生物相容性超分子介孔二氧化硅纳米颗粒作为下一代药物递送系统

Biocompatible Supramolecular Mesoporous Silica Nanoparticles as the Next-Generation Drug Delivery System.

作者信息

Mohamed Farahidah, Oo May K, Chatterjee Bappaditya, Alallam Batoul

机构信息

Pharmaceutical Technology Department, Kulliyyah of Pharmacy, International Islamic University Malaysia, Kuantan, Malaysia.

Shobhaben Pratapbhai Patel School of Pharmacy & Technology Management, SVKM's Narsee Monjee Institute of Management Studies, Mumbai, India.

出版信息

Front Pharmacol. 2022 Jun 28;13:886981. doi: 10.3389/fphar.2022.886981. eCollection 2022.

DOI:10.3389/fphar.2022.886981

PMID:35837281

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9273823/

Abstract

Supramolecular mesoporous silica nanoparticles (MSNs) offer distinct properties as opposed to micron-sized silica particles in terms of their crystal structure, morphology-porosity, toxicity, biological effects, and others. MSN biocompatibility has touched the pharmaceutical realm to exploit its robust synthesis pathway for delivery of various therapeutic molecules including macromolecules and small-molecule drugs. This article provides a brief review of MSN history followed by special emphasis on the influencing factors affecting morphology-porosity characteristics. Its applications as the next-generation drug delivery system (NGDDS) particularly in a controlled release dosage form via an oral drug delivery system are also presented and shall be highlighted as oral delivery is the most convenient route of drug administration with the economical cost of development through to scale-up for clinical trials and market launch.

摘要

与微米级二氧化硅颗粒相比，超分子介孔二氧化硅纳米颗粒（MSN）在晶体结构、形态孔隙率、毒性、生物学效应等方面具有独特的性质。MSN的生物相容性已涉足制药领域，以利用其强大的合成途径来递送包括大分子和小分子药物在内的各种治疗分子。本文简要回顾了MSN的历史，随后特别强调了影响形态孔隙率特征的因素。还介绍了其作为下一代药物递送系统（NGDDS）的应用，特别是通过口服给药系统的控释剂型，并且由于口服给药是最方便的给药途径，从开发到扩大规模进行临床试验和上市的经济成本较低，因此将重点突出这一点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b14/9273823/8f6021ef5163/fphar-13-886981-g001.jpg

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生物相容性超分子介孔二氧化硅纳米颗粒作为下一代药物递送系统

Biocompatible Supramolecular Mesoporous Silica Nanoparticles as the Next-Generation Drug Delivery System.

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