Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics

Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics

Cardiac arrhythmias are caused by disordered propagation of electrical activity. Progress in understanding and controlling arrhythmias requires novel methods to characterize and control the spatiotemporal propagation of electrical activity. We used patterned illumination of cardiomyocytes derived...

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Bibliographic Details
Main Author: Ma, Stephen
Language:English
Published: 2018
Subjects:
Optogenetics
Arrhythmia
Heart > Electric properties
Online Access:https://doi.org/10.7916/D8M632VV
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spelling ndltd-columbia.edu-oai-academiccommons.columbia.edu-10.7916-D8M632VV2019-05-09T15:15:57ZSpatiotemporal Control of Human Cardiac Tissue Through OptogeneticsMa, Stephen2018ThesesOptogeneticsArrhythmiaHeart--Electric propertiesCardiac arrhythmias are caused by disordered propagation of electrical activity. Progress in understanding and controlling arrhythmias requires novel methods to characterize and control the spatiotemporal propagation of electrical activity. We used patterned illumination of cardiomyocytes derived from optogenetic human induced pluripotent stem cells to create dynamic conduction blocks, and to test spatially extended control schemes. Using this model, we demonstrated the ability to initiate, circumscribe, relocate, and terminate pathologic spiral waves that drive many arrhythmias. When cells were derived from patients with long QT syndrome, longer action potential durations made spiral waves more resistant to termination. This work lays the foundation for personalized models of cardiac injury and disease, and the development of tailored approaches to the management of arrhythmias.Englishhttps://doi.org/10.7916/D8M632VV
collection NDLTD
language English
sources NDLTD
topic Optogenetics
Arrhythmia
Heart--Electric properties
spellingShingle Optogenetics
Arrhythmia
Heart--Electric properties
Ma, Stephen
Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics
description Cardiac arrhythmias are caused by disordered propagation of electrical activity. Progress in understanding and controlling arrhythmias requires novel methods to characterize and control the spatiotemporal propagation of electrical activity. We used patterned illumination of cardiomyocytes derived from optogenetic human induced pluripotent stem cells to create dynamic conduction blocks, and to test spatially extended control schemes. Using this model, we demonstrated the ability to initiate, circumscribe, relocate, and terminate pathologic spiral waves that drive many arrhythmias. When cells were derived from patients with long QT syndrome, longer action potential durations made spiral waves more resistant to termination. This work lays the foundation for personalized models of cardiac injury and disease, and the development of tailored approaches to the management of arrhythmias.
author Ma, Stephen
author_facet Ma, Stephen
author_sort Ma, Stephen
title Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics
title_short Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics
title_full Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics
title_fullStr Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics
title_full_unstemmed Spatiotemporal Control of Human Cardiac Tissue Through Optogenetics
title_sort spatiotemporal control of human cardiac tissue through optogenetics
publishDate 2018
url https://doi.org/10.7916/D8M632VV
work_keys_str_mv AT mastephen spatiotemporalcontrolofhumancardiactissuethroughoptogenetics
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