Rodent models of susceptibility: what is their place in inhalation toxicology?

Urmila P Kodavanti, Daniel L Costa
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引用次数: 18

Abstract

There is renewed interest in inhalation toxicology regarding ‘susceptibility’ as associated with host variables, including genetics, age, diet, and disease. This interest derives from epidemiology that shows air pollution-related human mortality/morbidity, especially among individuals with cardiopulmonary disease. Several animal models with experimental or genetically-based cardiopulmonary diseases are now being incorporated into inhalation toxicology studies to investigate mechanisms that underlie host susceptibility. However, current models have strengths and limitations as to how they mimic the essential features of human diseases. To date, animal models of pulmonary hypertension, bronchitis, asthma, and cardiovascular disease, but not emphysema, appear to exhibit greater susceptibility to air pollution particulate matter. As in humans, host susceptibility appears to involve multiple genetic and environmental factors, and is poorly understood, but the database of information is growing rapidly. As existing models gain wider use, our understanding of the models will improve and encourage refinements/development of models that integrate both genetic and environmental factors to better mimic the human condition.

啮齿动物敏感性模型:它们在吸入毒理学中的地位是什么?
吸入毒理学中“易感性”与宿主变量(包括遗传、年龄、饮食和疾病)的关系重新引起了人们的兴趣。这种兴趣源于流行病学,它显示了与空气污染有关的人类死亡率/发病率,特别是心肺疾病患者。几种具有实验性或遗传性心肺疾病的动物模型现在正在纳入吸入毒理学研究,以调查宿主易感性的机制。然而,目前的模型在如何模拟人类疾病的基本特征方面具有优势和局限性。迄今为止,肺动脉高压、支气管炎、哮喘和心血管疾病(但肺气肿除外)的动物模型似乎对空气污染颗粒物表现出更大的易感性。与人类一样,宿主易感性似乎涉及多种遗传和环境因素,人们对其了解甚少,但信息数据库正在迅速增长。随着现有模型得到更广泛的应用,我们对模型的理解将得到改进,并鼓励模型的改进/发展,这些模型将整合遗传和环境因素,以更好地模拟人类状况。
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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