review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Regis R Lamberts | Q88150849 |
P2093 | author name string | Christa Boer | |
Nico Westerhof | |||
Pieter Sipkema | |||
P2860 | cites work | Effects of calcium, inorganic phosphate, and pH on isometric force in single skinned cardiomyocytes from donor and failing human hearts | Q28215203 |
Expression of collagen binding integrins during cardiac development and hypertrophy | Q28581106 | ||
Role of the endothelial glycocalyx in dromotropic, inotropic, and arrythmogenic effects of coronary flow | Q30304623 | ||
Detection of noncritical coronary stenosis at rest without recourse to exercise or pharmacological stress | Q30308527 | ||
Coronary microcirculation in health and disease. Summary of an NHLBI workshop | Q30412920 | ||
Fractional flow reserve: critical review of an important physiologic adjunct to angiography | Q30433498 | ||
Temporal fluctuations in regional myocardial flows | Q30454579 | ||
Profiles of coronary blood flow velocity in patients with aortic stenosis and the effect of valve replacement: a transthoracic echocardiographic study | Q30535266 | ||
A hemodynamic analysis of coronary capillary blood flow based on anatomic and distensibility data | Q30585556 | ||
Dynamic changes in three-dimensional architecture and vascular volume of transmural coronary microvasculature between diastolic- and systolic-arrested rat hearts | Q30807444 | ||
Direct observation of epicardial coronary capillary hemodynamics during reactive hyperemia and during adenosine administration by intravital video microscopy | Q31109025 | ||
Hydrogen peroxide, an endogenous endothelium-derived hyperpolarizing factor, plays an important role in coronary autoregulation in vivo | Q31132587 | ||
Coronary microvasculature alteration in hypertensive rats. Effect of treatment with a diuretic and an ACE inhibitor | Q32021116 | ||
Validated computation of physiologic flow in a realistic coronary artery branch | Q32059614 | ||
A computational study of the interaction between coronary blood flow and myocardial mechanics | Q33432149 | ||
Functional characteristics of the coronary microcirculation | Q33802838 | ||
The mechanical and metabolic basis of myocardial blood flow heterogeneity | Q33884416 | ||
Evidence that cell surface charge reduction modifes capillary red cell velocity-flux relationships in hamster cremaster muscle. | Q54157416 | ||
Mechanism of the effect of coronary artery stenosis on coronary flow in the dog | Q54168614 | ||
Heart rate affects the dependency of myocardial oxygen consumption on flow in goats. | Q54183241 | ||
Intramyocardial pressure gradients in working and nonworking isolated cat hearts. | Q54212277 | ||
Effects of myocardial contraction on coronary blood flow: an integrated model. | Q54229720 | ||
Tone-dependent coronary arterial-venous pressure differences at the cessation of venous outflow during long diastoles. | Q54231817 | ||
Microcirculation in the Ventricle of the Dog and Turtle | Q54245333 | ||
Interaction of pressure- and flow-induced responses in porcine coronary resistance vessels | Q54284166 | ||
Coronary input impedance is constant during systole and diastole. | Q54294527 | ||
Diastolic coronary resistance and capacitance are independent of the duration of diastole. | Q54300725 | ||
Endothelial regulation of wall shear stress and blood flow in skeletal muscle microcirculation. | Q54300727 | ||
System analysis of the dynamic response of the coronary circulation to a sudden change in heart rate. | Q54328309 | ||
Nonuniform vasomotor responses of the coronary microcirculation to serotonin and vasopressin. | Q54347731 | ||
Angina due to coronary microvascular disease in hypertensive patients without left ventricular hypertrophy. | Q54373170 | ||
The influence of coronary pressure and coronary flow on intracoronary blood volume and geometry of the left ventricle | Q54383139 | ||
Flow control among microvessels coordinated by intercellular conduction. | Q54419550 | ||
Coronary pressure-flow relationships. Controversial issues and probable implications. | Q54453732 | ||
Coronary diastolic pressure-flow relation and zero flow pressure explained on the basis of intramyocardial compliance. | Q54453733 | ||
Steady state and instantaneous pressure-flow relationships: characterisation of the canine abdominal periphery. | Q54490072 | ||
Pressure measurements in the terminal vascular bed of the epimyocardium of rats and cats | Q54528864 | ||
