In-Utero Neurotoxicity of Nanoparticles

Neurotoxicity-New Advances [Working Title] Pub Date : 2022-01-03 DOI:10.5772/intechopen.101452

Nikhat J. Siddiqi, S. Fatima, B. Sharma, Mohamed Samir Elrobh

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Abstract

The unique physicochemical properties of nanoparticles (NPs) make them widely used in cosmetics, medicines, food additives, and antibacterial and antiviral compounds. NPs are also used in therapy and diagnostic applications. Depending on their origin, the NPs are commonly classified as naturally occurring and synthetic or anthropogenic NPs. Naturally occurring nanoparticles can be formed by many physical, chemical, and biological processes occurring in all spheres of the earth. However, synthetic NPs are specifically designed or unintentionally produced by different human activities. Owing to their nano size and special properties, the engineered NPs can enter the human body through different routes such as dermal penetration, intravenous injection and inhalation. NPs may accumulate in various tissues and organs including the brain. Indiscriminate use of NP is a matter concern due to the dangers of NP exposure to living organisms. It is possible for NPs to cross the placental barrier, and adversely affect the developing fetus, posing a health hazard in them by causing neurodevelopmental toxicity. Thus, NP-induced neurotoxicity is a topic that demands attention at the maternal-fetal interface. This chapter summarizes the routes by which NPs circumvent the blood-brain barrier, including recent investigations about NPs’ neurotoxicity as well as possible mechanisms involved in neural fetotoxicity.

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纳米颗粒的子宫内神经毒性

纳米粒子独特的物理化学性质使其广泛应用于化妆品、药品、食品添加剂以及抗菌和抗病毒化合物中。NPs也用于治疗和诊断应用。根据其来源，NPs通常分为自然产生的、合成的或人为的NPs。自然产生的纳米颗粒可以通过发生在地球各个领域的许多物理、化学和生物过程形成。然而，合成NPs是由不同的人类活动专门设计或无意产生的。由于其纳米尺寸和特殊性能，工程NPs可以通过皮肤渗透、静脉注射和吸入等不同途径进入人体。NPs可以在包括大脑在内的各种组织和器官中积累。由于NP暴露于生物体的危险，不加选择地使用NP是一个值得关注的问题。NPs有可能穿过胎盘屏障，对发育中的胎儿产生不利影响，通过引起神经发育毒性对胎儿构成健康危害。因此，np诱导的神经毒性是一个在母胎界面需要关注的话题。本章总结了NPs绕过血脑屏障的途径，包括NPs神经毒性的最新研究以及涉及神经胎儿毒性的可能机制。

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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Neurotoxicity-New Advances [Working Title]

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