The Emerging Role of Nanosuspensions for Drug Delivery and Stability

H. K. Dewangan
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引用次数: 5

Abstract

Poor solubility of some medicinal compounds is a serious challenge that can be addressed by using a nano-suspension for improved delivery. The nanoparticles enhance the bioavailability along with the aqueous solubility of the drug, which is accomplished by increasing the active surface area of the drug. The gained attention of the nanosuspension is due to its stabilization facility, which is achieved by polymers, such as polyethylene glycol (PEG), having a particular size range of 10 - 100 nm. Hence, these nanoparticles have the capacity of binding to the targeted with very low damage to the healthy tissues. These are prepared by various methods, such as milling, high-pressure homogenization, and emulsification, along with melt emulsification. Moreover, surface modification and solidification have been used to add specific properties to the advanced therapies as post-processing techniques. For many decades, it has been known that water solubility hampers the bioavailability and not all drugs are water-soluble. In order to combat this obstacle, nanotechnology has been found to be of specific interest. For elevating the bioavailability by increasing the dissolution rate, the methodology of reduction of the associated drug particles into their subsequent submicron range is incorporated. For oral and non-oral administration, these nanosuspension formulations are used for the delivery of drugs.
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纳米悬浮液在药物递送和稳定性方面的新作用
一些药物化合物的溶解性差是一个严重的挑战,可以通过使用纳米悬浮液来改善递送来解决。纳米颗粒提高了药物的生物利用度和水溶性,这是通过增加药物的活性表面积来实现的。纳米悬浮液之所以受到关注,是因为它的稳定功能是通过聚合物实现的,例如聚乙二醇(PEG),其特定尺寸范围为10-100nm。因此,这些纳米颗粒具有与靶结合的能力,对健康组织的损伤非常低。这些是通过各种方法制备的,如研磨、高压均化、乳化以及熔体乳化。此外,表面改性和固化已被用于为先进疗法添加特定特性,作为后处理技术。几十年来,人们已经知道水溶性阻碍了生物利用度,并且并非所有药物都是水溶性的。为了克服这一障碍,人们发现纳米技术具有特殊的兴趣。为了通过提高溶解速率来提高生物利用度,引入了将相关药物颗粒减少到其随后的亚微米范围的方法。对于口服和非口服给药,这些纳米混悬剂制剂用于药物递送。
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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
期刊最新文献
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