Diastolic coronary artery pressure-flow relations in the dog | Q54583398 | ||
Effects of coronary stenoses on coronary flow reserve and resistance. | Q54636301 | ||
Effects of myocardial strains on coronary blood flow. | Q54640277 | ||
Effects of Coronary Blood Flow and Perfusion Pressure on Left Ventricular Contractility in Dogs | Q54675475 | ||
The arterial system characterised in the time domain. | Q54796449 | ||
Load independence of the instantaneous pressure-volume ratio of the canine left ventricle and effects of epinephrine and heart rate on the ratio. | Q55061548 | ||
Acute elevation of coronary venous pressure does not affect left ventricular contractility in the normal and stressed swine heart: Implications for the Fontan operation | Q57298989 | ||
Mechanical effects of coronary perfusion in the passive canine left ventricle | Q57594778 | ||
Flow Profiles in the Left Anterior Descending and the Right Coronary Artery Assessed by MR Velocity Quantification: Effects of Through-Plane and In-Plane Motion of the Heart | Q57723515 | ||
Left coronary pressure–flow relations of the beating and arrested rabbit heart at different ventricular volumes | Q57916841 | ||
Effect of interconnecting collagen fibres on left ventricular function and intramyocardial compression | Q42612671 | ||
Myocardial O2 consumption in porcine left ventricle is heterogeneously distributed in parallel to heterogeneous O2 delivery | Q42627158 | ||
Systemic autoregulation counteracts the carotid baroreflex | Q42627962 | ||
Phasic regional myocardial inflow and outflow: comparison of theory and experiments | Q42636998 | ||
Effect of packed cell volume on diastolic coronary artery pressure-flow relations in the dog. | Q42655898 | ||
Phasic blood flow velocity pattern in epimyocardial microvessels in the beating canine left ventricle | Q42661902 | ||
Coronary arteriolar myogenic response is independent of endothelium | Q43459991 | ||
Contractility is the main determinant of coronary systolic flow impediment | Q43485077 | ||
Fluid dynamics of coronary artery stenosis | Q43582819 | ||
Lowering of blood pressure and coronary blood flow in isolated systolic hypertension | Q43654955 | ||
Transmural distribution of three-dimensional systolic strains in stunned myocardium | Q43678589 | ||
Determination of coronary zero flow pressure by analysis of the baseline pressure-flow relationship in humans | Q43731678 | ||
Microvascular pressure measurement reveals a coronary vascular waterfall in arterioles larger than 110 microm | Q43773111 | ||
Cyclic stretch enhances the expression and activity of coronary endothelium-derived hyperpolarizing factor synthase | Q43829705 | ||
Calcium channel blockade with felodipine does not affect metabolic coronary vasodilation in patients with coronary artery disease | Q43854466 | ||
Role of myocardium and endothelium in coronary vascular smooth muscle responses to hypoxia | Q43917327 | ||
Increased coronary perfusion augments cardiac contractility in the rat through stretch-activated ion channels | Q43917341 | ||
Viscoelastic properties of pressure overload hypertrophied myocardium: effect of serine protease treatment | Q43988620 | ||
Effect of flow and vascular heterogeneity on glucose metabolism in isolated dog hearts | Q43989297 | ||
The diastolic flow-pressure gradient relation in coronary stenoses in humans. | Q44000015 | ||
Measurements of coronary flow reserve: defining pathophysiology versus making decisions about patient care | Q44018133 | ||
Changes in coronary pressure-flow relation after transition from blood to Tyrode perfusion | Q44037757 | ||
Metabolic regulation of coronary vascular tone: role of endothelin-1. | Q44183002 | ||
Fatty acids are important for the Frank-Starling mechanism and Gregg effect but not for catecholamine response in isolated rat hearts. | Q44188619 | ||
On the role of mechanosensitive mechanisms eliciting reactive hyperemia | Q44213318 | ||
Difference in coronary blood flow dynamics between patients with hypertension and those with hypertrophic cardiomyopathy | Q44229510 | ||
Changes in extracellular collagen matrix alter myocardial systolic performance | Q44251628 | ||
Coronary flow-induced inotropism is modulated by binding of dextrans to the endothelial luminal surface | Q44268995 | ||
Phasic coronary blood flow velocity pattern and flow reserve in the atrium: regulation of left atrial myocardial perfusion | Q44323042 | ||
Cardiac contraction affects deep myocardial vessels predominantly | Q44359448 | ||
