Advances in micropatterning technology for mechanotransduction research

Mechanobiology in Medicine Pub Date : 2024-03-28 DOI:10.1016/j.mbm.2024.100066

Xinyu Hu , Min Bao

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Abstract

Micropatterning is a sophisticated technique that precisely manipulates the spatial distribution of cell adhesion proteins on various substrates across multiple scales. This precise control over adhesive regions facilitates the manipulation of architectures and physical constraints for single or multiple cells. Furthermore, it allows for an in-depth analysis of how chemical and physical properties influence cellular functionality. In this comprehensive review, we explore the current understanding of the impact of geometrical confinement on cellular functions across various dimensions, emphasizing the benefits of micropatterning in addressing fundamental biological queries. We advocate that utilizing directed self-organization via physical confinement and morphogen gradients on micropatterned surfaces represents an innovative approach to generating functional tissue and controlling morphogenesis in vitro. Integrating this technique with cutting-edge technologies, micropatterning presents a significant potential to bridge a crucial knowledge gap in understanding core biological processes.

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用于机械传导研究的微图案技术进展

微图案技术是一种复杂的技术，可在多个尺度上精确控制细胞粘附蛋白在各种基底上的空间分布。这种对粘附区域的精确控制有助于操纵单个或多个细胞的结构和物理约束。此外，它还能深入分析化学和物理特性如何影响细胞功能。在这篇综述中，我们探讨了目前对几何限制对不同维度细胞功能影响的理解，强调了微图案化在解决基本生物学问题方面的益处。我们认为，通过微图案表面上的物理限制和形态发生梯度利用定向自组织，是在体外生成功能组织和控制形态发生的一种创新方法。将这一技术与前沿科技相结合，微图案化技术在弥合理解核心生物过程的关键知识差距方面具有巨大潜力。

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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Mechanobiology in Medicine

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