Add to ORKGIn this thesis, we study the nonlinear dynamics of calcium cycling within a cardiac cell. We develop piecewise smooth mapping models to describe intracellular calcium cycling in cardiac myocyte. Then, border-collision bifurcations that arise in these piecewise maps are investigated. These studies are carried out using both one-dimensional and two-dimensional models. Studies in this work lead to interesting insights on the stability of cardiac dynamics, suggesting possible mechanisms for cardiac alternans. Alternans is the precursor of sudden cardiac arrests, a leading cause of death in the United States
In this study, we analyze a nonlinear map model of intracellular calcium (Ca) and voltage in cardiac...
AbstractThe degeneration of a regular heart rhythm into fibrillation (a chaotic or chaos-like sequen...
Contraction of cardiac cells is initiated by an increase in the level of intracellular calcium conce...
Understanding the biology and mechanisms as to how the heart contracts has long been a point of inte...
The relationship between alternations in cardiac contractions, known as alternans, and the dynamics ...
AbstractWe present a mathematical model of calcium cycling that takes into account the spatially loc...
Heart disease is the leading cause of mortality in the United States. One cause of heart arrhythmia ...
Cardiac alternans is a beat-to-beat alternation in action potential duration (APD) and intracellular...
Cardiac myocytes are excitable cells in which an external current stimulus depolarizes the membr...
Cardiac alternans, in which the membrane potential and the intracellular calcium concentration exhib...
In cardiac myocytes, calcium cycling links the dynamics of the membrane potential to the activation ...
During a single heartbeat, muscle cells in the heart contract and relax. Under healthy conditions, t...
Intracellular calcium (Ca) cycling dynamics in cardiac myocytes is regulated by a complex network of...
Cardiac Arrhythmia is a leading cause of death in the western industrialized world. To date, multipl...
Intracellular calcium (Ca) cycling dynamics in cardiac myocytes is regulated by a complex network of...
In this study, we analyze a nonlinear map model of intracellular calcium (Ca) and voltage in cardiac...
AbstractThe degeneration of a regular heart rhythm into fibrillation (a chaotic or chaos-like sequen...
Contraction of cardiac cells is initiated by an increase in the level of intracellular calcium conce...
Understanding the biology and mechanisms as to how the heart contracts has long been a point of inte...
The relationship between alternations in cardiac contractions, known as alternans, and the dynamics ...
AbstractWe present a mathematical model of calcium cycling that takes into account the spatially loc...
Heart disease is the leading cause of mortality in the United States. One cause of heart arrhythmia ...
Cardiac alternans is a beat-to-beat alternation in action potential duration (APD) and intracellular...
Cardiac myocytes are excitable cells in which an external current stimulus depolarizes the membr...
Cardiac alternans, in which the membrane potential and the intracellular calcium concentration exhib...
In cardiac myocytes, calcium cycling links the dynamics of the membrane potential to the activation ...
During a single heartbeat, muscle cells in the heart contract and relax. Under healthy conditions, t...
Intracellular calcium (Ca) cycling dynamics in cardiac myocytes is regulated by a complex network of...
Cardiac Arrhythmia is a leading cause of death in the western industrialized world. To date, multipl...
Intracellular calcium (Ca) cycling dynamics in cardiac myocytes is regulated by a complex network of...
In this study, we analyze a nonlinear map model of intracellular calcium (Ca) and voltage in cardiac...
AbstractThe degeneration of a regular heart rhythm into fibrillation (a chaotic or chaos-like sequen...
Contraction of cardiac cells is initiated by an increase in the level of intracellular calcium conce...