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利用骨盆系统的有限元模型分析后路骶棘韧带固定的活动度。

Mobility analysis of a posterior sacrospinous fixation using a finite element model of the pelvic system.

机构信息

Service de Gynécologie Obstétrique, Pôle Mère-Femme, Centre Hospitalier Universitaire Jean Minjoz, Besançon, France.

Université Lille, CNRS, Centrale Lille, UMR 9013-LaMcube-Laboratoire de Mécanique, Multiphysique, Multiéchelle, F-59000, Lille, France.

出版信息

PLoS One. 2024 Mar 21;19(3):e0299012. doi: 10.1371/journal.pone.0299012. eCollection 2024.

DOI:10.1371/journal.pone.0299012
PMID:38512958
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10956756/
Abstract

INTRODUCTION AND HYPOTHESIS

In order to improve the knowledge POP physiopathology and POP repair, a generic biomechanical model of the female pelvic system has been developed. In the literature, no study has currently evaluated apical prolapse repair by posterior sacrospinous ligament fixation using a generic model nor a patient-specific model that personalize the management of POP and predict surgical outcomes based on the patient's pre-operative Magnetic Resonance Imaging. The aim of our study was to analyze the influence of a right and/or left sacrospinous ligament fixation and the distance between the anchorage area and the ischial spine on the pelvic organ mobility using a generic and a patient-specific Finite Element model (FEM) of the female pelvic system during posterior sacrospinous ligament fixation (SSF).

METHODS

Firstly, we used a generic 3D FEM of the female pelvic system previously made by our team that allowed us to simulate the mobility of the pelvic system. To create a patient-specific 3D FEM of the female pelvic system, we used a preoperative dynamic pelvic MRI of a 68 years old woman with a symptomatic stage III apical prolapse and cystocele. With these 2 models, a SSF was simulated. A right and/or left SSF and different distances between the anchorage area and the ischial spine (1 cm, 2 cm and 3 cm.) were compared. Outcomes measures were the pelvic organ displacement using the pubococcygeal line during maximal strain: Ba point for the most posterior and inferior aspect of the bladder base, C point the cervix's or the vaginal apex and Bp point for the anterior aspect of the anorectal junction.

RESULTS

Overall, pelvic organ mobility decreased regardless of surgical technique and model. According to the generic model, C point was displaced by 14.1 mm and 11.5 mm, Ba point by 12.7 mm, and 12 mm and Bp point by 10.6 mm and 9.9 mm after left and bilateral posterior SSF, respectively. C point was displaced by 15.4 mm and 11.6 mm and Ba point by 12.5 mm and 13.1mm when the suture on the sacrospinous ligament was performed at 1 cm and 3 cm from the ischial spine respectively (bilateral posterior SSF configuration). According to the patient-specific model, the displacement of Ba point could not be analyzed because of a significative and asymmetric organ displacement of the bladder. C point was displaced by 4.74 mm and 2.12 mm, and Bp point by 5.30 mm and 3.24 mm after left and bilateral posterior SSF respectively. C point was displaced by 4.80 mm and 4.85 mm and Bp point by 5.35 mm and 5.38 mm when the suture on the left sacrospinous ligament was performed at 1 cm and 3 cm from the ischial spine, respectively.

CONCLUSION

According to the generic model from our study, the apex appeared to be less mobile in bilateral SSF. The anchorage area on the sacrospinous ligament seems to have little effect on the pelvic organ mobilities.

TRIAL REGISTRATION

ClinicalTrials.gov Identifier: NCT04551859.

摘要

简介和假设

为了提高对 POP 生理学和 POP 修复的认识,我们开发了一种女性盆腔系统的通用生物力学模型。在文献中,目前尚无研究使用通用模型或患者特异性模型评估通过后路骶棘韧带固定术修复穹窿脱垂,也没有研究根据患者术前磁共振成像来个性化管理 POP 并预测手术结果。我们的研究目的是分析后路骶棘韧带固定术(SSF)中右侧和/或左侧骶棘韧带固定以及固定点与坐骨棘之间的距离对使用女性盆腔系统通用和患者特异性有限元模型(FEM)的盆腔器官活动度的影响。

方法

首先,我们使用了我们团队之前制作的通用 3D 女性盆腔系统 FEM,该模型允许我们模拟盆腔系统的活动度。为了创建患者特异性 3D 女性盆腔系统 FEM,我们使用了一位 68 岁有症状 III 期穹窿脱垂和膀胱膨出的女性的术前动态盆腔 MRI。使用这两个模型模拟了 SSF。比较了右侧和/或左侧 SSF 以及固定点与坐骨棘之间的不同距离(1cm、2cm 和 3cm)。结果测量指标是在最大应变时使用耻骨尾骨线的盆腔器官位移:Ba 点为膀胱底的最后部和最下部,C 点为宫颈或阴道顶端,Bp 点为肛直肠交界处的前部。

结果

总的来说,无论手术技术和模型如何,盆腔器官的活动度都有所下降。根据通用模型,后路双侧 SSF 后,C 点分别移位 14.1mm 和 11.5mm,Ba 点分别移位 12.7mm 和 12mm,Bp 点分别移位 10.6mm 和 9.9mm。当骶棘韧带上的缝线位于坐骨棘 1cm 和 3cm 处时,C 点分别移位 15.4mm 和 11.6mm,Ba 点分别移位 12.5mm 和 13.1mm(后路双侧 SSF 配置)。根据患者特异性模型,由于膀胱的显著和不对称器官移位,无法分析 Ba 点的移位。后路双侧 SSF 后,C 点分别移位 4.74mm 和 2.12mm,Bp 点分别移位 5.30mm 和 3.24mm。当左侧骶棘韧带上的缝线位于坐骨棘 1cm 和 3cm 处时,C 点分别移位 4.80mm 和 4.85mm,Bp 点分别移位 5.35mm 和 5.38mm。

结论

根据我们研究中的通用模型,穹窿在双侧 SSF 中似乎活动度较小。骶棘韧带上的固定点似乎对盆腔器官的活动度影响不大。

试验注册

ClinicalTrials.gov 标识符:NCT04551859。

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Int Urogynecol J. 2023 Sep;34(9):2329-2332. doi: 10.1007/s00192-023-05496-3. Epub 2023 Mar 10.
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Bilateral Sacrospinous Hysteropexy Versus Bilateral Sacrospinous Ligament Fixation with Vaginal Hysterectomy for Apical Uterovaginal Prolapse.
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