Effect of cyclic axial stretch of rat arteries on endothelial cytoskeletal morphology and vascular reactivity | Q44403338 | ||
Lack of vascular connexin 40 is associated with hypertension and irregular arteriolar vasomotion. | Q44406803 | ||
Effect of steady versus oscillating flow on porcine coronary arterioles: involvement of NO and superoxide anion. | Q44451906 | ||
Importance of diastolic fractional flow reserve and dobutamine challenge in physiologic assessment of myocardial bridging | Q44522142 | ||
Coronary microvascular dysfunction and prognosis in hypertrophic cardiomyopathy | Q44580888 | ||
Evaluation of myocardial blood flow reserve in patients with chronic congestive heart failure due to idiopathic dilated cardiomyopathy | Q44650124 | ||
Benefits of statin treatment in cardiac syndrome-X | Q44652966 | ||
Subendocardial coronary compression in beating dog hearts is independent of pressure in the ventricular lumen | Q44690456 | ||
Effects of left ventricular contractility and coronary vascular resistance on coronary dynamics | Q44698732 | ||
Redistribution of coronary microvascular resistance produced by dipyridamole | Q44740904 | ||
Diastolic coronary vascular reserve: a new index to detect changes in the coronary microcirculation in hypertrophic cardiomyopathy | Q44771235 | ||
Cardiovascular and renal effects of a collagen cross-link breaker (ALT 711) in adult and aged spontaneously hypertensive rats | Q44828607 | ||
Association of a pulsatile blood flow pattern on coronary arteriography and short-term clinical outcomes in acute myocardial infarction | Q44829209 | ||
Cellular mechanism of the modulation of contractile function by coronary perfusion pressure in ferret hearts | Q44830381 | ||
Nitric oxide and H2O2 contribute to reactive dilation of isolated coronary arterioles | Q45023379 | ||
Contribution of increased minimal coronary resistance and attenuated vascular adaptive remodeling to myocardial ischemia in patients with systemic hypertension and ventricular hypertrophy | Q45027828 | ||
Influence of curvature dynamics on pulsatile coronary artery flow in a realistic bifurcation model | Q45075326 | ||
Bifurcation asymmetry of the porcine coronary vasculature and its implications on coronary flow heterogeneity | Q45153571 | ||
Diastolic time fraction as a determinant of subendocardial perfusion | Q45199026 | ||
Flow-function relations during graded coronary occlusions in the dog: effects of transmural location and segment orientation | Q45262614 | ||
Prologue: new insights into the regulation of the coronary microcirculation | Q34087488 | ||
Problems of coronary flow reserve | Q34122444 | ||
Intramyocardial influences on blood flow distributions in the myocardial wall | Q34122450 | ||
Endogenous adenosine mediates coronary vasodilation during exercise after K(ATP)+ channel blockade | Q34195568 | ||
Effects of collagen microstructure on the mechanics of the left ventricle | Q34260973 | ||
Diameter change and pressure-red blood cell velocity relations in coronary microvessels during long diastoles in the canine left ventricle | Q34414640 | ||
Assessing heterogeneous distribution of blood flow and metabolism in the heart | Q34479914 | ||
Cardiac endothelial-myocardial signaling: its role in cardiac growth, contractile performance, and rhythmicity | Q35035923 | ||
Heterogeneous microvascular coronary alpha-adrenergic vasoconstriction | Q35551166 | ||
The forces generated within the musculature of the left ventricular wall | Q35582036 | ||
The myocardial supply:Demand ratio—A critical review | Q35594932 | ||
Matching coronary blood flow to myocardial oxygen consumption. | Q35819031 | ||
Analysis of the characteristics of the flow velocity waveforms in left atrial small arteries and veins in the dog. | Q35902064 | ||
Mechanical compression elicits NO-dependent increases in coronary flow | Q35954955 | ||
Fractal nature of regional myocardial blood flow heterogeneity | Q35993621 | ||
Mechanics of a thin walled collapsible microtube | Q36064055 | ||
Myocardial bridging | Q36069811 | ||
What has been learned about the cardiovascular effects of matrix metalloproteinases from mouse models? | Q36373670 | ||
Evaluation of phasic blood flow velocity in the great cardiac vein by a laser Doppler method | Q36418587 | ||
Evaluation of local blood flow velocity in proximal and distal coronary arteries by laser Doppler method | Q36435255 | ||
