Daniel A. Beard
www.virtualrat.org
0000-0003-0974-2353
Medical College of Wisconsin
282 papers found
Refreshing results…
Integrated Functions of Cardiac Energetics, Mechanics, and Purine Nucleotide Metabolism
Higher mitochondrial oxidative capacity is the primary molecular differentiator in muscle of rats with high and low intrinsic cardiorespiratory fitness
Computational modeling of ventricular-ventricular interactions suggest a role in clinical conditions involving heart failure
Predicting the efficacy of splenic embolization on refractory ascites using a computational model of portal hypertension
The role of purine nucleotide metabolism in cardiac failure
Contribution of local metabolic control to coronary pressure-flow autoregulation
Succinate accumulation and oxidation in cardiac ischemia-reperfusion
Dependence of cardiomyocyte force, velocity, and power generation on ATP concentration
Framework for precision phenotyping of heart failure patients using clinical data at rest and exercise
Computational Modeling of Ventricular Interdependence in Heart Failure
Portal Venous Remodeling Determines the Pattern of Cirrhosis Decompensation: A Systems Analysis
Oxygen-sensing pathways below autoregulatory threshold act to sustain myocardial oxygen delivery during reductions in perfusion pressure
FMO rewires metabolism to promote longevity through tryptophan and one carbon metabolism in C. elegans
Causes and consequences of succinate accumulation during cardiac ischemia
Differential integrated stress response and asparagine production drive symbiosis and therapy resistance of pancreatic adenocarcinoma cells
Noninvasive Monitoring of Metabolism and Hemodynamics Using Super-Continuum Infrared Spectroscopy of a Cytochrome C Oxidase (SCISCCO) Instrument
Reduced cardiac muscle power with low ATP simulating heart failure
Using Model‐Based Analysis and Physiology‐Informed Machine Learning to Refine the Stratification of Phenotypes in Heart Failure
Multiscale model of the physiological control of myocardial perfusion to delineate putative metabolic feedback mechanisms
Systems analysis of the mechanisms governing the cardiovascular response to changes in posture and in peripheral demand during exercise
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