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Frontiers in Pharmacology
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April 19, 2014
Numerical Modeling Calcium and CaMKII Effects in the SA Node
Yael Yaniv, Victor A Maltsev
Cardiovascular & Hematological Agents in Medicinal Chemistry
|
October 16, 2008
Late sodium current is a new therapeutic target to improve contractility and rhythm in failing heart
Albertas Undrovinas, Victor A Maltsev
Progress in Biophysics and Molecular Biology
|
September 15, 2007
Late sodium current in failing heart: friend or foe?
Victor A Maltsev, Albertas Undrovinas
American Journal of Physiology. Heart and Circulatory Physiology
|
March 16, 2010
A novel quantitative explanation for the autonomic modulation of cardiac pacemaker cell automaticity via a dynamic system of sarcolemmal and intracellular proteins
Victor A Maltsev, Edward G Lakatta
Cardiovascular Research
|
October 15, 2005
A multi-modal composition of the late Na+ current in human ventricular cardiomyocytes
Victor A Maltsev, Albertas I Undrovinas
Heart, Lung & Circulation
|
September 11, 2007
Normal heart rhythm is initiated and regulated by an intracellular calcium clock within pacemaker cells
Victor A Maltsev, Edward G Lakatta
American Journal of Physiology. Heart and Circulatory Physiology
|
January 13, 2009
Synergism of coupled subsarcolemmal Ca2+ clocks and sarcolemmal voltage clocks confers robust and flexible pacemaker function in a novel pacemaker cell model
Victor A Maltsev, Edward G Lakatta
Journal of Molecular and Cellular Cardiology
|
December 26, 2006
Cardiac pacemaker cell failure with preserved I(f), I(CaL), and I(Kr): a lesson about pacemaker function learned from ischemia-induced bradycardia
Victor A Maltsev, Edward G Lakatta
Heart Rhythm
|
February 5, 2010
Yin and yang of the cardiac pacemaker clock system in health and disease
Victor A Maltsev, Edward G Lakatta
Journal of Molecular and Cellular Cardiology
|
March 20, 2013
Numerical models based on a minimal set of sarcolemmal electrogenic proteins and an intracellular Ca(2+) clock generate robust, flexible, and energy-efficient cardiac pacemaking
Victor A Maltsev, Edward G Lakatta
Page
of 9
Search research articles
Search
Showing results (1-10 of 88) with videos related to
Sort By:
Page
of 9
Frontiers in Pharmacology
|
April 19, 2014
Numerical Modeling Calcium and CaMKII Effects in the SA Node
Yael Yaniv, Victor A Maltsev
Cardiovascular & Hematological Agents in Medicinal Chemistry
|
October 16, 2008
Late sodium current is a new therapeutic target to improve contractility and rhythm in failing heart
Albertas Undrovinas, Victor A Maltsev
Progress in Biophysics and Molecular Biology
|
September 15, 2007
Late sodium current in failing heart: friend or foe?
Victor A Maltsev, Albertas Undrovinas
American Journal of Physiology. Heart and Circulatory Physiology
|
March 16, 2010
A novel quantitative explanation for the autonomic modulation of cardiac pacemaker cell automaticity via a dynamic system of sarcolemmal and intracellular proteins
Victor A Maltsev, Edward G Lakatta
Cardiovascular Research
|
October 15, 2005
A multi-modal composition of the late Na+ current in human ventricular cardiomyocytes
Victor A Maltsev, Albertas I Undrovinas
Heart, Lung & Circulation
|
September 11, 2007
Normal heart rhythm is initiated and regulated by an intracellular calcium clock within pacemaker cells
Victor A Maltsev, Edward G Lakatta
American Journal of Physiology. Heart and Circulatory Physiology
|
January 13, 2009
Synergism of coupled subsarcolemmal Ca2+ clocks and sarcolemmal voltage clocks confers robust and flexible pacemaker function in a novel pacemaker cell model
Victor A Maltsev, Edward G Lakatta
Journal of Molecular and Cellular Cardiology
|
December 26, 2006
Cardiac pacemaker cell failure with preserved I(f), I(CaL), and I(Kr): a lesson about pacemaker function learned from ischemia-induced bradycardia
Victor A Maltsev, Edward G Lakatta
Heart Rhythm
|
February 5, 2010
Yin and yang of the cardiac pacemaker clock system in health and disease
Victor A Maltsev, Edward G Lakatta
Journal of Molecular and Cellular Cardiology
|
March 20, 2013
Numerical models based on a minimal set of sarcolemmal electrogenic proteins and an intracellular Ca(2+) clock generate robust, flexible, and energy-efficient cardiac pacemaking
Victor A Maltsev, Edward G Lakatta
Page
of 9