Biomedical Nanosystems for In Vivo Detoxification: From Passive Delivery Systems to Functional Nanodevices and Nanorobots.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
T N Pashirova, Z M Shaihutdinova, V F Mironov, P Masson
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引用次数: 1

Abstract

The problem of low efficiency of nanotherapeutic drugs challenges the creation of new alternative biomedical nanosystems known as robotic nanodevices. In addition to encapsulating properties, nanodevices can perform different biomedical functions, such as precision surgery, in vivo detection and imaging, biosensing, targeted delivery, and, more recently, detoxification of endogenous and xenobiotic compounds. Nanodevices for detoxification are aimed at removing toxic molecules from biological tissues, using a chemical- and/or enzyme-containing nanocarrier for the toxicant to diffuse inside the nanobody. This strategy is opposite to drug delivery systems that focus on encapsulating drugs and releasing them under the influence of external factors. The review describes various kinds of nanodevices intended for detoxification that differ by the type of poisoning treatment they provide, as well as the type of materials and toxicants. The final part of the review is devoted to enzyme nanosystems, an emerging area of research that provides fast and effective neutralization of toxins in vivo.

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用于体内排毒的生物医学纳米系统:从被动给药系统到功能纳米设备和纳米机器人。
纳米治疗药物效率低的问题挑战了被称为机器人纳米设备的新的替代生物医学纳米系统的创建。除了封装特性外,纳米器件还可以执行不同的生物医学功能,如精确手术、体内检测和成像、生物传感、靶向递送,以及最近对内源性和外源性化合物的解毒。用于解毒的纳米设备旨在从生物组织中去除有毒分子,使用含有化学物质和/或酶的纳米载体使毒物在纳米体内扩散。这种策略与专注于封装药物并在外部因素影响下释放药物的药物递送系统相反。这篇综述描述了各种用于解毒的纳米设备,它们提供的中毒治疗类型以及材料和毒物的类型不同。综述的最后一部分致力于酶纳米系统,这是一个新兴的研究领域,可以在体内快速有效地中和毒素。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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