Neurotoxicity of Nanoparticles

Bondy, Stephen C.

doi:10.1002/9781118856017.ch6

Handbook of Nanotoxicology, Nanomedicine and Stem Cell Use in Toxicology 2014

DOI: 10.1002/9781118856017.ch6

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Neurotoxicity of Nanoparticles

Stephen C. Bondy

Abstract: The evidence for the neurotoxicity of nanoparticles is summarized.The sources of such particles and the ways in which they may enter the brain are listed and discussed. These include the olfactory pathway, the respiratory tract and the possibility of transport across the blood brain barrier. However, nanoparticles acting systemically can also be neurotoxic without directly entering the brain. The means by which nanoparticles can be injurious to the central nervous system include both their physical characteris… Show more

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2016

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Neurological Disorders and Oxidative Toxic Stress: A Role of Metal Nanoparticles

Mazdeh

Rahiminejad

Nili‐Ahmadabadi

et al. 2016

Jundishapur J Nat Pharm Prod

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Context: Oxidative stress is a hallmark of many types of neuropathology disorders and underlying mechanism in several neurodegenerative diseases and brain injuries. The CNS is particularly susceptible to oxidative toxic stress (OTS). Reactive oxygen spices are the basic inflammation and neurotoxicity mediators in ischemia/reperfusion injuries. The purpose of the present review is to provide an overview of some nanoparticles (NPs) in developing OTS conditions and neurological disorders. Evidence Acquisition: Here, a nanotechnology approach is evaluated using NPs in human neuronal protection against OTS. It may be wide therapeutic applications in the case of acute and/or chronic neurodegenerative disorders related to OTS. Results: In the brain of mice treated with nanosize TiO 2 , a significant association was found between the ability to induce the production of ROS and metabolic stress in intracellular environments and inflammatory responses in mice brai. The large surface area of AgNPs may efficiently facilitate the radicals generation including ROS in various organs. The production of ROS may cause DNA damage, cellular apoptosis, and activation of the mitogen activated protein kinase (MAPK) pathways which is responsible for regulating many cellular processes. Prolonged and excessive OTS may contribute to the activation of transcription factors and genes responsible for inflammation responses such as NF-κB and AP-1. Furthermore, OTS may contribute to the onset of neurodegenerative diseases. The ability of CuONPs to generate OTS in vitro studies has been demonstrated; however, information on the neurotoxicity of the CuONPs in vivo is low. Conclusions:The NPs-induced OTS may increase the pro-inflammatory responses. On the other hand, administration of antioxidants such as NAC and vitamin C and E prior to exposure to metal NPs significantly decreases OTS conditions.

show abstract

Neurological Disorders and Oxidative Toxic Stress: A Role of Metal Nanoparticles

Mazdeh

Rahiminejad

Nili‐Ahmadabadi

et al. 2016

Jundishapur J Nat Pharm Prod

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show abstract

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Neurotoxicity of Nanoparticles

Cited by 1 publication

References 74 publications

Neurological Disorders and Oxidative Toxic Stress: A Role of Metal Nanoparticles

Neurological Disorders and Oxidative Toxic Stress: A Role of Metal Nanoparticles

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