Functional characteristics of intramyocardial capacitance vessels during diastole in the dog. | Q36474815 | ||
Topology and dimensions of pig coronary capillary network | Q36735835 | ||
In vivo observation of subendocardial microvessels of the beating porcine heart using a needle-probe videomicroscope with a CCD camera | Q36780864 | ||
Systolic coronary flow reduction in the canine heart in situ: effects of left ventricular pressure and elastance | Q36842219 | ||
Analysis of pig's coronary arterial blood flow with detailed anatomical data | Q36856901 | ||
Red cell flux during the cardiac cycle in the rabbit myocardial microcirculation | Q36872146 | ||
The relationship between cardiac contraction and intramyocardial hemodynamics | Q36884600 | ||
Endothelial cells regulate cardiac contractility | Q37599804 | ||
Understanding the coronary circulation through studies at the microvascular level | Q37818166 | ||
Transmural differences in energy metabolism of the left ventricular myocardium: fact or fiction | Q37914603 | ||
Physiological hypotheses--intramyocardial pressure. A new concept, suggestions for measurement | Q37929731 | ||
Microvasculature of the dog left ventricular myocardium | Q38511730 | ||
Cardiac interstitium in health and disease: the fibrillar collagen network | Q38633516 | ||
Rapid measurements of diastolic intramyocardial vascular volume | Q39404016 | ||
Abnormal right coronary artery flow and multiple right ventricular myocardial infarctions associated with severe right ventricular systolic hypertension | Q39422627 | ||
Systolic and diastolic changes in human coronary blood flow during Valsalva manoeuvre | Q39433167 | ||
Transmural myocardial perfusion | Q39481745 | ||
Relation between left ventricular cavity pressure and volume and systolic fiber stress and strain in the wall | Q39636359 | ||
Coronary capacitance | Q39652765 | ||
Small vessel phenomena in the coronary microcirculation: phasic intramyocardial perfusion and coronary microvascular dynamics | Q39652769 | ||
Effect of passive myocardium on the compliance of porcine coronary arteries | Q39654924 | ||
Pattern differences between distributions of microregional myocardial flows in crystalloid- and blood-perfused rat hearts | Q39671358 | ||
Visualisation of intramural coronary vasculature by an imaging cryomicrotome suggests compartmentalisation of myocardial perfusion areas. | Q39734662 | ||
The effect of lathyrogen beta-amino proprionitrile (BAPN) on the mechanical properties of experimentally hypertrophied rat cardiac muscle | Q39860395 | ||
Control of coronary blood flow | Q40287356 | ||
Why is myocardial ischaemia so commonly subendocardial? | Q40317793 | ||
Heterogeneity of myocardial blood flow | Q40465918 | ||
Coronary microcirculation: autoregulation and metabolic control | Q40465927 | ||
Mechanical determinants of myocardial perfusion | Q40465945 | ||
Fever responses of Zucker rats with and without fatty mutation of the leptin receptor | Q40592016 | ||
Coronary blood flow in man | Q40619968 | ||
Myocardial fibrosis: functional significance and regulatory factors | Q40905868 | ||
Tethering affects the mechanics of coronary capillaries | Q40941384 | ||
Effect of perfusion pressure on force of contraction in thin papillary muscles and trabeculae from rat heart | Q41096975 | ||
Branching patterns in the porcine coronary arterial tree. Estimation of flow heterogeneity. | Q41104788 | ||
Role of ica and Na+/Ca2+ exchange in the force-frequency relationship of rat heart muscle | Q41131224 | ||
Microvascular pressures and resistances in the left ventricular subepicardium and subendocardium | Q41158484 | ||
Tone-dependent waterfall behavior during venous pressure elevation in isolated canine hearts | Q41177669 | ||
No effect of coronary perfusion on regional myocardial function within the autoregulatory range in pigs. Evidence against the Gregg phenomenon | Q41181467 | ||
Effects of coronary venous pressure on left ventricular diastolic distensibility | Q41206018 | ||
Coronary hyperperfusion and ventricular function in intact and isovolumic pig hearts | Q41224891 | ||
Coronary microvascular responses to reductions in perfusion pressure. Evidence for persistent arteriolar vasomotor tone during coronary hypoperfusion | Q41229268 | ||
Fibrillar collagen and remodeling of dilated canine left ventricle | Q41241058 | ||
Varying elastance concept may explain coronary systolic flow impediment | Q41282045 | ||
Dynamic response of the coronary circulation to a rapid change in its perfusion in the anaesthetized goat | Q41288097 | ||
