自动运动估计并应用于 hiPSC-CMs

Henrik Finsberg, Verena Charwat, Kevin Healy, Samuel Wall
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引用次数: 0

摘要

人诱导多能干细胞衍生的心肌细胞(hiPSC-CMs)是研究心脏功能和疾病的有效工具,并有望用于筛选药物对人体组织的影响。这些细胞运动模式的变化是了解药物或疾病如何改变人体心脏跳动的重要特征之一。然而,目前还缺乏利用显微镜从光学测量中准确有效地量化运动的方法。在这项工作中,我们提出了一个统一的框架,用于对显微镜下获得的由 hiPSC-CMs 组成的组织图像序列进行运动分析。我们使用一个合成测试案例对所开发的软件进行了验证,并展示了该软件如何用于提取 hiPSC-CM 显微组织中的位移和速度。最后,我们展示了如何应用该框架来量化肌张力化合物的影响。所描述的软件系统以 python 软件包的形式发布,安装简单、测试良好,可以集成到任何 python 工作流程中。
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Automatic motion estimation with applicationsto hiPSC-CMs
Human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) are an effective tool for studying cardiac function and disease, and hold promise for screening drug effects on human tissue. Changes to motion patterns in these cells are one of the important features to be characterized to understand how an introduced drug or disease may alter the human heart beat. However, quantifying motion accurately and efficiently from optical measurements using microscopy is currently lacking. In this work, we present a unified framework for performing motion analysis on a sequence of microscopically obtained images of tissues consisting of hiPSC-CMs. We provide validation of our developed software using a synthetic test case and show how it can be used to extract displacements and velocities in hiPSC-CM microtissues. Finally, we show how to apply the framework to quantify the effect of an inotropic compound. The described software system is distributed as a python package that is easy to install, well tested and can be integrated into any python workflow.
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