Heart (Physiology)

Role of diastole in left ventricular function, I: Biochemical and biomechanical events.
[15470855] Am J Crit Care 13(5): 394-403; quiz 404-5 (2004)

Role of diastole in left ventricular function, II: diagnosis and treatment.
[15568651] Am J Crit Care 13(6): 453-66; quiz 467-8 (2004)

Ejection fraction revisited.
[1986643] Anesthesiology 74(1): 172-83 (1991)

Understanding cardiac output.
[18771592] Crit Care 12(4): 174 (2008)

What is a pressure-volume curve?
[16930466] Crit Care 10(4): 156 (2006)

Heart failure and Starling's Law of the heart.
[9191498] Can J Cardiol 12(10): 1047-57 (1996)

The right ventricle: biologic insights and response to disease.
[20066144] Curr Cardiol Rev 5(1): 22-8 (2009)

Cardiac function and modulation of sarcomeric function by length.
[18079105] Cardiovasc Res 77(4): 627-36 (2008)

Intracellular Na+ regulation in cardiac myocytes.
[12650868] Cardiovasc Res 57(4): 897-912 (2003)

Intracellular Na in animal models of hypertrophy and heart failure: contractile function and arrhythmogenesis.
[12650867] Cardiovasc Res 57(4): 887-96 (2003)

Cardiac sodium and calcium channels: a history of excitatory currents.
[12062702] Cardiovasc Res 55(1): 1-8 (2002)

Cardiac protein phosphorylation: functional and pathophysiological correlates.
[9747427] Cardiovasc Res 38(3): 559-88 (1998)

Neuropeptides in neurogenic disorders of the cardiovascular control.
[17244937] J Physiol Pharmacol 57 Suppl 11(-): 31-53 (2006)

The brain-heart connection.
[17606855] Circulation 116(1): 77-84 (2007)

Regulation of cardiac contractility: high time for FXYD.
[18178717] Am J Physiol Heart Circ Physiol 294(2): H584-5 (2008)

Heart rate variability with deep breathing as a clinical test of cardiovagal function.
[19376980] Cleve Clin J Med 76 Suppl 2(-): S37-40 (2009)

Noninvasive evaluation of left ventricular afterload: part 2: arterial pressure-flow and pressure-volume relations in humans.
[20733088] Hypertension 56(4): 563-70 (2010)

Noninvasive evaluation of left ventricular afterload: part 1: pressure and flow measurements and basic principles of wave conduction and reflection.
[20733089] Hypertension 56(4): 555-62 (2010)

Sarcomere control mechanisms and the dynamics of the cardiac cycle.
[20467475] J Biomed Biotechnol 2010(-): 105648 (2010)

Not just the powerhouse of the cell: emerging roles for mitochondria in the heart.
[20685941] Cardiovasc Res 88(1): 5-6 (2010)

New roles of calsequestrin and triadin in cardiac muscle.
[19451205] J Physiol 587(Pt 13): 3081-7 (2009)

Myocardial fatty acid metabolism in health and disease.
[20086077] Physiol Rev 90(1): 207-58 (2010)

Mitochondrial biogenesis in cardiac pathophysiology.
[19307701] Pharmacol Rep 61(1): 131-8 (2009)

A "love triangle" elicited by electrochemistry: complex interactions among cardiac sympathetic afferent, chemo-, and baroreflexes.
[16990500] J Appl Physiol 102(1): 9-10 (2007)

Coronary venous retroperfusion: an old concept, a new approach.
[18292303] J Appl Physiol 104(5): 1266-72 (2008)

The role of mammalian cardiac t-tubules in excitation-contraction coupling: experimental and computational approaches.
[19297389] Exp Physiol 94(5): 509-19 (2009)

Towards predictive modelling of the electrophysiology of the heart.
[19270037] Exp Physiol 94(5): 563-77 (2009)

Vagal control of the heart: central serotonergic (5-HT) mechanisms.
[15604109] Exp Physiol 90(2): 175-81 (2005)

A role for the paraventricular nucleus of the hypothalamus in the autonomic control of heart and kidney.
[15604110] Exp Physiol 90(2): 169-73 (2005)

