Berend J van Meer, Luca Sala, Leon G J Tertoolen, Godfrey L Smith, Francis L Burton, Christine L Mummery
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引用次数: 13
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Abstract
Quantification of contraction is essential to the study of cardiac diseases, injury, and responses to drugs. While there are many techniques to assess contractility, most rely on costly, dedicated hardware and advanced informatics, and can only be used in specific experimental models. We have developed an automated open-source software tool (MUSCLEMOTION) for use with standard imaging equipment, to assess contractility in vitro and in vivo and quantify responses to drugs and diseases. We describe high-speed and disturbance-free acquisition of images from either electrically paced or non-paced human pluripotent stem cell-derived cardiomyocytes, isolated adult cardiomyocytes, zebrafish hearts, and human echocardiograms. Recordings are then used as input for automated batch analysis by the MUSCLEMOTION software tool configured with specific settings and parameters tailored to the recording technique. Details on accuracy, interpretation, and troubleshooting are discussed. Acquisition duration depends on the experimental setup and aim, but quantification of drug or disease responses in an in vitro muscle model can typically be completed within a few hours. © 2018 by John Wiley & Sons, Inc.
使用MUSCLEMOTION软件量化体外和体内肌肉收缩:从干细胞衍生的心肌细胞到斑马鱼和人类心脏。
心脏收缩的量化是研究心脏疾病、损伤和对药物反应的必要条件。虽然有许多评估收缩性的技术,但大多数依赖于昂贵的专用硬件和先进的信息学,并且只能用于特定的实验模型。我们开发了一种自动化的开源软件工具(MUSCLEMOTION),用于标准成像设备,以评估体外和体内的收缩能力,并量化对药物和疾病的反应。我们描述了从电节奏或非节奏的人类多能干细胞衍生的心肌细胞、分离的成人心肌细胞、斑马鱼心脏和人类超声心动图中高速和无干扰地获取图像。然后将记录用作输入,通过配置针对记录技术的特定设置和参数的MUSCLEMOTION软件工具进行自动批处理分析。详细的准确性,解释和故障排除进行了讨论。获取时间取决于实验设置和目的,但体外肌肉模型中药物或疾病反应的量化通常可以在几个小时内完成。©2018 by John Wiley & Sons, Inc。
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