通过细胞培养模型预测纳米材料对动物的肺毒性:成就和观点。

IF 6.9 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology Pub Date : 2022-11-01 DOI:10.1002/wnan.1794
Emilio Di Ianni, Nicklas Raun Jacobsen, Ulla Vogel, Peter Møller
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引用次数: 2

摘要

由于缺乏生物监测和流行病学研究,动物实验是评估工程纳米材料(ENMs)毒理学效应的高度相关模型。然而,由于在毒理学中使用动物存在伦理问题和经济挑战,具有不同物理化学性质的enm数量的增加使这种方法变得紧张。目前迫切需要能够预测体内毒理学反应水平的细胞培养模型,从而减少或取代纳米毒理学中动物的使用。然而,关于ENMs暴露后毒理学反应的体内外相关性研究仍然有限。在这篇综述中,我们收集了比较ENMs引起的体外和体内毒性作用的研究。我们讨论了细胞培养模型和暴露系统对体外模型在动物肺部暴露于ENMs后等效毒性作用的可预测性的影响。此外,我们讨论了定性或定量比较体外和体内效果的方法。暴露于水中的细胞的毒理学反应强度与暴露于空气-液体界面系统中的细胞的毒理学反应没有系统差异,并且在两种暴露系统之间似乎存在相似的ENMs危害等级。总的来说,我们表明,简单的体外模型,即细胞在浸泡条件下暴露于ENMs,可用于预测体内的毒性作用,并确定未来的策略,以改善体外和体内ENMs诱导的肺毒性之间的关联。本文分类如下:纳米医学毒理学和监管问题>纳米材料毒理学。
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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Predicting nanomaterials pulmonary toxicity in animals by cell culture models: Achievements and perspectives.

Animal experiments are highly relevant models for the assessment of toxicological effects of engineered nanomaterials (ENMs), due to lack of biomonitoring and epidemiological studies. However, the expanding number of ENMs with different physico-chemical properties strains this approach, as there are ethical concerns and economical challenges with the use of animals in toxicology. There is an urgent need for cell culture models that predict the level of toxicological responses in vivo, consequently reducing or replacing the use of animals in nanotoxicology. However, there is still a limited number of studies on in vitro-in vivo correlation of toxicological responses following ENMs exposure. In this review, we collected studies that have compared in vitro and in vivo toxic effects caused by ENMs. We discuss the influence of cell culture models and exposure systems on the predictability of in vitro models to equivalent toxic effects in animal lungs after pulmonary exposure to ENMs. In addition, we discuss approaches to qualitatively or quantitatively compare the effects in vitro and in vivo. The magnitude of toxicological responses in cells that are exposed in submerged condition is not systematically different from the response in cells exposed in air-liquid interface systems, and there appears to be similar ENMs hazard ranking between the two exposure systems. Overall, we show that simple in vitro models with cells exposed to ENMs in submerged condition can be used to predict toxic effects in vivo, and identify future strategies to improve the associations between in vitro and in vivo ENMs-induced pulmonary toxicity. This article is categorized under: Toxicology and Regulatory Issues in Nanomedicine > Toxicology of Nanomaterials.

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来源期刊
Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology
Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology NANOSCIENCE & NANOTECHNOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
16.60
自引率
2.30%
发文量
93
期刊介绍: Nanotechnology stands as one of the pivotal scientific domains of the twenty-first century, recognized universally for its transformative potential. Within the biomedical realm, nanotechnology finds crucial applications in nanobiotechnology and nanomedicine, highlighted as one of seven emerging research areas under the NIH Roadmap for Medical Research. The advancement of this field hinges upon collaborative efforts across diverse disciplines, including clinicians, biomedical engineers, materials scientists, applied physicists, and toxicologists. Recognizing the imperative for a high-caliber interdisciplinary review platform, WIREs Nanomedicine and Nanobiotechnology emerges to fulfill this critical need. Our topical coverage spans a wide spectrum, encompassing areas such as toxicology and regulatory issues, implantable materials and surgical technologies, diagnostic tools, nanotechnology approaches to biology, therapeutic approaches and drug discovery, and biology-inspired nanomaterials. Join us in exploring the frontiers of nanotechnology and its profound impact on biomedical research and healthcare.
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