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Hee Cheol Cho

Showing results (21-30 of 55) with videos related to

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Heart Rhythm|April 24, 2012
Biological pacemaker created by percutaneous gene delivery via venous catheters in a porcine model of complete heart blockEugenio Cingolani, Kristine Yee, Michael Shehata, et al.
Circulation. Arrhythmia and Electrophysiology|October 1, 2021
Implementing Biological Pacemakers: Design Criteria for SuccessfulElizabeth R Komosa, David W Wolfson, Michael Bressan, et al.
Circulation Research|June 9, 2007
Gene therapy to inhibit the calcium channel beta subunit: physiological consequences and pathophysiological effects in models of cardiac hypertrophyEugenio Cingolani, Genaro A Ramirez Correa, Eddy Kizana, et al.
Scientific Reports|November 19, 2025
A highly effective, rodent model of complete heart block by epicardial radiofrequency ablationAlexander N Weltz, Lea Fortuno-Miranda, Aravindan Kolandaivelu, et al.
Experimental & Molecular Medicine|September 15, 2019
Induced cardiac pacemaker cells survive metabolic stress owing to their low metabolic demandJin-Mo Gu, Sandra I Grijalva, Natasha Fernandez, et al.
Stem Cell Reports|December 24, 2014
SHOX2 overexpression favors differentiation of embryonic stem cells into cardiac pacemaker cells, improving biological pacing abilityVittoria Ionta, Wenbin Liang, Elizabeth H Kim, et al.
Frontiers in Physiology|February 28, 2022
Methodology for Cross-Talk Elimination in Simultaneous Voltage and Calcium Optical Mapping Measurements With Semasbestic WavelengthsIlija Uzelac, Christopher J Crowley, Shahriar Iravanian, et al.
The Journal of General Physiology|April 13, 2005
Conduction through the inward rectifier potassium channel, Kir2.1, is increased by negatively charged extracellular residuesNazzareno D'Avanzo, Hee Cheol Cho, Illya Tolokh, et al.
Circulation Research|July 3, 2004
Selective inhibition of inward rectifier K+ channels (Kir2.1 or Kir2.2) abolishes protection by ischemic preconditioning in rabbit ventricular cardiomyocytesRoberto J Diaz, Carsten Zobel, Hee Cheol Cho, et al.
ACS Nano|March 24, 2022
DNA Tension Probes Show that Cardiomyocyte Maturation Is Sensitive to the Piconewton Traction Forces Transmitted by IntegrinsSk Aysha Rashid, Aaron T Blanchard, J Dale Combs, et al.
Pageof 6

Showing results (21-30 of 55) with videos related to

Sort By:
Pageof 6
Heart Rhythm|April 24, 2012
Biological pacemaker created by percutaneous gene delivery via venous catheters in a porcine model of complete heart blockEugenio Cingolani, Kristine Yee, Michael Shehata, et al.
Circulation. Arrhythmia and Electrophysiology|October 1, 2021
Implementing Biological Pacemakers: Design Criteria for SuccessfulElizabeth R Komosa, David W Wolfson, Michael Bressan, et al.
Circulation Research|June 9, 2007
Gene therapy to inhibit the calcium channel beta subunit: physiological consequences and pathophysiological effects in models of cardiac hypertrophyEugenio Cingolani, Genaro A Ramirez Correa, Eddy Kizana, et al.
Scientific Reports|November 19, 2025
A highly effective, rodent model of complete heart block by epicardial radiofrequency ablationAlexander N Weltz, Lea Fortuno-Miranda, Aravindan Kolandaivelu, et al.
Experimental & Molecular Medicine|September 15, 2019
Induced cardiac pacemaker cells survive metabolic stress owing to their low metabolic demandJin-Mo Gu, Sandra I Grijalva, Natasha Fernandez, et al.
Stem Cell Reports|December 24, 2014
SHOX2 overexpression favors differentiation of embryonic stem cells into cardiac pacemaker cells, improving biological pacing abilityVittoria Ionta, Wenbin Liang, Elizabeth H Kim, et al.
Frontiers in Physiology|February 28, 2022
Methodology for Cross-Talk Elimination in Simultaneous Voltage and Calcium Optical Mapping Measurements With Semasbestic WavelengthsIlija Uzelac, Christopher J Crowley, Shahriar Iravanian, et al.
The Journal of General Physiology|April 13, 2005
Conduction through the inward rectifier potassium channel, Kir2.1, is increased by negatively charged extracellular residuesNazzareno D'Avanzo, Hee Cheol Cho, Illya Tolokh, et al.
Circulation Research|July 3, 2004
Selective inhibition of inward rectifier K+ channels (Kir2.1 or Kir2.2) abolishes protection by ischemic preconditioning in rabbit ventricular cardiomyocytesRoberto J Diaz, Carsten Zobel, Hee Cheol Cho, et al.
ACS Nano|March 24, 2022
DNA Tension Probes Show that Cardiomyocyte Maturation Is Sensitive to the Piconewton Traction Forces Transmitted by IntegrinsSk Aysha Rashid, Aaron T Blanchard, J Dale Combs, et al.
Pageof 6