用于类器官培养的力学生物学工程策略。

Mechanobiological engineering strategies for organoid culture.

作者信息

Taghizadeh Mohsen, Taghizadeh Ali, Kim Hye Sung

出版信息

APL Bioeng. 2025 Jul 18;9(3):031501. doi: 10.1063/5.0275439. eCollection 2025 Sep.

DOI:10.1063/5.0275439

PMID:40688244

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12276045/

Abstract

Organoid culture systems have emerged as powerful platforms for studying development, disease modeling, and regenerative medicine. However, current models primarily rely on spontaneous self-organization within biomimetic matrices such as Matrigel, which lack precise control over biomechanical cues. Recent advances in mechanobiological engineering highlight the critical role of matrix-derived physical and mechanical properties-such as adhesion presentation, stiffness, viscoelasticity, and geometry-in directing organoid morphogenesis and functional maturation. This review explores how translating biomechanics into organoid culture strategies can overcome existing limitations, enhance reproducibility, and enable the development of physiologically relevant organoid systems.

摘要

类器官培养系统已成为研究发育、疾病建模和再生医学的强大平台。然而，目前的模型主要依赖于在诸如基质胶等仿生基质内的自发自组织，而这些基质缺乏对生物力学线索的精确控制。机械生物学工程的最新进展凸显了基质衍生的物理和机械特性（如黏附表现、硬度、黏弹性和几何形状）在指导类器官形态发生和功能成熟方面的关键作用。本综述探讨了将生物力学转化为类器官培养策略如何能够克服现有局限性、提高可重复性，并促进生理相关类器官系统的发展。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8137/12276045/1b101b07fd23/ABPID9-000009-031501_1-g001.jpg

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用于类器官培养的力学生物学工程策略。

Mechanobiological engineering strategies for organoid culture.

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