Our model demonstrates that fetal ventricular cells maintain ATP for longer periods of time than adult ventricular cells. This is consistent with reported ...
Jan 1, 2014 · Our model demonstrates that fetal ventricular cells maintain ATP for longer periods of time than adult ventricular cells. This is consistent ...
[PDF] Contribution of Developmental Changes in Energy Metabolism to ...
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In fetal guinea pigs, ventricular cells have higher anaerobic glycolytic capacity and lower mitochondrial enzyme activity.
Contribution of developmental changes in energy metabolism to excitation-contraction coupling of a ventricular cell: A simulation study. Hitomi I. Sano ...
Abstract. The developmental changes in the excitation–contraction mechanisms of the ventricular myocardium of small animals (guinea pig, rat, mouse) and their ...
Missing: Simulation | Show results with:Simulation
Cardiac excitation-contraction (EC) coupling consumes vast amounts of cellular energy, most of which is produced in mitochondria by oxidative phosphorylation.
Recent studies have revealed that Ca2+ not only regulates the contraction of cardiomyocytes, but can also function as a signaling agent to stimulate ATP ...
Disturbed lipid biosynthesis and metabolism has been shown to cause cardiac developmental abnormality and cardiovascular diseases. In this study, we aimed ...
Missing: Simulation | Show results with:Simulation
The heart undergoes a dynamic maturation process following birth, in response to a wide range of stimuli, including both physiological and pathological cues.
Developmental changes in the balance of glycolytic ATP production and oxidative phosphorylation in ventricular cells: A simulation study. Journal of ...
Missing: Metabolism | Show results with:Metabolism