alkalosis and solutions designed to affect both intracellular and extracellular pH, and high potassium solution).

Results: There were no significant effects of any changes in filling solution.

Conclusions: Urodynamic testing was unaffected by changes to intravesical chemistry that are known to affect detrusor cells in vitro. This suggests that the homoeostatic mechanisms of the bladder are able to maintain a stable microenvironment for detrusor cells despite changes to bladder contents.

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有下尿路症状的女性尿动力学试验中填充介质生化变化的影响

目的:体外逼尿肌对环境化学变化敏感。然而，膀胱内环境对膀胱功能的影响程度尚不清楚。本研究旨在评估膀胱内生化环境变化对尿动力学测试的影响，并与生理盐水对照进行比较。材料和方法:使用生理盐水对照和测试溶液(高渗溶液，一种旨在引起细胞外碱中毒的溶液，一种旨在影响细胞内和细胞外pH值的溶液，以及高钾溶液)，对94名女性进行了重复填充尿动力学研究。结果:充填液的改变对两组患者无明显影响。结论:尿动力学测试不受膀胱内化学变化的影响，这些变化已知会影响体外逼尿肌细胞。这表明，尽管膀胱内容物发生变化，膀胱的内平衡机制能够维持逼尿肌细胞稳定的微环境。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scandinavian journal of urology and nephrology. Supplementum

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