Cellular mechanisms in sympatho-modulation of the heart.
[15145820] Br J Anaesth 93(1): 34-52 (2004)

The Frank-Starling mechanism in vertebrate cardiac myocytes.
[18552289] J Exp Biol 211(Pt 13): 2005-13 (2008)

Molecular mechanisms of adrenergic stimulation in the heart.
[20156590] Heart Rhythm 7(8): 1151-3 (2010)

Assessment of contractility in intact ventricular cardiomyocytes using the dimensionless 'Frank-Starling Gain' index.
[21494804] Pflugers Arch 462(1): 39-48 (2011)

The molecular basis of the steep force-calcium relation in heart muscle.
[20004664] J Mol Cell Cardiol 48(5): 859-65 (2010)

Cardiac sympathetic nerve terminal function in congestive heart failure.
[17588326] Acta Pharmacol Sin 28(7): 921-7 (2007)

Redox signaling in cardiac myocytes.
[21236334] Free Radic Biol Med 50(7): 777-93 (2011)

Cardiac-specific knockout of ET(A) receptor mitigates low ambient temperature-induced cardiac hypertrophy and contractile dysfunction.
[22442497] J Mol Cell Biol 4(2): 97-107 (2012)

L-type Ca2+ channels in the heart: structure and regulation.
[18695345] Medicina (Kaunas) 44(7): 491-9 (2008)

Endocannabinoids and cardiac contractile function: pathophysiological implications.
[19569260] Pharmacol Res 60(2): 99-106 (2009)

Titin and troponin: central players in the frank-starling mechanism of the heart.
[20436852] Curr Cardiol Rev 5(2): 119-24 (2009)

Myocardial energetics in left ventricular hypertrophy.
[20676284] Curr Cardiol Rev 5(3): 243-50 (2009)

The cardiac cycle and the physiologic basis of left ventricular contraction, ejection, relaxation, and filling.
[18313620] Heart Fail Clin 4(1): 1-11 (2008)

Calcium-independent phospholipases in the heart: mediators of cellular signaling, bioenergetics, and ischemia-induced electrophysiologic dysfunction.
[19390346] J Cardiovasc Pharmacol 53(4): 277-89 (2009)

Basic notions of heart rate variability and its clinical applicability.
[19768301] Rev Bras Cir Cardiovasc 24(2): 205-17 (2009)

Adenosine receptors and the heart: role in regulation of coronary blood flow and cardiac electrophysiology.
[19639282] Handb Exp Pharmacol -(193): 161-88 (2009)

Left ventricular rotation and twist: why should we learn?
[21519484] J Cardiovasc Ultrasound 19(1): 1-6 (2011)

Phospholemman: a novel cardiac stress protein.
[20718822] Clin Transl Sci 3(4): 189-96 (2010)

Mitochondria as integrators of signal transduction and energy production in cardiac physiology and disease.
[20700724] J Mol Med (Berl) 88(10): 967-70 (2010)

Tensegrity-based mechanosensing from macro to micro.
[18406455] Prog Biophys Mol Biol 97(2-3): 163-79 (2008)

Regulation of cardiac excitation and contraction by p21 activated kinase-1.
[19351515] Prog Biophys Mol Biol 98(2-3): 238-50 (2008)

Caveolae, ion channels and cardiac arrhythmias.
[19351512] Prog Biophys Mol Biol 98(2-3): 149-60 (2008)

The unique functions of cardiac troponin I in the control of cardiac muscle contraction and relaxation.
[18162178] Biochem Biophys Res Commun 369(1): 82-7 (2008)

Interaction of cardiac troponin with cardiotonic drugs: a structural perspective.
[18162171] Biochem Biophys Res Commun 369(1): 88-99 (2008)

The Ca2+ ATPase of cardiac sarcoplasmic reticulum: Physiological role and relevance to diseases.
[18068669] Biochem Biophys Res Commun 369(1): 182-7 (2008)

cAMP responsive element binding protein 1: a missing link for heart rate regulation?
[20551419] Circ Cardiovasc Genet 3(3): 229-31 (2010)

