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评估内镜下瓣膜消融前后后尿道瓣膜症患者下尿路水动力学的计算流体动力学建模方法:一项初步研究。

Computational fluid dynamics modeling approaches to assess lower urinary tract hydraulic dynamics in posterior urethral valve before and after endoscopic valve ablation: a pilot study.

作者信息

Chen Hong-Song, Liu Xing, Zhang Zhi-Cheng, Ye Zi-Han, Lin Tao, He Da-Wei, Wei Guang-Hui

机构信息

Department of Urology, Children's Hospital of Chongqing Medical University, Chongqing, 400014, PR China.

Ministry of Education Key Laboratory of Child Development and Disorders, Chongqing, 400014, PR China.

出版信息

World J Urol. 2022 Feb;40(2):505-511. doi: 10.1007/s00345-021-03875-3. Epub 2021 Nov 22.

DOI:10.1007/s00345-021-03875-3
PMID:34811586
Abstract

PURPOSE

Computational fluid dynamics (CFD) has been used successfully in cardiovascular system research to analyze the physiological processes inside vessels. We evaluated the hydraulic information of urine through the lower urinary tract in a patient with posterior urethral valve (PUV) before and after valve ablation by CFD.

METHODS

A set of models of the lower urinary tract were developed based on geometrical data obtained by cystoscopy and voiding cystourethrography. Simulated assumptions and conditions were applied according to prior studies and urodynamic results. We used Fluent CFD 19.0 (Ansys Inc., USA) to compute the velocity and pressure of the fluid regions. The simplification of Bernoulli's formula was applied afterward to calculate the hydraulic energy of different positions.

RESULTS

The urine flow rates of the NORMALst, the PUVst, and the POSTst at 5000 Pa were 18.08 ml/s, 11.14 ml/s, and 12.16 ml/s, respectively. Precipitous pressure change was observed around the valve in the PUVst, and the abnormal change was concentrated in the dilated urethra in the POSTst. Major energy dissipations were generated around the valve and the dilated urethra in the PUVst. The energy loss that occurred in the dilated urethra did not improve after the operation.

CONCLUSIONS

Our findings are probably indicative of the hydrodynamics changes in the dilated urethra in PUV and need to be confirmed through more improved CFD models in the future. CFD may revolutionize pediatric urologists' perception in the management of urinary disease.

摘要

目的

计算流体动力学(CFD)已成功应用于心血管系统研究,以分析血管内的生理过程。我们通过CFD评估了一名后尿道瓣膜(PUV)患者在瓣膜消融前后下尿路的尿液水力信息。

方法

基于膀胱镜检查和排尿性膀胱尿道造影获得的几何数据,建立了一组下尿路模型。根据先前的研究和尿动力学结果应用模拟假设和条件。我们使用Fluent CFD 19.0(美国安赛蜜公司)计算流体区域的速度和压力。随后应用伯努利公式的简化形式来计算不同位置的水力能量。

结果

在5000 Pa时,正常状态、PUV状态和术后状态的尿流率分别为18.08 ml/s、11.14 ml/s和12.16 ml/s。在PUV状态下,瓣膜周围观察到急剧的压力变化,术后状态下异常变化集中在扩张的尿道。PUV状态下,瓣膜和扩张尿道周围产生了主要的能量耗散。术后扩张尿道中发生的能量损失没有改善。

结论

我们的发现可能表明PUV中扩张尿道的流体动力学变化,未来需要通过更完善的CFD模型加以证实。CFD可能会彻底改变儿科泌尿科医生对泌尿系统疾病管理的认知。

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本文引用的文献

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Sci Rep. 2021 Jan 12;11(1):663. doi: 10.1038/s41598-020-79505-6.
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Can the posterior:anterior urethral ratio on voiding cystourethrogram be used as a reliable predictor of successful posterior urethral valve ablation in male children?排尿性膀胱尿道造影上的后尿道与前尿道比值能否作为男童后尿道瓣膜消融术成功的可靠预测指标?
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Letter to the editor regarding the article "Trends in urinary stone composition in 23,182 stone analyses from 2011 to 2019: a high-volume center study in China".致编辑的信:关于“2011年至2019年23182例结石分析中尿结石成分的变化趋势:中国一家高容量中心的研究”这篇文章
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