Heart Hypertrophy and FailureNaranjan S. Dhalla, Grant N. Pierce, Vincenzo Panagia, Robert E. Beamish Heart Hypertrophy and Failure brings together leading basic scientists and clinicians, presenting improved knowledge of the pathophysiology and treatment of the condition. The result is a synthesis of state-of-the-art information on molecular biology, cellular physiology and structure-function relationships in the cardiovascular system in health and disease. The papers presented describe fundamental mechanisms underlying changes in the cellular machinery during the development of cardiac hypertrophy and heart failure. Audience: Students, scientists, clinical and experimental cardiologists who seek to understand and manage the perplexing problems of hypertrophy and heart failure. |
Contents
Molecular analysis of genotypephenotype correlations | 3 |
New mutations that cause familial hypertrophic | 21 |
Genetically determined cardiomyopathies in neuromuscular disease | 27 |
Copyright | |
30 other sections not shown
Other editions - View all
Heart Hypertrophy and Failure Naranjan S. Dhalla,Grant N. Pierce,Vincenzo Panagia,Robert E. Beamish Limited preview - 2012 |
Heart Hypertrophy and Failure Naranjan S Dhalla,Grant N Pierce,Vincenzo Panagia No preview available - 1995 |
Heart Hypertrophy and Failure Naranjan S. Dhalla,Grant Pierce,Vincenzo Panagia,Robert E. Beamish No preview available - 2011 |
Common terms and phrases
Acad Sci USA activity adenylyl cyclase agonists alterations angiotensin aortic ATPase atrial B-adrenergic B2AR binding Biochem Biol Chem BMHC Ca2+-ATPase calcium cardiac fibroblasts cardiac hypertrophy cardiac myocytes cardiomyocytes cDNA cellular Circ Res clones collagen collagenase congestive heart failure contractile creatine kinase decreased deletion diabetic diastolic dilated cardiomyopathy disease dystrophin effects enalapril enzyme extracellular failing hearts failing human heart familial hypertrophic fetal Figure function G-protein gene expression genetic growth factor hamster human myocardium hypertensive hypertrophic cardiomyopathy increased induced inhibition isoform isoproterenol left ventricle left ventricular levels LVFW mechanisms membrane molecular mRNA mtDNA muscular dystrophy mutations myocardial infarction myocardium Natl Acad Sci neonatal nonfailing norepinephrine normal nucleotide pathway patients perfused phenotype phospholamban phosphorylation Physiol Proc Natl Acad protein kinase rat heart receptor regulation response role sarcoplasmic reticulum sequence SERCA2 signal transduction stimulation studies synthesis tissue transcription transient ventricular myocytes vitro ZINT