Fiber biodurability and biopersistence: historical toxicological perspective of synthetic vitreous fibers (SVFs), the long fiber paradigm, and implications for advanced materials.

IF 5.7 2区 医学 Q1 TOXICOLOGY
Amy K Madl, Heidi C O'Neill
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引用次数: 1

Abstract

Extensive toxicology studies of synthetic vitreous fibers (SVFs) demonstrated that fiber dimension, durability/dissolution, and biopersistence are critical factors for risk of fibrogenesis and carcinogenesis. Lessons learned from the SVF experience provide useful context for predicting hazards and risk of nano-enabled advanced materials. This review provides (1) a historical toxicological overview of animal and in vitro toxicology studies of SVFs, (2) key findings that long durable fibers pose a risk of fibrogenic and tumorigenic responses and not short fibers or long soluble fibers, (3) in vitro and in vivo test methods for biodurability and biopersistence and associated predictive thresholds for fibrosis or tumors, and (4) recommendations for testing of advanced materials. Generally, SVFs (fiber lengths >20 µm) with in vitro fiber dissolution rates greater than 100 ng/cm2/hr (glass fibers in pH 7 and stone fibers in pH 4.5) and in vivo fiber clearance less than WT1/2 40 or 50 days were not associated with fibrosis or tumors. Long biodurable and biopersistent fibers exceeding these fiber dissolution and clearance thresholds may pose a risk of fibrosis and cancer. Fiber length-, durability-, and biopersistent-dependent factors that influence pathogenicity of mineral fibers are also expected to affect the biological effects of high aspect ratio nanomaterials (HARN). Only with studies aimed to correlate in vitro durability, in vivo biopersistence, and biological outcomes will it be determined whether similar or different in vitro fiber dissolution and in vivo half-life thresholds, which exempt carcinogenicity classification of SVFs, can also apply to HARNs.

纤维的生物耐久性和生物持久性:合成玻璃体纤维(SVFs)的历史毒理学观点,长纤维范式,以及对先进材料的影响。
对合成玻璃体纤维(svf)的广泛毒理学研究表明,纤维的尺寸、耐久性/溶解性和生物持久性是纤维形成和致癌风险的关键因素。从SVF经验中吸取的教训为预测纳米先进材料的危害和风险提供了有用的背景。这篇综述提供了(1)svf动物和体外毒理学研究的历史毒理学概述,(2)长耐用纤维而不是短纤维或长可溶性纤维具有纤维化和致瘤性反应风险的关键发现,(3)体外和体内生物耐久性和生物持久性的测试方法以及纤维化或肿瘤的相关预测阈值,(4)对先进材料测试的建议。通常,体外纤维溶解速率大于100 ng/cm2/hr (pH为7的玻璃纤维和pH为4.5的石纤维)、体内纤维清除率小于WT1/2 40或50天的svf(纤维长度>20µm)与纤维化或肿瘤无关。超过这些纤维溶解和清除阈值的长生物耐受性和生物持久性纤维可能会造成纤维化和癌症的风险。影响矿物纤维致病性的纤维长度、耐久性和生物持久性依赖因素也有望影响高纵横比纳米材料(HARN)的生物效应。只有将体外持久性、体内生物持久性和生物学结果相关联的研究,才能确定类似或不同的体外纤维溶出度和体内半衰期阈值(免除svf的致癌性分类)是否也适用于harn。
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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来源期刊
CiteScore
9.50
自引率
1.70%
发文量
29
期刊介绍: Critical Reviews in Toxicology provides up-to-date, objective analyses of topics related to the mechanisms of action, responses, and assessment of health risks due to toxicant exposure. The journal publishes critical, comprehensive reviews of research findings in toxicology and the application of toxicological information in assessing human health hazards and risks. Toxicants of concern include commodity and specialty chemicals such as formaldehyde, acrylonitrile, and pesticides; pharmaceutical agents of all types; consumer products such as macronutrients and food additives; environmental agents such as ambient ozone; and occupational exposures such as asbestos and benzene.
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