Is the failing heart energy starved? On using chemical energy to support cardiac function.
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Creatine and creatine analogues in hypertension and cardiovascular diseaseAdenosine receptors and the heart: role in regulation of coronary blood flow and cardiac electrophysiologyMonoamine oxidases (MAO) in the pathogenesis of heart failure and ischemia/reperfusion injuryNutritional Deficiency in Patients with Heart FailureCardiac energy metabolic alterations in pressure overload-induced left and right heart failure (2013 Grover Conference Series)New insights into the role of mitochondrial dynamics and autophagy during oxidative stress and aging in the heartUsing exercise to measure and modify cardiac functionInvestigating cardiac energetics in heart failureMetabolic remodeling in moderate synchronous versus dyssynchronous pacing-induced heart failure: integrated metabolomics and proteomics studyThe cell biology of disease: cellular mechanisms of cardiomyopathy.Creatine kinase in ischemic and inflammatory disordersMyocardial energetics and the role of micronutrients in heart failure: a critical review"Freeze, Don't Move": How to Arrest a Suspect in Heart Failure - A Review on Available GRK2 InhibitorsModelling sarcomeric cardiomyopathies in the dish: from human heart samples to iPSC cardiomyocytesProtein kinase Cepsilon interacts with cytochrome c oxidase subunit IV and enhances cytochrome c oxidase activity in neonatal cardiac myocyte preconditioningCardiac hypertrophy involves both myocyte hypertrophy and hyperplasia in anemic zebrafishA mutation in the mitochondrial fission gene Dnm1l leads to cardiomyopathyp53 and TIGAR regulate cardiac myocyte energy homeostasis under hypoxic stress.A role for the mitochondrial deacetylase Sirt3 in regulating energy homeostasisHeart Failure in Pediatric Patients With Congenital Heart Disease.Diabetic cardiomyopathy: pathophysiology and clinical featuresImpaired myocardial perfusion reserve and fibrosis in Friedreich ataxia: a mitochondrial cardiomyopathy with metabolic syndrome.A computational model integrating electrophysiology, contraction, and mitochondrial bioenergetics in the ventricular myocyteThe fundamental organization of cardiac mitochondria as a network of coupled oscillators(1)H-MR spectroscopy for analysis of cardiac lipid and creatine metabolism.Antifailure therapy including spironolactone improves left ventricular energy supply-demand relations in nonischemic dilated cardiomyopathy.Transcriptome Profiling of Patient-Specific Human iPSC-Cardiomyocytes Predicts Individual Drug Safety and Efficacy Responses In Vitro.Xanthine oxidase inhibitors improve energetics and function after infarction in failing mouse hearts.Modeling of oxygen transport and cellular energetics explains observations on in vivo cardiac energy metabolism.Functional studies of individual myosin molecules.Anti-apolipoprotein A-1 IgG as an independent cardiovascular prognostic marker affecting basal heart rate in myocardial infarction.Genome-wide expression patterns in physiological cardiac hypertrophy.Mice over-expressing the myocardial creatine transporter develop progressive heart failure and show decreased glycolytic capacityEffects of myosin heavy chain manipulation in experimental heart failure.Application of the principles of systems biology and Wiener's cybernetics for analysis of regulation of energy fluxes in muscle cells in vivo.HMGCS2 is a key ketogenic enzyme potentially involved in type 1 diabetes with high cardiovascular riskMetabolomic analysis of pressure-overloaded and infarcted mouse hearts.GLP-1 agonist therapy for advanced heart failure with reduced ejection fraction: design and rationale for the functional impact of GLP-1 for heart failure treatment study.Cardiac, skeletal, and smooth muscle mitochondrial respiration: are all mitochondria created equal?Substrate-enzyme competition attenuates upregulated anaplerotic flux through malic enzyme in hypertrophied rat heart and restores triacylglyceride content: attenuating upregulated anaplerosis in hypertrophy.
P2860
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P2860
Is the failing heart energy starved? On using chemical energy to support cardiac function.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Is the failing heart energy st ...... y to support cardiac function.
@ast
Is the failing heart energy st ...... y to support cardiac function.
@en
type
label
Is the failing heart energy st ...... y to support cardiac function.
@ast
Is the failing heart energy st ...... y to support cardiac function.
@en
prefLabel
Is the failing heart energy st ...... y to support cardiac function.
@ast
Is the failing heart energy st ...... y to support cardiac function.
@en
P1433
P1476
Is the failing heart energy st ...... y to support cardiac function.
@en
P2093
Joanne S Ingwall
Robert G Weiss
P304
P356
10.1161/01.RES.0000137170.41939.D9
P577
2004-07-01T00:00:00Z