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Journal of the American College of Cardiology
|
February 12, 2013
HCN2/SkM1 gene transfer into canine left bundle branch induces stable, autonomically responsive biological pacing at physiological heart rates
Gerard J J Boink, Lian Duan, Bruce D Nearing, et al.
Circulation. Arrhythmia and Electrophysiology
|
May 14, 2017
Induced Pluripotent Stem Cell-Derived Cardiomyocytes Provide In Vivo Biological Pacemaker Function
Samuel Chauveau, Evgeny P Anyukhovsky, Meital Ben-Ari, et al.
Heart Rhythm
|
April 14, 2010
Cardiac expression of skeletal muscle sodium channels increases longitudinal conduction velocity in the canine 1-week myocardial infarction
Ruben Coronel, David H Lau, Eugene A Sosunov, et al.
Circulation
|
December 24, 2008
Epicardial border zone overexpression of skeletal muscle sodium channel SkM1 normalizes activation, preserves conduction, and suppresses ventricular arrhythmia: an in silico, in vivo, in vitro study
David H Lau, Chris Clausen, Eugene A Sosunov, et al.
Cardiovascular Research
|
March 1, 2012
SkM1 and Cx32 improve conduction in canine myocardial infarcts yet only SkM1 is antiarrhythmic
Gerard J J Boink, David H Lau, Iryna N Shlapakova, et al.
Circulation. Arrhythmia and Electrophysiology
|
June 23, 2012
Effect of skeletal muscle Na(+) channel delivered via a cell platform on cardiac conduction and arrhythmia induction
Gerard J J Boink, Jia Lu, Helen E Driessen, et al.
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Search research articles
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Showing results (41-50 of 46) with videos related to
Sort By:
Page
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You have reached the last page of results.
This site can display upto 46 results.
Journal of the American College of Cardiology
|
February 12, 2013
HCN2/SkM1 gene transfer into canine left bundle branch induces stable, autonomically responsive biological pacing at physiological heart rates
Gerard J J Boink, Lian Duan, Bruce D Nearing, et al.
Circulation. Arrhythmia and Electrophysiology
|
May 14, 2017
Induced Pluripotent Stem Cell-Derived Cardiomyocytes Provide In Vivo Biological Pacemaker Function
Samuel Chauveau, Evgeny P Anyukhovsky, Meital Ben-Ari, et al.
Heart Rhythm
|
April 14, 2010
Cardiac expression of skeletal muscle sodium channels increases longitudinal conduction velocity in the canine 1-week myocardial infarction
Ruben Coronel, David H Lau, Eugene A Sosunov, et al.
Circulation
|
December 24, 2008
Epicardial border zone overexpression of skeletal muscle sodium channel SkM1 normalizes activation, preserves conduction, and suppresses ventricular arrhythmia: an in silico, in vivo, in vitro study
David H Lau, Chris Clausen, Eugene A Sosunov, et al.
Cardiovascular Research
|
March 1, 2012
SkM1 and Cx32 improve conduction in canine myocardial infarcts yet only SkM1 is antiarrhythmic
Gerard J J Boink, David H Lau, Iryna N Shlapakova, et al.
Circulation. Arrhythmia and Electrophysiology
|
June 23, 2012
Effect of skeletal muscle Na(+) channel delivered via a cell platform on cardiac conduction and arrhythmia induction
Gerard J J Boink, Jia Lu, Helen E Driessen, et al.
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of 5