柴油燃烧纳米粒子对暴露中氧化应激标记物的影响

D. R. M. Prasad, S. S. Malini, Shashank Kumar, S. Manjula
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引用次数: 4

摘要

目的:研究氧化应激反应简介:人体暴露于多种炎症因子引起氧化应激,是引起多种慢性退行性疾病的途径。地球上的每一种生物都曾通过直接接触和/或吸入接触过微小的外来颗粒。它们进入人类和动物的器官系统,并可能破坏细胞过程,与膜、细胞器、DNA和其他蛋白质相互作用,建立一系列动态的生物物理化学相互作用,并导致生物相容或生物不良后果,导致疾病和/或失调。虽然有关于脂质过氧化产物和实验动物抗氧化状态的研究,但关于柴油机燃烧纳米颗粒暴露在人体上的氧化应激标志物的详细报告很少。我们的目的是研究不同暴露条件下氧化应激标志物的变化。方法:研究对象为500名25-40岁的男性车库工人,每天接触6-8小时,在工作中不使用任何防护工具,持续6-12年,300名对照。测定血清氧化应激指标并进行比较。结果:各暴露组氧化应激标志物发生显著变化,MDA升高,SOD和CAT降低。结论:氧化应激标志物在初级保健中可作为良好的生物监测指标。关键词:柴油燃烧纳米颗粒,氧化应激标志物,超氧化物歧化酶,过氧化氢酶,脂质过氧化,黑醛
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Diesel Combustion Nanoparticles on Oxidative Stress Markers among the Exposures
Objective: To study the Oxidative stress response Introduction: Exposure to various inflammatory agents causes oxidative stress in humans and is the route cause numerous chronic degenerative diseases. Every organism on Earth has been exposed to small and minute foreign particles by direct contact and/or by inhalation. They enter the organ system of humans and animals and potentially disrupt the cellular processes, interact with membranes, cell organelles, DNA, and other proteins to establish a series of dynamic bio-physico-chemical interactions and results in bio-compatible or bio-adverse outcomes causing diseases and/or disorders. Although studies are available on lipid peroxidation products and the antioxidant status in experimental animals, a detailed report with respect to oxidative stress markers on human exposed to diesel combustion nanoparticles is meagre. We aimed to study the variation in oxidative stress markers among exposures. Methodology: The study was conducted among 500 male garage workers of age group 25-40years with exposure for 6-8hrs a day without using any protective aids during work, for 6-12years and 300 controls. Serum oxidative stress markers were estimated and compared. Results: A significant variation among the oxidative stress markers were observed among the exposures with surge in MDA and reduction in SOD and CAT. Conclusion: Oxidative stress markers can be good biomonitoring factor in primary care.Key words: Diesel combustion nanoparticles, oxidative stress markers, superoxide dismutase, catalase, lipid peroxidation, melanaldehyde
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来源期刊
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审稿时长
12 weeks
期刊介绍: Asia Pacific Journal of Medical Toxicology (APJMT) aims to expand the knowledge of medical toxicology and tries to provide reliable information in this field for medical and healthcare professionals. APJMT mainly focuses on research related to medical toxicology issues in the Asia Pacific region and publishes articles on clinical and epidemiological aspects of toxicology, poisonings emergency care, addiction, drug interactions and adverse effects. The journal accepts and welcomes high quality papers in the form of original articles and rarely review articles, case reports and scientific letters relevant to medical practice in toxicology.
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