The effect of acute changes in coronary blood flow on left ventricular end-diastolic wall thickness. An echocardiographic study | Q41314207 | ||
Intramyocardial pressure: interaction of myocardial fluid pressure and fiber stress | Q41319825 | ||
Dynamics of coronary adjustment to a change in heart rate in the anaesthetized goat | Q41323541 | ||
Modelling of aortic stenosis | Q41451729 | ||
From research to clinical practice: current role of intracoronary physiologically based decision making in the cardiac catheterization laboratory | Q41584859 | ||
Oxygen and coronary vascular resistance during autoregulation and metabolic vasodilation in the dog. | Q41594894 | ||
Transmural right ventricular blood flow during acute pulmonary artery hypertension in the sedated dog. Evidence for subendocardial ischemia despite residual vasodilator reserve | Q41622635 | ||
Changes in contractility and afterload have only slight effects on subendocardial systolic flow impediment | Q41653113 | ||
Proportional arteriolar growth accompanies cardiac hypertrophy induced by volume overload | Q41664035 | ||
Inhibition of collagen cross-linking: effects on fibrillar collagen and ventricular diastolic function | Q41670090 | ||
ATP-sensitive K+ channels, adenosine, and nitric oxide-mediated mechanisms account for coronary vasodilation during exercise | Q41714306 | ||
Inhibition of excitation-contraction coupling in the ventricular myocardium of the dog by SKF 24260 | Q41789339 | ||
Static pressure-flow relation in the total systemic vascular bed of the dog and its modification by the baroreceptor reflex | Q41876941 | ||
Collagen degradation in ischaemic rat hearts | Q42022272 | ||
Gigantic variety: expression patterns of titin isoforms in striated muscles and consequences for myofibrillar passive stiffness | Q42452469 | ||
Effect of blood filling in intramyocardial vessels on coronary arterial inflow | Q45297667 | ||
Nonuniform blood flow in the canine left ventricle. | Q45945778 | ||
Effects of increased pressure inside or outside ventricles on total and regional myocardial blood flow | Q46045000 | ||
Can coronary systolic-diastolic flow differences be predicted by left ventricular pressure or time-varying intramyocardial elastance? | Q46101043 | ||
Effects of cardiac contraction and cavity pressure on myocardial blood flow | Q46152499 | ||
Maximal vascular conductance in right ventricular myocardial circulation | Q46202708 | ||
Influence of cardiac contraction and coronary vasomotor tone on regional myocardial blood flow | Q46373038 | ||
Three-dimensional transmural mechanical interaction between the coronary vasculature and passive myocardium in the dog. | Q46443524 | ||
Metabolic communication from cardiac myocytes to vascular endothelial cells | Q46446119 | ||
Coronary microcirculatory vasoconstriction is heterogeneously distributed in acutely ischemic myocardium | Q46446122 | ||
The coronary vasculature and its reconstruction | Q46490864 | ||
Morphometry of pig coronary venous system | Q46545284 | ||
Profound spatial heterogeneity of coronary reserve. Discordance between patterns of resting and maximal myocardial blood flow | Q46646575 | ||
Contribution of collagen matrix to passive left ventricular mechanics in isolated rat hearts | Q46924770 | ||
Physiologic basis for assessing critical coronary stenosis. Instantaneous flow response and regional distribution during coronary hyperemia as measures of coronary flow reserve | Q47896647 | ||
Effect of increased coronary venous pressure on left ventricular function in sheep | Q50159374 | ||
Tortuosity of coronary arteries in chronic pressure and volume overload. | Q51021076 | ||
Functional hierarchy of coronary circulation: direct evidence of a structure-function relation. | Q51368837 | ||
Dynamics of flow velocities in endocardial and epicardial coronary arterioles. | Q51579670 | ||
Cardiac contraction and intramyocardial venous pressure generation in the anaesthetized dog. | Q51622561 | ||
Pressure-derived measurement of coronary flow reserve. | Q51980188 | ||
Balance between myogenic, flow-dependent, and metabolic flow control in coronary arterial tree: a model study. | Q52040827 | ||
The fractal nature of myocardial blood flow emerges from a whole-organ model of arterial network. | Q52074735 | ||
Myogenic reactivity and resistance distribution in the coronary arterial tree: a model study. | Q52079565 | ||
Generation of an anatomically based geometric coronary model. | Q52082662 | ||
