哪些概念是生物医学研究从非人类动物模型向工程微观生理系统过渡的关键？

Q2 Social Sciences

AMA journal of ethics Pub Date : 2024-09-01 DOI:10.1001/amajethics.2024.709

Erin Sharoni

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引用次数: 0

摘要

从非人类动物模型过渡到工程微生理系统（MPS），如器官组织和芯片上器官技术，将标志着生物医学研究模式的转变。尽管 MPS 有潜力更准确地模拟人类生理学、降低药物在临床试验中的高失败率并限制不必要的动物使用，但由于公众舆论以及缺乏可扩展性、标准化和当前的监管，MPS 的广泛应用受到了阻碍。本文提出了 5 个关键概念（认知、获取、教育、应用和奖励）如何帮助解决这些障碍。这些概念是一个框架的一部分，该框架强调需要将 MPS 纳入主流生物医学研究，并更好地促进生物医学创新手段的道德责任。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Which Concepts Are Key to Transitioning From Nonhuman Animal Models to Engineered Microphysiological Systems in Biomedical Research?

A transition from nonhuman animal models to engineered microphysiological systems (MPS), such as organoids and organ-on-a-chip technologies, would signal a paradigm shift in biomedical research. Despite MPS' potential to more accurately model human physiology, reduce high failure rates of drugs in clinical trials, and limit unnecessary animal use, widespread adoption is hampered by public opinion and lack of scalability, standardization, and current regulatory uptake. This article suggests how 5 key concepts (awareness, access, education, application, and rewards) could help address these barriers. These concepts are part of a framework that underscores a need to integrate MPS into mainstream biomedical research and to better promote ethical responsibility for the means of biomedical innovation.

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来源期刊

AMA journal of ethics Social Sciences-Health (social science)

CiteScore

1.90

自引率

0.00%

发文量

146

期刊介绍： The AMA Journal of Ethics exists to help medical students, physicians and all health care professionals navigate ethical decisions in service to patients and society. The journal publishes cases and expert commentary, medical education articles, policy discussions, peer-reviewed articles for journal-based and audio CME, visuals, and more. Since its inception as an editorially-independent journal, we promote ethics inquiry as a public good.