Activation, Metabolism and Perfusion of the Heart: Simulation and Experimental ModelsS. Sideman, Rafael Beyar |
Contents
The role of the interstitial space in electrical models of cardiac sources | 29 |
Effects of the discrete cellular structure on electrical propagation | 61 |
Electrical field model for electric interactions between myocardial | 77 |
Copyright | |
34 other sections not shown
Other editions - View all
Activation, Metabolism and Perfusion of the Heart: Simulation and ... S. Sideman,Rafael Beyar Limited preview - 2012 |
Activation, Metabolism and Perfusion of the Heart: Simulation and ... S. Sideman,Rafael Beyar No preview available - 2011 |
Common terms and phrases
activation analysis anisotropic aortic atrial blood flow bundle Ca2+ calcium canine capacitance capillary cardiac muscle cells changes Circ Res circuit Circulation cleft concentration conduction velocity constant contractile contraction coronary artery coronary circulation curve decrease depolarization diastolic disc resistance dogs effect electrical electrode end-systolic pressure-volume relation endocardial endocardium epicardial equations excitable gap experimental extracellular Figure function heart hemodynamic hypoxia increase infarction intercalated disks intramyocardial ischemia ischemic isolated isovolumic K+ accumulation layers left ventricle left ventricular length length constant longitudinal measured mechanical membrane metabolic msec myocardial myocardium myocytes normal occlusion ouabain oxygen panel papillary muscle parameters perfusion pericardium Physiol pressure Purkinje fibers ratio reentrant reentry regional relationship right ventricular sarcomere shortening shown simulation Sperelakis stress studies stunned myocardium subendocardial surface systolic tion tissue transmembrane transmural transverse Tyrode's solution values vasodilator venous ventricular pacing voltage volume waveforms