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碳纳米管 第一部分:一种新型多功能药物递送载体的制备

Carbon nanotubes part I: preparation of a novel and versatile drug-delivery vehicle.

作者信息

Karimi Mahdi, Solati Navid, Amiri Mohammad, Mirshekari Hamed, Mohamed Elmira, Taheri Mahdiar, Hashemkhani Mahshid, Saeidi Ahad, Estiar Mehrdad Asghari, Kiani Parnian, Ghasemi Amir, Basri Seyed Masoud Moosavi, Aref Amir R, Hamblin Michael R

机构信息

Iran University of Medical Sciences, School of Advanced Technologies in Medicine, Department of Nanotechnology , Tehran , Iran.

出版信息

Expert Opin Drug Deliv. 2015 Jul;12(7):1071-87. doi: 10.1517/17425247.2015.1003806. Epub 2015 Jan 19.

DOI:10.1517/17425247.2015.1003806
PMID:25601356
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4475469/
Abstract

INTRODUCTION

It is 23 years since carbon allotrope known as carbon nanotubes (CNT) was discovered by Iijima, who described them as "rolled graphite sheets inserted into each other". Since then, CNTs have been studied in nanoelectronic devices. However, CNTs also possess the versatility to act as drug- and gene-delivery vehicles.

AREAS COVERED

This review covers the synthesis, purification and functionalization of CNTs. Arc discharge, laser ablation and chemical vapor deposition are the principle synthesis methods. Non-covalent functionalization relies on attachment of biomolecules by coating the CNT with surfactants, synthetic polymers and biopolymers. Covalent functionalization often involves the initial introduction of carboxylic acids or amine groups, diazonium addition, 1,3-dipolar cycloaddition or reductive alkylation. The aim is to produce functional groups to attach the active cargo.

EXPERT OPINION

In this review, the feasibility of CNT being used as a drug-delivery vehicle is explored. The molecular composition of CNT is extremely hydrophobic and highly aggregation-prone. Therefore, most of the efforts towards drug delivery has centered on chemical functionalization, which is usually divided in two categories; non-covalent and covalent. The biomedical applications of CNT are growing apace, and new drug-delivery technologies play a major role in these efforts.

摘要

引言

自饭岛澄男发现被称为碳纳米管(CNT)的碳同素异形体以来已有23年,他将其描述为“相互插入的卷曲石墨片”。从那时起,碳纳米管就在纳米电子器件中得到了研究。然而,碳纳米管还具有作为药物和基因递送载体的多功能性。

涵盖领域

本综述涵盖了碳纳米管的合成、纯化和功能化。电弧放电、激光烧蚀和化学气相沉积是主要的合成方法。非共价功能化依赖于通过用表面活性剂、合成聚合物和生物聚合物包覆碳纳米管来附着生物分子。共价功能化通常涉及最初引入羧酸或胺基、重氮加成、1,3 - 偶极环加成或还原烷基化。目的是产生用于附着活性载药的官能团。

专家观点

在本综述中,探讨了碳纳米管用作药物递送载体的可行性。碳纳米管的分子组成极具疏水性且极易聚集。因此,药物递送方面的大部分努力都集中在化学功能化上,化学功能化通常分为两类:非共价和共价。碳纳米管的生物医学应用正在迅速发展,新的药物递送技术在这些努力中发挥着重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5efd/4475469/6d45f6206672/nihms664400f1.jpg

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