矩阵位移法matlab代码-MatlabTFM:使用Matlab的牵引力显微镜

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矩阵位移法matlab代码Matlab的TFM 包括使用PIV解决位移的牵引力显微镜（TFM）分析和解决牵引应力的ANSYS有限元分析。概述：细胞如何移动，感知和适应周围环境？通过对环境施加力（称为细胞外基质ECM）。由肌动蛋白在细胞体内相互作用产生的细胞力通过细胞骨架结构网络传输，并通过整联蛋白-配体蛋白的组装沉积到下面的/周围的底物上（称为粘着斑）。为了研究它们对生物学功能或生物学功能损伤的作用，我们是否可以量化这种力的大小来研究对不同类型细胞，不同表型的不同环境的机械React？欢迎使用牵引力显微镜！在这里，我们试图通过捕获由单元引起的弹性基板的变形来量化这些单元力，并应用线性弹性静力学理论来根据基板的变形和弹性特性图重构施加的力。过程示意图：准备TFM底物=>在底物上培养细胞（进行w / wo处理）=>捕获细胞状态（细胞img-最好是荧光）=>捕获底物变形（加载的img）=>从底物释放细胞（空img））=>量化变形=>力重构=>牵引应力/力分析。该技术的很好的评论文章：Ulrich S.SchwarzJérômeRDSoiné。软弹性基底上的牵引力显微镜：

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矩阵位移法matlab代码-MatlabTFM:使用Matlab的牵引力显微镜

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