Neural tissue tolerance to synthetic dural mater graft implantation in a rabbit durotomy model

IF 0.9 4区 医学 Q4 PATHOLOGY Journal of Toxicologic Pathology Pub Date : 2024-02-12 DOI:10.1293/tox.2023-0121
Yuval RAMOT, Noam KRONFELD, Michal STEINER, Nora Nseir MANASSA, Amir BAHAR, Abraham NYSKA
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Abstract

In neurosurgical interventions, effective closure of the dura mater is essential to prevent cerebrospinal fluid leakage and minimize post-operative complications. Biodegradable synthetic materials have the potential to be used as dura mater grafts owing to their regenerative properties and low immunogenicity. This study evaluated the safety of ArtiFascia, a synthetic dura mater graft composed of poly(l-lactic-co-caprolactone acid) and poly(d-lactic-co-caprolactone acid), in a rabbit durotomy model. Previously, ArtiFascia demonstrated positive local tolerance and biodegradability in a 12-month preclinical trial. Here, specialized stains were used to evaluate potential brain damage associated with ArtiFascia use. Histochemical and immunohistochemical assessments included Luxol Fast Blue, cresyl Violet, Masson’s Trichrome, neuronal nuclei,, Glial Fibrillary Acidic Protein, and ionized calcium-binding adaptor molecule 1 stains. The stained slides were graded based on the brain-specific reactions. The results showed no damage to the underlying brain tissue for either the ArtiFascia or control implants. Neither inflammation nor neuronal loss was evident, corroborating the safety of the ArtiFascia. This approach, combined with previous histopathological analyses, strengthens the safety profile of ArtiFascia and sets a benchmark for biodegradable material assessment in dura graft applications. This study aligns with the Food and Drug Administration guidelines and offers a comprehensive evaluation of the potential neural tissue effects of synthetic dura mater grafts.

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兔硬脑膜切口模型中神经组织对合成硬脑膜移植物植入的耐受性
在神经外科手术中,有效闭合硬脑膜对防止脑脊液漏和减少术后并发症至关重要。生物可降解合成材料具有再生特性和低免疫原性,因此有潜力用作硬脑膜移植物。本研究评估了由聚(l-乳酸-共己内酯酸)和聚(d-乳酸-共己内酯酸)组成的合成硬脑膜移植物 ArtiFascia 在兔硬脑膜切口模型中的安全性。此前,ArtiFascia 在为期 12 个月的临床前试验中表现出良好的局部耐受性和生物可降解性。在此,我们使用专门的染色方法来评估与使用 ArtiFascia 相关的潜在脑损伤。组织化学和免疫组化评估包括卢克索快速蓝、甲酚紫、马森三色染色、神经细胞核、胶质纤维酸性蛋白和离子化钙结合适配分子 1 染色。根据大脑特异性反应对染色玻片进行分级。结果显示,ArtiFascia 和对照组植入物均未对下层脑组织造成损伤。炎症和神经元损失均不明显,这证实了 ArtiFascia 的安全性。这种方法与之前的组织病理学分析相结合,加强了 ArtiFascia 的安全性,并为硬脑膜移植应用中的生物可降解材料评估设定了基准。这项研究符合美国食品和药物管理局的指导方针,对合成硬脑膜移植物对神经组织的潜在影响进行了全面评估。
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来源期刊
Journal of Toxicologic Pathology
Journal of Toxicologic Pathology PATHOLOGY-TOXICOLOGY
CiteScore
2.10
自引率
16.70%
发文量
22
审稿时长
>12 weeks
期刊介绍: JTP is a scientific journal that publishes original studies in the field of toxicological pathology and in a wide variety of other related fields. The main scope of the journal is listed below. Administrative Opinions of Policymakers and Regulatory Agencies Adverse Events Carcinogenesis Data of A Predominantly Negative Nature Drug-Induced Hematologic Toxicity Embryological Pathology High Throughput Pathology Historical Data of Experimental Animals Immunohistochemical Analysis Molecular Pathology Nomenclature of Lesions Non-mammal Toxicity Study Result or Lesion Induced by Chemicals of Which Names Hidden on Account of the Authors Technology and Methodology Related to Toxicological Pathology Tumor Pathology; Neoplasia and Hyperplasia Ultrastructural Analysis Use of Animal Models.
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