一种使用大鼠腹疝模型对替代合成生物材料进行筋膜缺损修复的临床前评估。

A preclinical evaluation of alternative synthetic biomaterials for fascial defect repair using a rat abdominal hernia model.

机构信息

Monash Institute of Medical Research, Clayton, Victoria, Australia.

出版信息

PLoS One. 2012;7(11):e50044. doi: 10.1371/journal.pone.0050044. Epub 2012 Nov 20.

DOI:10.1371/journal.pone.0050044

PMID:23185528

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3502256/

Abstract

INTRODUCTION

Fascial defects are a common problem in the abdominal wall and in the vagina leading to hernia or pelvic organ prolapse that requires mesh enhancement to reduce operation failure. However, the long-term outcome of synthetic mesh surgery may be unsatisfactory due to post-surgical complications. We hypothesized that mesh fabricated from alternative synthetic polymers may evoke a different tissue response, and provide more appropriate mechanical properties for hernia repair. Our aim was to compare the in vivo biocompatibility of new synthetic meshes with a commercial mesh.

METHODS

We have fabricated 3 new warp-knitted synthetic meshes from different polymers with different tensile properties polyetheretherketone (PEEK), polyamide (PA) and a composite, gelatin coated PA (PA+G). The rat abdominal hernia model was used to implant the meshes (25 × 35 mm, n = 24/ group). After 7, 30, 60, 90 days tissues were explanted for immunohistochemical assessment of foreign body reaction and tissue integration, using CD31, CD45, CD68, alpha-SMA antibodies. The images were analysed using an image analysis software program. Biomechanical properties were uniaxially evaluated using an Instron Tensile® Tester.

RESULTS

This study showed that the new meshes induced complex differences in the type of foreign body reaction over the time course of implantation. The PA, and particularly the composite PA+G meshes, evoked a milder early inflammatory response, and macrophages were apparent throughout the time course. Our meshes led to better tissue integration and new collagen deposition, particularly with the PA+G meshes, as well as greater and sustained neovascularisation compared with the PP meshes.

CONCLUSION

PA, PA+G and PEEK appear to be well tolerated and are biocompatible, evoking an overlapping and different host tissue response with time that might convey mechanical variations in the healing tissue. These new meshes comprising different polymers may provide an alternative option for future treatment of fascial defects.

摘要

简介

腹壁和阴道的筋膜缺陷是一个常见的问题，导致疝或盆腔器官脱垂，需要网片加强以降低手术失败率。然而，由于术后并发症，合成网片手术的长期效果可能并不理想。我们假设，由替代合成聚合物制成的网片可能会引起不同的组织反应，并为疝修补提供更合适的机械性能。我们的目的是比较新型合成网片与商业网片的体内生物相容性。

方法

我们用不同的聚合物制造了 3 种新型经编合成网片，这些聚合物具有不同的拉伸性能：聚醚醚酮（PEEK）、聚酰胺（PA）和一种复合材料，即涂覆明胶的 PA（PA+G）。我们使用大鼠腹壁疝模型植入网片（25×35mm，每组 n=24）。在 7、30、60 和 90 天，取出组织进行免疫组织化学评估，检测异物反应和组织整合，使用 CD31、CD45、CD68、α-SMA 抗体。使用图像分析软件程序对图像进行分析。使用英斯特朗拉伸试验机（Instron Tensile® Tester）对生物力学性能进行单轴评估。

结果

本研究表明，新型网片在植入过程中随时间推移引起了复杂的异物反应类型差异。PA，特别是复合 PA+G 网片，引起了较轻的早期炎症反应，巨噬细胞在整个时间过程中都很明显。我们的网片导致了更好的组织整合和新的胶原沉积，特别是 PA+G 网片，以及与 PP 网片相比更大和持续的新生血管化。

结论

PA、PA+G 和 PEEK 似乎具有良好的耐受性和生物相容性，随着时间的推移，会引起重叠和不同的宿主组织反应，这可能会改变愈合组织的机械性能。这些由不同聚合物组成的新型网片可能为未来治疗筋膜缺陷提供了一种替代选择。

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一种使用大鼠腹疝模型对替代合成生物材料进行筋膜缺损修复的临床前评估。

A preclinical evaluation of alternative synthetic biomaterials for fascial defect repair using a rat abdominal hernia model.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

简介

方法

结果

结论

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