高冲击性体育活动中的盆底动力学:一项计算建模研究。
Pelvic floor dynamics during high-impact athletic activities: A computational modeling study.
作者信息
Dias Nicholas, Peng Yun, Khavari Rose, Nakib Nissrine A, Sweet Robert M, Timm Gerald W, Erdman Arthur G, Boone Timothy B, Zhang Yingchun
机构信息
Department of Biomedical Engineering, University of Houston, 360 HBS Building, 4811 Calhoun Rd., Houston, TX 77004, USA.
Department of Urology, Houston Methodist Hospital and Research Institute, 6565 Fannin St, Suite 2100, Houston, TX 77030-2703, USA.
出版信息
Clin Biomech (Bristol). 2017 Jan;41:20-27. doi: 10.1016/j.clinbiomech.2016.11.003. Epub 2016 Nov 18.
BACKGROUND
Stress urinary incontinence is a significant problem in young female athletes, but the pathophysiology remains unclear because of the limited knowledge of the pelvic floor support function and limited capability of currently available assessment tools. The aim of our study is to develop an advanced computer modeling tool to better understand the dynamics of the internal pelvic floor during highly transient athletic activities.
METHODS
Apelvic model was developed based on high-resolution MRI scans of a healthy nulliparous young female. A jump-landing process was simulated using realistic boundary conditions captured from jumping experiments. Hypothesized alterations of the function of pelvic floor muscles were simulated by weakening or strengthening the levator ani muscle stiffness at different levels. Intra-abdominal pressures and corresponding deformations of pelvic floor structures were monitored at different levels of weakness or enhancement.
FINDINGS
Results show that pelvic floor deformations generated during a jump-landing process differed greatly from those seen in a Valsalva maneuver which is commonly used for diagnosis in clinic. The urethral mobility was only slightly influenced by the alterations of the levator ani muscle stiffness. Implications for risk factors and treatment strategies were also discussed.
INTERPRETATION
Results suggest that clinical diagnosis should make allowances for observed differences in pelvic floor deformations between a Valsalva maneuver and a jump-landing process to ensure accuracy. Urethral hypermobility may be a less contributing factor than the intrinsic sphincteric closure system to the incontinence of young female athletes.
背景
压力性尿失禁是年轻女性运动员面临的一个重要问题,但由于对盆底支持功能的了解有限以及现有评估工具的能力有限,其病理生理学仍不清楚。我们研究的目的是开发一种先进的计算机建模工具,以更好地理解在高度瞬态的体育活动中盆腔内部的动力学。
方法
基于一名健康未育年轻女性的高分辨率MRI扫描结果建立盆腔模型。使用从跳跃实验中获取的实际边界条件模拟跳跃 - 着陆过程。通过在不同水平上减弱或增强肛提肌的刚度来模拟盆底肌肉功能的假设改变。在不同程度的减弱或增强水平下监测腹内压和盆底结构的相应变形。
结果
结果表明,跳跃 - 着陆过程中产生的盆底变形与临床上常用的用于诊断的瓦尔萨尔瓦动作中观察到的变形有很大不同。肛提肌刚度的改变对尿道活动度的影响很小。还讨论了对危险因素和治疗策略的影响。
解读
结果表明,临床诊断应考虑到瓦尔萨尔瓦动作和跳跃 - 着陆过程中盆底变形的观察差异,以确保准确性。对于年轻女性运动员的尿失禁,尿道活动度过高可能比内在括约肌闭合系统的影响较小。
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