Nosocomial graft fragmentation and healing response of an ePTFE angioaccess graft.

J M Anderson, T M Hering, A L Ansel, J M Johnson
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Abstract

This investigation was directed toward the tissue reaction and wound healing response of an ePTFE prosthesis implanted in a human subject as an arteriovenous fistulae for over 7 years. Due to the frequent puncture of the prosthesis for hemodialysis access, the pattern of healing is markedly different from that normally observed in ePTFE grafts in humans. The ePTFE graft material of the AV fistula was completely incorporated in fibrous tissue with prominent pseudointima formation (inner capsule), fibrous tissue within the graft and a well-adhered periadventitial layer (outer capsule). In the portion of the graft most frequently punctured, the wall of the graft was composed mainly of fibrous tissue containing dissociated fragments of ePTFE. Biochemical analysis of the fibrous tissue across the wall of the graft revealed that it contained types I, III, and V collagen, with type I greater than III greater than V. The type V collagen was present in largest percentage at the luminal surface and in decreasing percentage in the ePTFE material and outer capsule. This analysis suggests that collagen type deposition in this prosthesis occurs in a manner similar to a normal healing wound, except for the unusual pattern of type V collagen deposition, which may be an adaptive variation of the healing response.

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ePTFE血管通路移植物的院内断裂和愈合反应。
本研究针对ePTFE假体作为动静脉瘘植入人体超过7年的组织反应和伤口愈合反应。由于假体在血液透析通道中经常被穿刺,愈合模式与通常在人类ePTFE移植物中观察到的明显不同。房瘘ePTFE移植物材料完全融入纤维组织,假内膜形成明显(内囊),移植物内纤维组织和附着良好的膜周层(外囊)。在最常被刺破的移植物部分,移植物的壁主要由含有游离ePTFE片段的纤维组织组成。对移植物管壁纤维组织进行生化分析,发现其含有I型、III型和V型胶原,其中I型胶原大于III型胶原,V型胶原在管腔表面所占比例最大,在ePTFE材料和外囊中所占比例逐渐降低。这一分析表明,除了不寻常的V型胶原沉积模式(可能是愈合反应的适应性变化)外,该假体中的胶原沉积与正常愈合伤口的沉积方式相似。
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