特洛伊微粒:一种复合纳米粒子输送系统

IF 0.3 Q4 PHARMACOLOGY & PHARMACY
S. Shukla, Vinay Pandit
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引用次数: 0

摘要

近年来,微粒系统作为一种将细胞、蛋白质和药物输送到靶区的可行策略,引起了越来越多的关注。微颗粒系统中的纳米颗粒(NiMS)是一种药物递送方法,它将纳米颗粒和微米颗粒相结合,将药物或基因精确地递送到特定的身体区域。在配方中实现双重或多重功能的一种有前途的方法是开发微粒系统中的纳米颗粒(NiMS)。NiMS包括微粒(M.P.)基质和一种或多种纳米颗粒(N.P.s)。N.P.s可设计用于提供特定功能,如靶向药物递送或成像,而M.P.基质可定制用于提供持续释放或保护N.P.s免受降解。与传统配方相比,NiMS提供了几个优势,包括控制释放特性和实现位点特异性递送的能力。通过结合不同类型的N.P.s和M.P.s,可以创造出以不同速率或不同动力学释放药物的制剂,从而实现量身定制的治疗方案。此外,通过降低脱靶效应和提高疗效,NiMS提供的位点特异性靶向可以提高药物的治疗指数。微粒是微米大小的小颗粒,可以装载治疗剂,并将其输送到体内的特定组织。制药部门正在开发用于口服、肺部和皮肤给药的微粒递送系统。例如,一种治疗呼吸系统疾病(包括哮喘和慢性阻塞性肺病)的有前景的策略是开发可吸入微粒(COPD)。此外,正在研究微粒用于局部给药的用途,可以将其配制成乳膏、凝胶或贴片,用于治疗皮肤疾病。微粒的组成对于成功的组织再生至关重要,因为微粒必须具有生物相容性,并且能够与靶组织中的细胞相互作用。此外,颗粒的大小和形状会影响它们的行为以及它们如何与细胞相互作用。化学和生物传感器和设备、光学探测器、电子元件以及纳米级生产都依赖于纳米结构,因为它们具有独特的特性,如增加的表面积和增强的反应性,可以用来制造更高效的设备。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trojan microparticles: A composite nanoparticle delivery system
In recent years, microparticulate systems have drawn growing attention as a viable strategy for delivering cells, proteins, and medications to target areas. The Nanoparticles-in-Microparticles System (NiMS) is a drug delivery method that combines nano- and microparticles to deliver medications or genes to particular bodily regions with precision. A promising method for achieving dual or multiple functions inside a formulation is the development of nanoparticle-in-microparticle systems (NiMS). NiMS comprises a microparticle (M.P.) matrix and one or more nanoparticles (N.P.s). The N.P.s can be designed to provide specific functionality, such as targeted drug delivery or imaging, while the M.P. matrix can be tailored to provide sustained release or protect the N.P.s from degradation. NiMS offer several advantages over traditional formulations, including the ability to control release profiles and achieve site-specific delivery. By combining different types of N.P.s and M.P.s, it is possible to create formulations that release drugs at different rates or with different kinetics, allowing for tailored treatment regimens. Additionally, by lowering off-target effects and boosting efficacy, the site-specific targeting offered by NiMS can enhance the therapeutic index of medications. Microparticles are small, micron-sized particles that can be loaded with therapeutic agents and designed to deliver them to specific tissues in the body. The pharmaceutical sector is developing microparticulate delivery systems for oral, pulmonary, and cutaneous administration. For instance, a promising strategy for treating respiratory conditions, including asthma and chronic obstructive pulmonary disease, is the development of inhalable microparticles (COPD). Moreover, the use of microparticles for topical drug delivery is being studied, where they can be formulated into creams, gels, or patches for treating skin disorders. The composition of microparticles is crucial for successful tissue regeneration because the particles must be biocompatible and able to interact with the cells in the targeted tissue. In addition, the size and shape of the particles can affect their behavior and how they interact with cells. Chemical and biological sensors and devices, optical detectors, electronic components, and nanoscale production depend on nanostructures because they offer unique properties, such as increased surface area and enhanced reactivity, which can be exploited to create more efficient and effective devices.
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来源期刊
Current Drug Therapy
Current Drug Therapy PHARMACOLOGY & PHARMACY-
CiteScore
1.30
自引率
0.00%
发文量
50
期刊介绍: Current Drug Therapy publishes frontier reviews of high quality on all the latest advances in drug therapy covering: new and existing drugs, therapies and medical devices. The journal is essential reading for all researchers and clinicians involved in drug therapy.
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