Current stage and future perspective of nanoparticle for drug delivery in Brain Disorders

Journal of experimental and clinical toxicology Pub Date : 2019-01-01 DOI:10.4066/2630-4570-c1-006

A. Buga

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Abstract

C nervous system (CNS) is a highly selective environment that can prevent the access of many molecules at this level. This property is crucial for the integrity and function of CNS in normal condition but can be detrimental for brain lesion therapy. Brain-blood barrier (BBB) is a key structure involved in CNS selectivity that allows passing only very small molecule or fat-soluble molecule without transporter mechanisms. With ageing population neurological disorders are the leading cause of disability worldwide. Despite of new promising tools, there are no effective therapeutic strategies and many of neurological diseases are still untreatable. In the last decade many strategies were performed in order to increase the permeability of BBB for drugs or cells at the brain lesion site, but many of these failed to be effective. Current work is focused to design nanoparticle that can incorporate a specific molecule or cells in order to increase BBB permeability and to achieve therapeutic concentration at lesion site. However further investigation of safety and toxicity is needed in order to achieve successful translation from animal model to clinical application.

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纳米颗粒在脑部疾病中给药的研究现状及未来展望

C神经系统(CNS)是一个高度选择性的环境，可以阻止许多分子进入这个水平。这一特性对正常情况下中枢神经系统的完整性和功能至关重要，但可能不利于脑损伤治疗。脑血屏障(BBB)是参与中枢神经系统选择性的关键结构，它只允许通过非常小的分子或脂溶性分子，没有转运体机制。随着人口老龄化，神经系统疾病是全世界致残的主要原因。尽管有新的有前途的工具，但没有有效的治疗策略，许多神经系统疾病仍然无法治愈。在过去的十年中，为了增加脑损伤部位的药物或细胞对血脑屏障的通透性，采取了许多策略，但其中许多策略都无效。目前的工作重点是设计可以结合特定分子或细胞的纳米颗粒，以增加血脑屏障的通透性，并在病变部位达到治疗浓度。然而，为了成功地从动物模型转化为临床应用，还需要进一步的安全性和毒性研究。

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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Journal of experimental and clinical toxicology

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