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阴道网片发展的里程碑:用于治疗 SUI 和 POP 的聚丙烯网片。

Landmarks in vaginal mesh development: polypropylene mesh for treatment of SUI and POP.

机构信息

Kroto Research Institute, Department of Materials Science and Engineering, University of Sheffield, Sheffield, UK.

Royal Hallamshire Hospital, Department of Urology, Sheffield, UK.

出版信息

Nat Rev Urol. 2019 Nov;16(11):675-689. doi: 10.1038/s41585-019-0230-2. Epub 2019 Sep 23.

Abstract

Vaginal meshes used in the treatment of stress urinary incontinence (SUI) and pelvic organ prolapse (POP) have produced highly variable outcomes, causing life-changing complications in some patients while providing others with effective, minimally invasive treatments. The risk:benefit ratio when using vaginal meshes is a complex issue in which a combination of several factors, including the inherent incompatibility of the mesh material with some applications in pelvic reconstructive surgeries and the lack of appropriate regulatory approval processes at the time of the premarket clearance of these products, have contributed to the occurrence of complications caused by vaginal mesh. Surgical mesh used in hernia repair has evolved over many years, from metal implants to knitted polymer meshes that were adopted for use in the pelvic floor for treatment of POP and SUI. The evolution of the material and textile properties of the surgical mesh was guided by clinical feedback from hernia repair procedures, which were also being modified to obtain the best outcomes with use of the mesh. Current evidence shows how surgical mesh fails biomechanically when used in the pelvic floor and materials with improved performance can be developed using modern material processing and tissue engineering techniques.

摘要

用于治疗压力性尿失禁(SUI)和盆腔器官脱垂(POP)的阴道网片在一些患者中产生了改变生活的并发症,而在另一些患者中提供了有效、微创的治疗方法,其效果差异很大。在使用阴道网片时,风险与收益的比率是一个复杂的问题,其中包括一些因素的综合作用,包括网片材料与盆腔重建手术某些应用的固有不兼容性,以及这些产品在获得上市前批准时缺乏适当的监管批准程序,这些因素都导致了阴道网片引起的并发症的发生。用于疝修补的外科网片已经经历了多年的发展,从金属植入物到用于治疗 POP 和 SUI 的编织聚合物网片。外科网片的材料和纺织特性的演变是由疝修补手术的临床反馈指导的,这些手术也在不断改进,以获得使用网片的最佳效果。目前的证据表明,当用于盆底时,外科网片的生物力学性能会失效,并且可以使用现代材料加工和组织工程技术来开发具有改进性能的材料。

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