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人腹膜可减少腹疝修补术中腹腔内粘连的形成:慢性疝大鼠模型的实验研究

Human peritoneal membrane reduces the formation of intra-abdominal adhesions in ventral hernia repair: experimental study in a chronic hernia rat model.

作者信息

Voskerician Gabriela, Jin Judy, Hunter Shawn A, Williams Christina P, White Michael, Rosen Michael J

机构信息

Proxy Biomedical Limited, Spiddal Co., Galway, Ireland.

出版信息

J Surg Res. 2009 Nov;157(1):108-14. doi: 10.1016/j.jss.2009.03.055. Epub 2009 May 3.

DOI:10.1016/j.jss.2009.03.055
PMID:19631344
Abstract

BACKGROUND

Adhesions leading to intestinal obstructions and fistulae are severe complications related to the intraperitoneal placement of synthetic meshes. This study evaluated the efficacy of human peritoneal membrane (HPM) in a chronic hernia repair rat model as an anti-adhesive solution for preventing the development of intra-abdominal adhesions.

MATERIALS AND METHODS

The mechanical properties of HPM and human fascia lata (HFL) were evaluated prior to in vivo implantation. Twenty rats underwent midline laparotomy, which led to the development of chronic hernias 28 d later. Then, animals underwent incisional hernia repair in an underlay fashion (n=5/mesh group) with compressed poly(tetra-fluoro-ethylene) (cPTFE), onto which HPM or HFL were affixed pre-repair, along with two additional controls. The extent and tenacity of intra-abdominal adhesions were determined through qualitative gross evaluations and quantitative tensiometry at 30 d post-repair. The host tissue response was evaluated histologically.

RESULTS

In hydrated state, the elastic properties of HPM were superior to HFL. Repairs with HPM had significantly less surface area covered by adhesions, with significantly lower tenacity compared with all other groups. Furthermore, intra-abdominal adhesions developed in the presence of HPM were associated with omentum only, and were distributed around the perimeter of the exposed cPTFE. HPM served as an active tissue remodeling template, replacing the traditional foreign body encapsulation with an anatomically and physiologically superior outcome.

CONCLUSIONS

HPM significantly reduces the extent and tenacity of intra-abdominal adhesion formation, and represents a bioprosthetic template that encourages structural and functional neo peritonealization.

摘要

背景

导致肠梗阻和瘘管的粘连是与合成补片腹腔内放置相关的严重并发症。本研究在慢性疝修补大鼠模型中评估了人腹膜(HPM)作为预防腹腔内粘连形成的抗粘连解决方案的疗效。

材料与方法

在体内植入前评估HPM和人阔筋膜(HFL)的力学性能。20只大鼠接受中线剖腹术,28天后导致慢性疝形成。然后,动物采用衬入式方式进行切口疝修补(每组n = 5只),使用压缩聚四氟乙烯(cPTFE),在修补前将HPM或HFL固定在其上,另外设置两个对照组。在修补后30天通过定性大体评估和定量张力测定法确定腹腔内粘连的程度和韧性。通过组织学评估宿主组织反应。

结果

在水合状态下,HPM的弹性性能优于HFL。与所有其他组相比,用HPM进行的修补粘连覆盖的表面积明显更小,韧性明显更低。此外,在HPM存在的情况下形成的腹腔内粘连仅与大网膜相关,并分布在暴露的cPTFE周边。HPM作为一种活跃的组织重塑模板,用解剖学和生理学上更优的结果取代了传统的异物包裹。

结论

HPM显著降低了腹腔内粘连形成的程度和韧性,并代表了一种鼓励结构和功能性新腹膜化的生物假体模板。

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