NanoBioTech Laboratory, Department of Environmental Engineering, Florida Polytechnic University, Lakeland, FL, USA.
Research and Development, Molekule Inc., 3802 Spectrum Blvd., Tampa, FL, 33612, USA.
Chemosphere. 2024 Aug;361:142380. doi: 10.1016/j.chemosphere.2024.142380. Epub 2024 May 18.
Due to weather and working/operational conditions, plastic degradation produces toxic and non-biodegradable nano and microplastics (N/M-Ps, ranging from 10 nm to 5 mm), and over time these N/M-Ps have integrated with the human cycle through ingestion and inhalation. These N/M-Ps, as serious emerging pollutants, are causing considerable adverse health issues due to up-taken by the cells, tissue, and organs, including the brain. It has been proven that N/M-Ps can cross the blood-brain barrier (via olfactory and blood vessels) and affect the secretion of neuroinflammatory (cytokine and chemokine), transporters, and receptor markers. Neurotoxicity, neuroinflammation, and brain injury, which may result in such scenarios are a serious concern and may cause brain disorders. However, the related pathways and pathogenesis are not well-explored but are the focus of upcoming emerging research. Therefore, as a focus of this editorial, well-organized multidisciplinary research is required to explore associated pathways and pathogenesis, leading to brain mapping and nano-enabled therapeutics in acute and chronic N/M - Ps exposure.
由于天气和工作/操作条件的影响,塑料降解会产生有毒且不可生物降解的纳米和微塑料(N/M-Ps,尺寸范围为 10nm 至 5mm),随着时间的推移,这些 N/M-Ps 通过摄入和吸入已经与人类循环系统结合在一起。这些 N/M-Ps 作为严重的新兴污染物,由于被细胞、组织和器官(包括大脑)吸收,正在引起相当多的健康问题。已经证明,N/M-Ps 可以穿过血脑屏障(通过嗅觉和血管),并影响神经炎症(细胞因子和趋化因子)、转运体和受体标志物的分泌。神经毒性、神经炎症和脑损伤,可能会导致这种情况,这是一个严重的问题,并可能导致大脑疾病。然而,相关的途径和发病机制尚未得到很好的探索,但这是即将出现的新兴研究的重点。因此,作为这篇社论的重点,需要进行组织良好的多学科研究,以探索相关的途径和发病机制,从而实现急性和慢性 N/M-Ps 暴露情况下的大脑图谱和纳米治疗。
