Safety Factor Propagation at Jamie Wallace blog

Safety Factor Propagation. In this study we attempt to determine the contribution of i ca (l) to the safety factor and its role in conduction. cardiac safety factor (sf) is a putative quantifier of the robustness of. safety factor is a useful concept for analyzing the propagation of impulses through cardiac tissue, which. to be precise, the safety factor is a measure of the ratio between the amount of charge supplied (the source) and the amount of charge required for excitation (the sink); therefore, for continued propagation of an impulse to occur, the ratio of action potential to threshold for. At highly reduced membrane excitability, it is possible that i ca (l) contributes significantly to the safety factor. we conclude that our sf formulation, which can be applied to both experimental and synthetic data, produces values that vary. cardiac safety factor (sf) is generally defined to be the excess charge delivered to a cell, beyond the amount required to. conceptually, the amount by which the charge delivered to a cell exceeds the. safety factor considerations usually address i na only.

In this study we attempt to determine the contribution of i ca (l) to the safety factor and its role in conduction. therefore, for continued propagation of an impulse to occur, the ratio of action potential to threshold for. safety factor considerations usually address i na only. conceptually, the amount by which the charge delivered to a cell exceeds the. safety factor is a useful concept for analyzing the propagation of impulses through cardiac tissue, which. cardiac safety factor (sf) is a putative quantifier of the robustness of. to be precise, the safety factor is a measure of the ratio between the amount of charge supplied (the source) and the amount of charge required for excitation (the sink); we conclude that our sf formulation, which can be applied to both experimental and synthetic data, produces values that vary. At highly reduced membrane excitability, it is possible that i ca (l) contributes significantly to the safety factor. cardiac safety factor (sf) is generally defined to be the excess charge delivered to a cell, beyond the amount required to.

Distribution of the safety factor with angle. Download Scientific Diagram

Safety Factor Propagation At highly reduced membrane excitability, it is possible that i ca (l) contributes significantly to the safety factor. conceptually, the amount by which the charge delivered to a cell exceeds the. safety factor considerations usually address i na only. cardiac safety factor (sf) is a putative quantifier of the robustness of. we conclude that our sf formulation, which can be applied to both experimental and synthetic data, produces values that vary. cardiac safety factor (sf) is generally defined to be the excess charge delivered to a cell, beyond the amount required to. therefore, for continued propagation of an impulse to occur, the ratio of action potential to threshold for. At highly reduced membrane excitability, it is possible that i ca (l) contributes significantly to the safety factor. In this study we attempt to determine the contribution of i ca (l) to the safety factor and its role in conduction. to be precise, the safety factor is a measure of the ratio between the amount of charge supplied (the source) and the amount of charge required for excitation (the sink); safety factor is a useful concept for analyzing the propagation of impulses through cardiac tissue, which.