上代聚对苯二甲酸乙二醇酯编织血管假体的降解现象

Q3 Medicine JVS-vascular science Pub Date : 2023-01-01 DOI:10.1016/j.jvssci.2023.01.001
Arielle Bellissard MD , Nabil Chakfe MD, PhD , Salomé Kuntz MD, MSc , Delphine Dion MSc , Lory Schmitt , Frédéric Heim PhD , Anne Lejay MD, PhD
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引用次数: 0

摘要

目的分析新一代外植针织聚对苯二甲酸乙二醇酯(PET)血管(VGs)在术前ct血管造影(CTA)检查中出现的非吻合口退化,以便更好地了解导致血管破裂的机制。方法在Geprovas欧洲协同检索计划中收集植入的针织PET VGs。包括1990年以后植入的出现非吻合口断裂的VGs。检索每个VG的临床数据和移植前CTA数据。根据标准方案,通过宏观检查和光学显微镜对破裂进行表征。结果在欧洲11个中心收集了19个移植体,其中13个作为腹股沟下旁路植入,3个作为主动脉水平植入,1个作为腋叶-道德旁路植入。平均植入时间为9.2年。移植前CTA数据显示,4个假动脉瘤位于内收管水平,2个假动脉瘤位于腹股沟韧带水平,3个假动脉瘤位于大腿近端或中段。检查结果显示,外植性肺叶纵向破裂9例,横向破裂15例,45°定向破裂5例,v型破裂7例,点状破裂2例。破裂涉及11个evg的重网格线,10个evg的指导线,15个evg的压溃谷。在微观层面上,可以确定两种主要的降解现象:网格密度的降低和PET纤维的局部断裂。14个evg表现为网格线松动,17个evg表现为卷曲衰减。结论新一代PET VG降解可能是解剖约束和内在纺织结构现象共同作用的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Degradation phenomena on last generations of polyethylene terephthalate knitted vascular prostheses

Objectives

The aim of this study was to analyze a series of new generations of explanted knitted polyethylene terephthalate (PET) vascular grafts (VGs) presenting nonanastomotic degradations according to preoperative computed tomography angiography (CTA) when available in order to better understand the mechanisms leading to rupture.

Methods

Explanted knitted PET VGs were collected as part of the Geprovas European Collaborative Retrieval Program. VGs implanted after 1990 presenting a nonanastomotic rupture of the fabric were included. Clinical data and pre-explantation CTA data when available were retrieved for each VG. The ruptures were characterized by macroscopic examination and optical microscopy according to a standardized protocol.

Results

Nineteen explants were collected across 11 European centers, 13 were implanted as infrainguinal bypasses, 3 at the aortic level, and 1 as an axillobifemoral bypass. The mean implantation duration was 9.2 years. Pre-explantation CTA data were available for 8 VGs and showed false aneurysms at the adductor canal level on 4 VGs, at the inguinal ligament level on 2 VGs, and in the proximal or middle third thigh level on 3 VGs. Examination revealed longitudinal ruptures on 9 explanted VGs (EVGs), transversal ruptures on 15 EVGs, 45°-oriented ruptures on 5 EVGs, V-shaped ruptures on 7 EVGs, and punctiform ruptures on 2 EVGs. Ruptures involved the remeshing line on 11 EVGs, the guideline on 10 EVGs, and the crimping valley on 15 EVGs.

At the microscopic level, two main degradation phenomena could be identified: a decrease in the density of the meshing and local ruptures of the PET fibers. Fourteen EVGs presented a loosening of the remeshing line and 17 EVGs an attenuation of the crimping.

Conclusions

New-generation PET VG degradation seems to result from both anatomic constraints and intrinsic textile structure phenomena.

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