肌肉注射部位事件的体外建模。

Expert opinion on drug delivery Pub Date : 2024-08-01 Epub Date: 2024-08-17 DOI:10.1080/17425247.2024.2388841
Adam J S McCartan, Randall J Mrsny
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引用次数: 0

摘要

简介:肌肉注射(IM)可输送大量药物。大多数与肌肉注射相关的文献都详细介绍了溶解和/或药代动力学(PK)研究,使用的方法对注射后事件的评估有限,而这些事件可能会影响药物的命运和吸收参数。临床前动物模型无法与临床结果相关联,这突出表明有必要使用仿真人体注射部位的定制模型,在体外研究和了解 IM 药物的转归。IM注射后事件,即影响PK结果的潜在过程,仍未被认识,这使体外方法在临床前药物开发中的应用变得更加复杂。了解这些事件可以为预测和调节人体IM药物命运的方法提供指导:本文综述了生物相关即时注射部位建模(即药物转归结果建模)的挑战、开发即时注射剂可用技术的价值、研究药物转归的方法以及进行即时注射给药培训的技术。PubMed、Web-of-Science 和 Lens 数据库提供了 2014 年至 2024 年间发表的论文:即时注射药物研究正在扩大注射疗法的范围。然而,人们对影响 PK 结果的注射后事件仍然知之甚少。在解决这些问题之前,IM 药物开发的进步将无法实现其全部潜力。
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In vitro modelling of intramuscular injection site events.

Introduction: Intramuscular (IM) injections deliver a plethora of drugs. The majority of IM-related literature details dissolution and/or pharmacokinetic (PK) studies, using methods with limited assessments of post-injection events that can impact drug fate, and absorption parameters. Food and Drug Association guidelines no longer require preclinical in vivo modeling in the U.S.A. Preclinical animal models fail to correlate with clinical outcomes, highlighting the need to study, and understand, IM drug fate in vitro using bespoke models emulating human IM sites. Post-IM injection events, i.e. underlying processes that influence PK outcomes, remain unacknowledged, complicating the application of in vitro methods in preclinical drug development. Understanding such events could guide approaches to predict and modulate IM drug fate in humans.

Areas covered: This article reviews challenges in biorelevant IM site modeling (i.e. modeling drug fate outcomes), the value of technologies available for developing IM injectables, methods for studying drug fate, and technologies for training in performing IM administrations. PubMed, Web-of-Science, and Lens databases provided papers published between 2014 and 2024.

Expert opinion: IM drug research is expanding what injectable therapeutics can achieve. However, post-injection events that influence PK outcomes remain poorly understood. Until addressed, advances in IM drug development will not realize their full potential.

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