A Review on Nanosponges: An Idiosyncratic Approach for Delivery of Proactive Molecules

Q3 Materials Science

Current Nanomaterials Pub Date : 2023-07-26 DOI:10.2174/2405461508666230726163944

N. Minocha, Meenakshi Attri, A. Raghav, K. Rao, P. Pandey

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Abstract

A lot of work has been done by many researchers to develop a system that is targeted at a specific site. Nanosponges are one of the systems that serve this purpose and have several advantages over other methods. The article’s strategy is to provide access to data regarding the nanosponges system, including its preparation, evaluation, and advantages in various fields, such as the transportation of proteins, vaccines, biocatalysts, and drugs with enhanced bioavailability. Nanosponges also contribute significantly to the treatment of breast cancer, lung cancer, fungal infection, water treatment, and topical application than other approaches. Nanosponges contain a solid, porous system in which hydrophilic or lipophilic drugs are loaded at their core in the nanocavity. All the information provided in this article was collected after analysing various reports on nanosponges available on Google Scholar, PubMed, Scopus, Web of Science, and Science Direct. It is concluded that the nanosponges have excellent aqueous solubility properties. Therefore, they can be used as carriers for drugs with poor water solubility. Moreover, greater bioavailability can be achieved by using the nanosponge approach. Nanosponges possess various outstanding properties that form the unique system of this approach. Nanosponges provide an effective carrier system for enzymes, proteins, vaccines, and therapeutic fields. This review provides a broad overview of the development of nanosponges, their evaluation, and the uses of nanosponges based on cyclodextrin for drug delivery.

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纳米海绵：一种独特的主动分子递送方法综述

许多研究人员已经做了大量的工作来开发一个针对特定地点的系统。纳米海绵是实现这一目的的系统之一，与其他方法相比具有几个优势。这篇文章的策略是提供有关纳米池系统的数据，包括其制备、评估和在各个领域的优势，如蛋白质、疫苗、生物催化剂和生物利用度提高的药物的运输。与其他方法相比，纳米海绵对乳腺癌症、癌症、真菌感染、水处理和局部应用的治疗也有显著贡献。纳米海绵包含一个固体多孔系统，在该系统中，亲水或亲脂性药物被装载在纳米腔的核心。本文中提供的所有信息都是在分析了Google Scholar、PubMed、Scopus、Web of Science和Science Direct上关于纳米池的各种报告后收集的。结果表明，纳米池具有良好的水溶性。因此，它们可以用作水溶性差的药物的载体。此外，使用纳米池方法可以获得更大的生物利用度。纳米海绵具有各种突出的特性，形成了这种方法的独特系统。纳米海绵为酶、蛋白质、疫苗和治疗领域提供了有效的载体系统。这篇综述对纳米囊的开发、评估以及基于环糊精的纳米囊在药物递送中的应用进行了广泛的综述。

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

Current Nanomaterials Materials Science-Materials Science (miscellaneous)

CiteScore

1.60

自引率

0.00%

发文量