Toxicological assessment of nanoparticles and microplastics

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引用次数: 2

Abstract

According to National Oceanic and Atmospheric Administration (NOAA), microplastics are small plastic particles of less than 0.2 inches (5 millimeters) long and considered as sesame seeds. The microplastics (MPs) reach the rivers, lakes, and oceans after being flushed into sewers. Nanoparticles (NPs) are colloidal particles within the size range of 1 to 100 nanometers (nm). Secondary NPs occurred naturally by the degradation of macro and microplastic waste materials and are more heterogenous than primary NPs. The damaged biomolecules lead to the occurrence of numerous reactions including inflammatory response, cell death, tissue damage, and DNA damage. Free radical generation (non-enzymatic antioxidants) and antioxidant defenses helps to balance the excess ROS and repair the damaged cells to reduce oxidative stress. NPs and MPs eventually move to the aquatic environment followed by the entrance of NPs and MPs into the bodies of aquatic animals to cause harmful effects. NPs may also dramatically increase the CAT and SOD activities. MPs and NPs are very harmful to the organisms however combined with other chemical components. These components are cause serious harmful to the fish and damage the nervous system of fish. NPs and MPs can also cross the blood brain barriers in the brains of fish.
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纳米颗粒和微塑料的毒理学评价
根据美国国家海洋和大气管理局(NOAA)的说法,微塑料是长度小于0.2英寸(5毫米)的小塑料颗粒,被认为是芝麻。微塑料(MPs)被冲入下水道后进入河流、湖泊和海洋。纳米粒子(NPs)是一种胶体粒子,粒径范围在1到100纳米之间。次生NPs通过宏观和微塑料废物的降解自然产生,并且比初级NPs更具异质性。受损的生物分子会导致多种反应的发生,包括炎症反应、细胞死亡、组织损伤和DNA损伤。自由基的产生(非酶促抗氧化剂)和抗氧化防御有助于平衡过量的活性氧,修复受损细胞,减少氧化应激。NPs和MPs最终进入水生环境,随后NPs和MPs进入水生动物体内,造成有害影响。NPs还可显著提高CAT和SOD活性。MPs和NPs对生物体非常有害,但与其他化学成分结合在一起。这些成分对鱼类造成严重危害,损害鱼类的神经系统。NPs和MPs也能穿过鱼脑中的血脑屏障。
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