Add to ORKGThe mechanical activity of the heart muscle is the response of the electrochemical processes at the myocardial cells level. The influence of the sodium, potassium and calcium ions transport through the myocyte cells membrane and the generation of the myocardial action potential on heart mechanical activity has been simulated by the numerical model
A mathematical model was derived that describes peak force of contraction as a function of stimulus ...
A model for the electromechanical activity of the heart tissue is introduced. We present a summary o...
It has been realized for a century that Ca2+ is important in the initiation and the control of mecha...
In the paper the numerical model of the electrochemical and mechanical heart activity which has been...
Electric and magnetic phenomena of living organisms and their modelling belong to great research are...
It is of enormous importance to have accurate electro-mechanical models for better understanding of ...
Motion of the heart walls is achieved by mechanical forces generated within muscles in heart wall ac...
The contributions made during the past 10 years are reviewed. Intracellular recording has made it po...
It is generally agreed that the cell membrane of cardiac fibres participates in a number of importan...
The work deals with the foundations of bioelectric phenomena cardiomyocyte, then it is also part of ...
The transverse-axial tubular system (TAT-system) of cardiac muscle is a structure that allows rapid ...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
A global model of the cardiac muscle cell is formulated, integrating the electrical and chemical dyn...
In this Master thesis we aim at studying some physiological and computational aspects of the excitat...
AbstractAn intricate network of reactions is involved in matching energy supply with demand in the h...
A mathematical model was derived that describes peak force of contraction as a function of stimulus ...
A model for the electromechanical activity of the heart tissue is introduced. We present a summary o...
It has been realized for a century that Ca2+ is important in the initiation and the control of mecha...
In the paper the numerical model of the electrochemical and mechanical heart activity which has been...
Electric and magnetic phenomena of living organisms and their modelling belong to great research are...
It is of enormous importance to have accurate electro-mechanical models for better understanding of ...
Motion of the heart walls is achieved by mechanical forces generated within muscles in heart wall ac...
The contributions made during the past 10 years are reviewed. Intracellular recording has made it po...
It is generally agreed that the cell membrane of cardiac fibres participates in a number of importan...
The work deals with the foundations of bioelectric phenomena cardiomyocyte, then it is also part of ...
The transverse-axial tubular system (TAT-system) of cardiac muscle is a structure that allows rapid ...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
A global model of the cardiac muscle cell is formulated, integrating the electrical and chemical dyn...
In this Master thesis we aim at studying some physiological and computational aspects of the excitat...
AbstractAn intricate network of reactions is involved in matching energy supply with demand in the h...
A mathematical model was derived that describes peak force of contraction as a function of stimulus ...
A model for the electromechanical activity of the heart tissue is introduced. We present a summary o...
It has been realized for a century that Ca2+ is important in the initiation and the control of mecha...