TRPM4-linked isolated cardiac conduction defects: bad trafficking causes electrical gridlock.
[20716750] Circ Cardiovasc Genet 3(4): 311-3 (2010)

Cardiac electromechanical models: from cell to organ.
[21886622] Front Physiol 2(-): 43 (2011)

In Vitro Simulation and Validation of the Circulation with Congenital Heart Defects.
[21218147] Prog Pediatr Cardiol 30(1-2): 71-80 (2010)

AORTIC COARCTATION: RECENT DEVELOPMENTS IN EXPERIMENTAL AND COMPUTATIONAL METHODS TO ASSESS TREATMENTS FOR THIS SIMPLE CONDITION.
[21152106] Prog Pediatr Cardiol 30(1): 45-49 (2010)

Mitochondrial dynamics in heart disease.
[22450031] Biochim Biophys Acta 1833(1):233-41 (2013)

Beyond cell adhesion: the role of armadillo proteins in the heart.
[23022961] Cell Signal 25(1):93-100 (2013)

Loss of the AE3 Cl(-)/HCO(-) 3 exchanger in mice affects rate-dependent inotropy and stress-related AKT signaling in heart.
[24427143] Front Physiol 4():399 (2013)

Short-term memory in the heart: a road map for channel trafficking required.
[22885920] Heart Rhythm 9(11):1873-4 (2012)

The right ventricle: biologic insights and response to disease: updated.
[23092273] Curr Cardiol Rev 9(1):73-81 (2013)

Modeling CaMKII in cardiac physiology: from molecule to tissue.
[24550832] Front Pharmacol 5():9 (2014)

The role of CaMKII regulation of phospholamban activity in heart disease.
[24550830] Front Pharmacol 5():5 (2014)

Gap junction modulation and its implications for heart function.
[24578694] Front Physiol 5():82 (2014)

New concepts of endoplasmic reticulum function in the heart: programmed to conserve.
[23085588] J Mol Cell Cardiol 55():85-91 (2013)

Mitochondria in cardiac hypertrophy and heart failure.
[22982369] J Mol Cell Cardiol 55():31-41 (2013)

Cardiac myosin-binding protein-C is a critical mediator of diastolic function.
[24442121] Pflugers Arch 466(3):451-7 (2014)

Ventricular-arterial coupling: Invasive and non-invasive assessment.
[24179554] Artery Res 7(1): (2013)

Role of Notch signaling in the mammalian heart.
[24345875] Braz J Med Biol Res 47(1):1-10 (2014)

Phenomics of cardiac chloride channels.
[23720326] Compr Physiol 3(2):667-92 (2013)

Posttranslational modifications of cardiac ryanodine receptors: Ca(2+) signaling and EC-coupling.
[22960642] Biochim Biophys Acta 1833(4):866-75 (2013)

Novel role for vinculin in ventricular myocyte mechanics and dysfunction.
[23561539] Biophys J 104(7):1623-33 (2013)

Synchrony of cardiomyocyte Ca(2+) release is controlled by T-tubule organization, SR Ca(2+) content, and ryanodine receptor Ca(2+) sensitivity.
[23601316] Biophys J 104(8):1685-97 (2013)

Modeling CaMKII-mediated regulation of L-type Ca(2+) channels and ryanodine receptors in the heart.
[24772082] Front Pharmacol 5():60 (2014)

Mechanisms of CaMKII Activation in the Heart.
[24765077] Front Pharmacol 5():59 (2014)

Is "capacitive coupling" purely excitatory in the cardiac tissue?
[24723890] Front Physiol 5():77 (2014)

Towards an interactive electromechanical model of the heart.
[24427533] Interface Focus 3(2):20120091 (2013)

Right and left ventricular diastolic pressure-volume relations: a comprehensive review.
[23179133] J Cardiovasc Transl Res 6(2):239-52 (2013)

Apelin increases cardiac contractility via protein kinase Cepsilon- and extracellular signal-regulated kinase-dependent mechanisms.
[24695532] PLoS One 9(4):e93473 (2014)

Essential role of stress hormone signaling in cardiomyocytes for the prevention of heart disease.
[24082121] Proc Natl Acad Sci U S A 110(42):17035-40 (2013)

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