Development of Sensitive In Vitro Protocols for the Biocompatibility Testing of Medical Devices and Pharmaceuticals Intended for Contact with the Eyes: Acute Irritation and Phototoxicity Assessment.

IF 2.4 4区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL
Atla-Alternatives To Laboratory Animals Pub Date : 2024-09-01 Epub Date: 2024-08-21 DOI:10.1177/02611929241270095
Peter Pôbiš, Júlia Kubalcová, Tatiana Milasová, Helena Kandárová
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引用次数: 0

Abstract

This study introduces a novel in vitro methodology that employs the 3-D reconstructed tissue model, EpiOcular, to assess the irritation and phototoxicity potential of medical devices and drugs in contact with the eye. Our study evaluated diverse test materials, including medical devices, ophthalmological solutions and an experimental drug (cemtirestat), for their potential to cause eye irritation and phototoxicity. The protocols used in this study with the EpiOcular tissue model were akin to those used in the ultra-mildness testing of cosmetic formulations, which is challenging to predict with standard in vivo rabbit tests. To design these protocols, we leveraged experience gained from the validation project on the EpiDerm skin irritation test for medical devices (ISO 10993-23:2021) and the OECD TG 498 method for photo-irritation testing. The predictions were based on the tissue viability and inflammatory response, as determined by IL-1α release. By developing and evaluating these protocols for medical devices, we aimed to expand the applicability domain of the tests referred to in ISO 10993-23. This will contribute to the standardisation and cost-effective safety evaluation of ophthalmic products, while reducing reliance on animal testing in this field. The findings obtained from the EpiOcular model in the photo-irritation test could support its implementation in the testing strategies outlined in OECD TG 498.

开发用于与眼睛接触的医疗设备和药品生物兼容性测试的敏感体外协议:急性刺激和光毒性评估。
本研究介绍了一种新型体外方法,该方法采用三维重建组织模型 EpiOcular 来评估与眼睛接触的医疗器械和药物的刺激性和光毒性潜力。我们的研究评估了各种测试材料,包括医疗器械、眼科溶液和一种实验药物(cemtirestat),以确定它们是否可能对眼睛产生刺激和光毒性。本研究中使用的 EpiOcular 组织模型类似于化妆品配方超温和性测试中使用的方案,而标准的体内兔试验很难预测这种超温和性。在设计这些方案时,我们充分利用了从医疗器械 EpiDerm 皮肤刺激测试验证项目(ISO 10993-23:2021)和 OECD TG 498 光刺激测试方法中获得的经验。预测的依据是组织活力和炎症反应,由 IL-1α 释放量决定。通过为医疗器械开发和评估这些协议,我们旨在扩大 ISO 10993-23 中所述测试的适用范围。这将有助于眼科产品安全评估的标准化和成本效益,同时减少该领域对动物试验的依赖。EpiOcular 模型在光刺激测试中获得的结果可支持其在 OECD TG 498 中概述的测试策略中的实施。
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来源期刊
CiteScore
3.80
自引率
3.70%
发文量
60
审稿时长
>18 weeks
期刊介绍: Alternatives to Laboratory Animals (ATLA) is a peer-reviewed journal, intended to cover all aspects of the development, validation, implementation and use of alternatives to laboratory animals in biomedical research and toxicity testing. In addition to the replacement of animals, it also covers work that aims to reduce the number of animals used and refine the in vivo experiments that are still carried out.
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