体外模型在眼科给药系统开发中的作用。

IF 3 4区 医学 Q2 PHARMACOLOGY & PHARMACY
Shallu Kutlehria, Mandip Singh Sachdeva
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引用次数: 9

摘要

迫切需要生理正确,易于复制,并模拟所需组织,器官或疾病状态的特征功能的体外模型,用于眼科药物筛选以及疾病建模。迄今为止,已经开发了各种体外模型,用于应用范围从基于二维细胞培养的单层,多层或共培养模型,到三维(3D)类器官,3D打印和器官芯片系统。每个模型都有自己的优点和缺点。虽然简单的模型更容易创建,并且更快地复制,但它们缺乏对组织或其亚单位的复杂框架、功能和属性的重述。近年来技术的进步以及与组织工程的结合和微流体系统的参与为更好地模拟体内微环境提供了新的平台,从而在眼科药物开发的转变中具有潜力。在本文中,我们总结了现有的体外眼模型,并讨论了它们的适用性、缺陷和可能的未来应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of In Vitro Models for Development of Ophthalmic Delivery Systems.

There is emergent need for in vitro models which are physiologically correct, easy to reproduce, and mimic characteristic functionalities of desired tissue, organ, or diseases state for ophthalmic drug screening, as well as disease modeling. To date, a variety of in vitro models have been developed for the applications ranging from 2D cell culture-based monolayers, multilayer, or co-culture models, to 3-dimensional (3D) organoids, 3D printed and organ on chip systems. Each model has its own pros and cons. While simple models are easier to create, and faster to reproduce, they lack recapitulation of the complex framework, functionalities, and properties of tissues or their subunits. Recent advancements in technologies and integration with tissue engineering and involvement of microfluidic systems have offered novel platforms which can better mimic the in vivo microenvironment, thus possessing potential in transformation of ophthalmic drug development. In this review we summarize existing in vitro ocular models while discussing applicability, drawbacks associated with them, and possible future applications.

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来源期刊
CiteScore
5.50
自引率
18.50%
发文量
27
审稿时长
>12 weeks
期刊介绍: Therapeutic uses of a variety of drug carrier systems have significant impact on the treatment and potential cure of many chronic diseases, including cancer, diabetes mellitus, psoriasis, parkinsons, Alzheimer, rheumatoid arthritis, HIV infection, infectious diseases, asthma, and drug addiction. Scientific efforts in these areas are multidisciplinary, involving the physical, biological, medical, pharmaceutical, biological materials, and engineering fields. Articles concerning this field appear in a wide variety of journals. With the vast increase in the number of articles and the tendency to fragment science, it becomes increasingly difficult to keep abreast of the literature and to sort out and evaluate the importance and reliability of the data, especially when proprietary considerations are involved. Abstracts and noncritical articles often do not provide a sufficiently reliable basis for proper assessment of a given field without the additional perusal of the original literature. This journal bridges this gap by publishing authoritative, objective, comprehensive multidisciplinary critical review papers with emphasis on formulation and delivery systems. Both invited and contributed articles are subject to peer review.
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