Authors
Nathaniel Huebsch, Peter Loskill, Mohammad A Mandegar, Natalie C Marks, Alice S Sheehan, Zhen Ma, Anurag Mathur, Trieu N Nguyen, Jennie C Yoo, Luke M Judge, C Ian Spencer, Anand C Chukka, Caitlin R Russell, Po-Lin So, Bruce R Conklin, Kevin E Healy
Publication date
2015/5/1
Journal
Tissue Engineering Part C: Methods
Volume
21
Issue
5
Pages
467-479
Publisher
Mary Ann Liebert, Inc.
Description
Contractile motion is the simplest metric of cardiomyocyte health in vitro, but unbiased quantification is challenging. We describe a rapid automated method, requiring only standard video microscopy, to analyze the contractility of human-induced pluripotent stem cell-derived cardiomyocytes (iPS-CM). New algorithms for generating and filtering motion vectors combined with a newly developed isogenic iPSC line harboring genetically encoded calcium indicator, GCaMP6f, allow simultaneous user-independent measurement and analysis of the coupling between calcium flux and contractility. The relative performance of these algorithms, in terms of improving signal to noise, was tested. Applying these algorithms allowed analysis of contractility in iPS-CM cultured over multiple spatial scales from single cells to three-dimensional constructs. This open source software was validated with analysis of isoproterenol …
Scholar articles
N Huebsch, P Loskill, MA Mandegar, NC Marks… - Tissue Engineering Part C: Methods, 2015