肺部疾病吸入药物颗粒大小和颗粒沉积的影响:综述

Kiran Dudhat, H. Patel
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引用次数: 0

摘要

小于5µm的药物颗粒在肺内沉积的可能性最大,而小于2µm的药物颗粒则倾向于在肺泡内集中。在吸入药物释放的剂量中,有很大比例的颗粒在2-5 μm范围内,在肺部的分布相对均匀。吸入治疗的有效需求在很大程度上取决于给药方法的本质和患者正确使用系统的能力。市场上有各种各样的吸入器产品,每种产品都有积极和消极的方面。它有利于较低剂量的施用;它起效快,副作用小。吸入药物在肺中的沉积取决于颗粒大小、吸入技术和吸入器装置的类型。颗粒粒径分布及空气动力学直径的重要性、环境湿度对颗粒粒径的影响、颗粒在气道中的沉积、肺内药物沉积的鉴别方法、影响肺给药疗效的生理因素。纳米和微米大小的颗粒是治疗多种肺部疾病的主要手段,因为它们提供了一个平台,可以直接、可靠、廉价地将药物输送到疾病部位,从而允许使用最少的药物,并将副作用降到最低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Particle Size and Particle Deposition of Inhaled Medication in Lung Disease: A Comrehensive Review
Drug particles less than 5 µm have the greatest probability of deposition in the lung, whereas those less than 2 µm tend to be concentrated in the alveoli. A large proportion of particles within the 2-5 μm range are present in the dose released from the inhaled drug, providing a relatively even distribution across the lungs. The efficient need for inhaled therapy highly depends on the essence of the method of drug delivery and the patient's ability to correctly use the system. A large range of inhaler products, each with positive and negative aspects, are on the market. It facilitates the administration of a lower dose; there is a quicker onset of action and less severe side effects. The deposition of the inhaled drug in the lung is dependent on particle size, inhalation technique and the type of inhaler device. Importance of particle size distribution and Particle aerodynamic diameter, Influence of environmental humidity on particle size Particle deposition in the airways, Methods to identify drug deposition in lungs, Physiological factors which affect the therapeutic efficacy of pulmonary delivery drugs. The nano and micro size particles is a mainstay of treatment for a variety of pulmonary diseases because they provide a platform to deliver drugs directly reliably and inexpensively to the disease site, thus allowing for a minimum amount of drug to be used and minimize side effects.
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