猪颅骨模型中合成硬脑膜密封补片（Liqoseal）的安全性和生物降解性。

Animal Models and Experimental Medicine Pub Date : 2021-12-21 eCollection Date: 2021-12-01 DOI:10.1002/ame2.12184

Ahmet Kinaci, Wilhelmina Bergmann, Sander van Thoor, Saskia Redegeld, Albert van der Zwan, Tristan P C van Doormaal

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引用次数: 0

摘要

背景：Liqoseal 由聚（酯）醚聚氨酯防水层和含有聚乙二醇-N-羟基琥珀酰亚胺（PEG-NHS）的粘合层组成。其设计目的是防止硬膜内手术后出现脑脊液（CSF）渗漏。本研究评估了 Liqoseal 在猪开颅手术模型中的安全性和生物降解性：方法：对 32 头猪进行了开颅加硬脑膜切开术。在 15 头猪中植入了 Liqoseal，在 11 头对照猪中没有植入密封剂，在 6 头对照猪中植入了硬脑膜密封剂（Duraseal 或 Tachosil）。通过临床、核磁共振成像和组织学评估对 Liqoseal 的安全性进行了评估。对 Liqoseal 的降解情况进行了组织学评估：结果：使用前厚度为 2 毫米的 Liqoseal 没有膨胀，一个月后平均厚度达到最大值 2.14 (±0.37) 毫米。Liqoseal、Duraseal 和 Tachosil 引起的异物反应相当。Liqoseal 没有粘附到蛛网膜层，在术后 6 到 12 个月之间完全吸收。在使用 Liqoseal 的一只动物身上，无法排除硬膜外积液中含有 CSF 的可能性：结论：在颅内使用 Liqoseal 似乎是安全的，而且可生物降解。结论：Liqoseal 用于颅内似乎是安全的，而且可生物降解，但在人体中的安全性和性能还需要在临床试验中进一步评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Safety and biodegradability of a synthetic dural sealant patch (Liqoseal) in a porcine cranial model.

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Safety and biodegradability of a synthetic dural sealant patch (Liqoseal) in a porcine cranial model.

Background: Liqoseal consists of a watertight layer of poly(ester)ether urethane and an adhesive layer containing polyethylene glycol-N-hydroxysuccinimide (PEG-NHS). It is designed to prevent cerebrospinal fluid (CSF) leakage after intradural surgery. This study assessed the safety and biodegradability of Liqoseal in a porcine craniotomy model.

Methods: In 32 pigs a craniotomy plus durotomy was performed. In 15 pigs Liqoseal was implanted, in 11 control pigs no sealant was implanted and in 6 control pigs a control dural sealant (Duraseal or Tachosil) was implanted. The safety of Liqoseal was evaluated by clinical, MRI and histological assessment. The degradation of Liqoseal was histologically estimated.

Results: Liqoseal, 2 mm thick before application, did not swell and significantly was at maximum mean thickness of 2.14 (±0.37) mm at one month. The foreign body reaction induced by Liqoseal, Duraseal and Tachosil were comparable. Liqoseal showed no adherence to the arachnoid layer and was completely resorbed between 6 and 12 months postoperatively. In one animal with Liqoseal, an epidural fluid collection containing CSF could not be excluded.

Conclusion: Liqoseal seems to be safe for intracranial use and is biodegradable. The safety and performance in humans needs to be further assessed in clinical trials.

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Animal Models and Experimental Medicine

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