纳米金刚石介导的癌症药物传递研究进展综述。

A review of recent advances in nanodiamond-mediated drug delivery in cancer.

机构信息

Department of Physics, National Dong Hwa University, Shoufeng, Taiwan.

Russian Academy of Sciences, P.N. Lebedev Physics Institute, Moskva, Russian Federation.

出版信息

Expert Opin Drug Deliv. 2021 Mar;18(3):369-382. doi: 10.1080/17425247.2021.1832988. Epub 2020 Oct 19.

DOI:10.1080/17425247.2021.1832988

PMID:33047984

Abstract

INTRODUCTION

Nanodiamond (ND) refers to diamond particles with sizes from few to near 100 nanometers. For its superb physical, chemical and spectroscopic properties, it has been proposed and studied with the aims for bio imaging and drug delivery. Many modalities on conjugating drug molecules on ND to form ND-X for more efficient drug delivery have been demonstrated in the cellular and animal models.

AREA COVERED

Many novel drug delivery approaches utilizing nanodiamond as a platform have been demonstrated recently. This review summarizes recent developments on the nanodiamond facilitated drug delivery, from the ND-X complexes preparations to tests in the cellular and animal models. The outlook on clinical translation is discussed.

EXPERT OPINION

Nanodiamond and drug complexes (ND-X) produced from different methods are realized for drug delivery; almost all studies reported ND-X being more efficient compared to pure drug alone. However, ND of particle size less than 10 nm are found more toxic due to size and surface structure, and strongly aggregate. In vivo studies demonstrate ND accumulation in animal organs and no confirmed long-term effect studies on their release from organs are available. Standardized nanodiamond materials and drug delivery approaches are needed to advance the applications to the clinical level.

摘要

简介

纳米金刚石（ND）是指粒径从几纳米到近 100 纳米的金刚石颗粒。由于其优异的物理、化学和光谱性质，它已被提议并研究用于生物成像和药物输送。许多将药物分子连接到 ND 上形成 ND-X 的方法已在细胞和动物模型中得到了证明，以实现更有效的药物输送。

涵盖领域

最近已经证明了许多利用纳米金刚石作为平台的新型药物输送方法。这篇综述总结了最近在纳米金刚石介导的药物输送方面的进展，从 ND-X 复合物的制备到在细胞和动物模型中的测试。讨论了临床转化的前景。

专家意见

不同方法制备的纳米金刚石和药物复合物（ND-X）用于药物输送；几乎所有的研究报告都表明，与单独使用纯药物相比，ND-X 更有效。然而，粒径小于 10nm 的 ND 由于尺寸和表面结构而具有更高的毒性，并且强烈聚集。体内研究表明 ND 在动物器官中的积累，并且没有关于它们从器官中释放的长期影响的确认研究。需要标准化的纳米金刚石材料和药物输送方法来将应用推进到临床水平。

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纳米金刚石介导的癌症药物传递研究进展综述。

A review of recent advances in nanodiamond-mediated drug delivery in cancer.

机构信息

出版信息

INTRODUCTION

AREA COVERED

EXPERT OPINION

简介

涵盖领域

专家意见

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