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C Antzelevitch

Showing results (41-50 of 109) with videos related to

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Circulation|October 12, 1999
Cellular basis for the Brugada syndrome and other mechanisms of arrhythmogenesis associated with ST-segment elevationG X Yan, C Antzelevitch
The American Journal of Medicine|May 10, 2001
The Brugada syndrome: clinical, genetic, cellular, and molecular abnormalitiesG V Naccarelli, C Antzelevitch
Circulation|February 1, 1993
Flecainide-induced arrhythmia in canine ventricular epicardium. Phase 2 reentry?S C Krishnan, C Antzelevitch
Circulation|January 15, 1996
Cellular basis for the electrocardiographic J waveG X Yan, C Antzelevitch
Circulation Research|March 1, 1995
Characteristics of the delayed rectifier current (IKr and IKs) in canine ventricular epicardial, midmyocardial, and endocardial myocytes. A weaker IKs contributes to the longer action potential of the M cellD W Liu, C Antzelevitch
Circulation|November 3, 1998
Cellular basis for the normal T wave and the electrocardiographic manifestations of the long-QT syndromeG X Yan, C Antzelevitch
Circulation Research|November 1, 1981
Electrotonically mediated delayed conduction and reentry in relation to "slow responses" in mammalian ventricular conducting tissueC Antzelevitch, G K Moe
The American Journal of Physiology|December 1, 1985
Phase resetting and annihilation in a mathematical model of sinus nodeV S Reiner, C Antzelevitch
The American Journal of Physiology|July 1, 1983
Electrotonic inhibition and summation of impulse conduction in mammalian Purkinje fibersC Antzelevitch, G K Moe
Circulation Research|February 1, 1986
Electrophysiological mechanisms underlying rate-dependent changes of refractoriness in normal and segmentally depressed canine Purkinje fibers. The characteristics of post-repolarization refractorinessJ M Davidenko, C Antzelevitch
Pageof 11

Showing results (41-50 of 109) with videos related to

Sort By:
Pageof 11
Circulation|October 12, 1999
Cellular basis for the Brugada syndrome and other mechanisms of arrhythmogenesis associated with ST-segment elevationG X Yan, C Antzelevitch
The American Journal of Medicine|May 10, 2001
The Brugada syndrome: clinical, genetic, cellular, and molecular abnormalitiesG V Naccarelli, C Antzelevitch
Circulation|February 1, 1993
Flecainide-induced arrhythmia in canine ventricular epicardium. Phase 2 reentry?S C Krishnan, C Antzelevitch
Circulation|January 15, 1996
Cellular basis for the electrocardiographic J waveG X Yan, C Antzelevitch
Circulation Research|March 1, 1995
Characteristics of the delayed rectifier current (IKr and IKs) in canine ventricular epicardial, midmyocardial, and endocardial myocytes. A weaker IKs contributes to the longer action potential of the M cellD W Liu, C Antzelevitch
Circulation|November 3, 1998
Cellular basis for the normal T wave and the electrocardiographic manifestations of the long-QT syndromeG X Yan, C Antzelevitch
Circulation Research|November 1, 1981
Electrotonically mediated delayed conduction and reentry in relation to "slow responses" in mammalian ventricular conducting tissueC Antzelevitch, G K Moe
The American Journal of Physiology|December 1, 1985
Phase resetting and annihilation in a mathematical model of sinus nodeV S Reiner, C Antzelevitch
The American Journal of Physiology|July 1, 1983
Electrotonic inhibition and summation of impulse conduction in mammalian Purkinje fibersC Antzelevitch, G K Moe
Circulation Research|February 1, 1986
Electrophysiological mechanisms underlying rate-dependent changes of refractoriness in normal and segmentally depressed canine Purkinje fibers. The characteristics of post-repolarization refractorinessJ M Davidenko, C Antzelevitch
Pageof 11