Brandão Sofia, Parente Marco, Mascarenhas Teresa, da Silva Ana Rita Gomes, Ramos Isabel, Jorge Renato Natal
Department of Radiology, Centro Hospitalar de São João-EPE, Faculty of Medicine, University of Porto, Alameda Prof. Hernâni Monteiro, 4200-319 Porto, Portugal.
IDMEC, Faculty of Engineering, University of Porto, Rua Dr Roberto Frias, s/n, 4200-465 Porto, Portugal.
J Biomech. 2015 Jan 21;48(2):217-23. doi: 10.1016/j.jbiomech.2014.11.045. Epub 2014 Dec 9.
Excessive mobility of the bladder neck and urethra are common features in stress urinary incontinence. We aimed at assessing, through computational modelling, the bladder neck position taking into account progressive impairment of the pelvic ligaments. Magnetic resonance images of a young healthy female were used to build a computational model of the pelvic cavity. Appropriate material properties and constitutive models were defined. The impairment of the ligaments was simulated by mimicking a reduction in their stiffness. For healthy ligaments, valsalva maneuver led to an increase in the α angle (between the bladder neck-symphysis pubis and the main of the symphysis) from 91.8° (at rest) to 105.7°, and 5.7 mm of bladder neck dislocation, which was similar to dynamic imaging of the same woman (α angle from 80° to 103.3°, and 5mm of bladder neck movement). For 95% impairment, they enlarged to 124.28° and 12 mm. Impairment to the pubourethral ligaments had higher effect than that of vaginal support (115° vs. 108°, and 9.1 vs. 7.3mm). Numerical simulation could predict urethral motion during valsalva maneuver, for both healthy and impaired ligaments. Results were similar to those of continent women and women with stress urinary incontinence published in the literature. Biomechanical analysis of the pubourethral ligaments complements the biomechanical study of the pelvic cavity in urinary incontinence. It may be useful in young women presenting stress urinary incontinence without imaging evidence of urethral and muscle lesions or organ descend during valsalva, and for whom fascial damage are not expected.
膀胱颈和尿道过度活动是压力性尿失禁的常见特征。我们旨在通过计算建模来评估膀胱颈位置,同时考虑盆腔韧带的渐进性损伤。利用一名年轻健康女性的磁共振图像构建盆腔腔计算模型。定义了合适的材料属性和本构模型。通过模拟韧带刚度的降低来模拟韧带损伤。对于健康韧带,瓦尔萨尔瓦动作导致α角(膀胱颈-耻骨联合与耻骨联合中线之间)从静息时的91.8°增加到105.7°,膀胱颈移位5.7毫米,这与该女性的动态成像结果相似(α角从80°到103.3°,膀胱颈移动5毫米)。对于95%损伤的情况,α角扩大到124.28°,膀胱颈移位12毫米。耻骨尿道韧带损伤的影响比阴道支持结构损伤的影响更大(分别为115°对108°,9.1毫米对7.3毫米)。数值模拟可以预测瓦尔萨尔瓦动作期间健康和受损韧带情况下的尿道运动。结果与文献中报道的控尿女性和压力性尿失禁女性的结果相似。耻骨尿道韧带的生物力学分析补充了尿失禁中盆腔腔的生物力学研究。这对于那些出现压力性尿失禁但在瓦尔萨尔瓦动作期间没有尿道和肌肉病变或器官脱垂的影像学证据且预计没有筋膜损伤的年轻女性可能有用。
