A Recent Review on Nanocrystal Manufacturing Techniques with Pharmaceutical Application

Q3 Medicine
Prachiti Rathod, Minal Narkhede, Suraj Dongare
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引用次数: 0

Abstract

This review article constitutes an introductory report on nanotechnology focusing on the various manufacturing approaches of nanocrystals. Nanocrystals are a solid form to tackle the issue identified with poor fluid solvency. Hence, it is a useful technique in improving the bioa-vailability of various poorly soluble drugs. On a broader way, nanocrystal technology is mainly classified as top-down technology, bottom-up technology and a combination of top-down and bottom-up technology. Top-down technology is based on the principle of breaking down a com-plex into small crystals. This process is executed by using high-pressure homogenization, laser ablation, media mills, ultrasound technology, vacuum dissolution, gas condensation and mechani-cal attrition. Bottom-up technology is based on the principle of preparation by gathering at-oms/molecules together. It is achieved by using precipitation, supercritical fluid, gel-gel technol-ogy, spray drying, hydrolysis, and condensation. Due to the diverse characteristics and properties of drugs, a combination of top-down and bottom-up techniques is best for manufacturing nano-crystals. Some of the promising technique includes nano-edge technology and smart-crystal tech-nology. These techniques are discussed in this review.
纳米晶体制造技术与制药应用的最新综述
这篇综述文章是关于纳米技术的介绍性报告,重点是纳米晶体的各种制造方法。纳米晶体是一种固体形式,可解决液体溶解性差的问题。因此,它是改善各种难溶性药物生物可用性的有用技术。从广义上讲,纳米晶体技术主要分为自上而下技术、自下而上技术以及自上而下和自下而上技术的结合。自上而下技术的原理是将复合物分解成小晶体。这一过程通过高压均质、激光烧蚀、介质研磨、超声波技术、真空溶解、气体冷凝和机械研磨来实现。自下而上技术的制备原理是将原子/分子聚集在一起。它通过使用沉淀、超临界流体、凝胶-凝胶技术、喷雾干燥、水解和缩合来实现。由于药物的特性和属性多种多样,因此最好结合自上而下和自下而上的技术来制造纳米晶体。一些有前景的技术包括纳米边缘技术和智能晶体技术。本综述将讨论这些技术。
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 Nanomedicine
Current Nanomedicine Medicine-Medicine (miscellaneous)
CiteScore
2.00
自引率
0.00%
发文量
15
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