急性期反应作为（纳米）颗粒诱导的心血管疾病的一种生物学作用机制

Acute Phase Response as a Biological Mechanism-of-Action of (Nano)particle-Induced Cardiovascular Disease.

作者信息

Hadrup Niels, Zhernovkov Vadim, Jacobsen Nicklas Raun, Voss Carola, Strunz Maximilian, Ansari Meshal, Schiller Herbert B, Halappanavar Sabina, Poulsen Sarah S, Kholodenko Boris, Stoeger Tobias, Saber Anne Thoustrup, Vogel Ulla

机构信息

National Research Centre for the Working Environment, Copenhagen, DK-2100, Denmark.

Systems Biology Ireland, University College Dublin, Dublin 4, Ireland.

出版信息

Small. 2020 May;16(21):e1907476. doi: 10.1002/smll.201907476. Epub 2020 Mar 29.

DOI:10.1002/smll.201907476

PMID:32227434

Abstract

Inhaled nanoparticles constitute a potential health hazard due to their size-dependent lung deposition and large surface to mass ratio. Exposure to high levels contributes to the risk of developing respiratory and cardiovascular diseases, as well as of lung cancer. Particle-induced acute phase response may be an important mechanism of action of particle-induced cardiovascular disease. Here, the authors review new important scientific evidence showing causal relationships between inhalation of particle and nanomaterials, induction of acute phase response, and risk of cardiovascular disease. Particle-induced acute phase response provides a means for risk assessment of particle-induced cardiovascular disease and underscores cardiovascular disease as an occupational disease.

摘要

吸入性纳米颗粒因其与大小相关的肺部沉积和较大的表面积与质量比而构成潜在的健康危害。暴露于高水平的纳米颗粒会增加患呼吸道和心血管疾病以及肺癌的风险。颗粒诱导的急性期反应可能是颗粒诱导的心血管疾病的重要作用机制。在此，作者回顾了新的重要科学证据，这些证据表明吸入颗粒和纳米材料、诱导急性期反应与心血管疾病风险之间存在因果关系。颗粒诱导的急性期反应为颗粒诱导的心血管疾病的风险评估提供了一种方法，并强调心血管疾病是一种职业病。

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Acute Phase Response as a Biological Mechanism-of-Action of (Nano)particle-Induced Cardiovascular Disease.急性期反应作为（纳米）颗粒诱导的心血管疾病的一种生物学作用机制

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急性期反应作为（纳米）颗粒诱导的心血管疾病的一种生物学作用机制

Acute Phase Response as a Biological Mechanism-of-Action of (Nano)particle-Induced Cardiovascular Disease.

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