Diameter variability and microvascular flow resistance. | Q52262928 | ||
Morphometry of pig coronary arterial trees. | Q52394314 | ||
Coronary flow patterns in normal and ischemic hearts: transmyocardial and artery to vein distribution. | Q52394678 | ||
Profound structural alterations of the extracellular collagen matrix in postischemic dysfunctional ("stunned") but viable myocardium. | Q52494345 | ||
Model of the coronary circulation based on pressure dependence of coronary resistance and compliance. | Q52552903 | ||
Isotropy and anisotropy of the arterial wall. | Q52579690 | ||
Characterization of capacitance-free pressure-flow relations during single diastoles in dogs using an RC model with pressure-dependent parameters. | Q52604891 | ||
Interaction between intramyocardial pressure (IMP) and myocardial circulation. | Q52676504 | ||
Interpretation and physiological significance of diastolic coronary artery pressure-flow relationships in the canine coronary bed. | Q52690190 | ||
Interfacial tension effects in the microvasculature | Q52732690 | ||
Heterogeneity of coronary blood flow in human coronary artery disease and experimental myocardial infarction | Q52744775 | ||
Functional changes in coronary microcirculation after valve replacement in patients with aortic stenosis. | Q53650374 | ||
Identification of canine coronary resistance and intramyocardial compliance on the basis of the waterfall model. | Q53680630 | ||
Right coronary pressure modulates right ventricular systolic stiffness and oxygen consumption. | Q53702138 | ||
Coronary pressure-flow relation in left ventricular hypertrophy. Importance of changes in back pressure versus changes in minimum resistance. | Q53853851 | ||
Subendocardial and subepicardial pressure-flow relations in the rat heart in diastolic and systolic arrest. | Q53899781 | ||
EFFECT OF CORONARY PERFUSION PRESSURE OR CORONARY FLOW ON OXYGEN USAGE OF THE MYOCARDIUM. | Q53918201 | ||
Response of the intact canine left ventricle to increased afterload and increased coronary perfusion pressure in the presence of coronary flow autoregulation. | Q53924242 | ||
Two different coronary blood flow velocity patterns in thrombolysis in myocardial infarction flow grade 2 in acute myocardial infarction: insight into mechanisms of microvascular dysfunction. | Q53949618 | ||
Influence of hemodynamic conditions on fractional flow reserve: parametric analysis of underlying model. | Q53958747 | ||
Changes in myocardial fluid filtration are reflected in epicardial lymph pressure. | Q53973740 | ||
Combined high-speed NMR imaging of perfusion and microscopic coronary conductance vessels in the isolated rat heart. | Q53990060 | ||
Transients in myocardial O2 consumption after abrupt changes in perfusion pressure in goats. | Q53992112 | ||
Left ventricular pressure transmission to myocardial lymph vessels is different during systole and diastole. | Q54047219 | ||
Effect of coronary stenosis on phasic pattern of septal artery in dogs. | Q54063284 | ||
P433 | issue | 4 | |
P304 | page(s) | 1263-1308 | |
P577 | publication date | 2006-10-01 | |
P1433 | published in | Physiological Reviews | Q1091827 |
P1476 | title | Cross-talk between cardiac muscle and coronary vasculature | |
P478 | volume | 86 |
Q50917695 | A computationally efficient framework for the simulation of cardiac perfusion using a multi-compartment Darcy porous-media flow model. |
Q34212184 | A full 3-D reconstruction of the entire porcine coronary vasculature |
Q36902557 | A mathematical model of coronary blood flow control: simulation of patient-specific three-dimensional hemodynamics during exercise |
Q41848770 | A novel porous mechanical framework for modelling the interaction between coronary perfusion and myocardial mechanics |
Q46493916 | A pharmacologic activator of endothelial KCa channels enhances coronary flow in the hearts of type 2 diabetic rats |
Q90316030 | ATP- and voltage-dependent electro-metabolic signaling regulates blood flow in heart |
Q40498893 | Adenosine A2A and A2B Receptor Substantially Attenuate Ischemia/Reperfusion Injury in Septic rat Hearts |
Q38139089 | Antagonist molecules in the treatment of angina |
Q43462207 | Cardiac myocyte p38α kinase regulates angiogenesis via myocyte-endothelial cell cross-talk during stress-induced remodeling in the heart |
Q55283995 | Changes in contractility determine coronary haemodynamics in dyssynchronous left ventricular heart failure, not vice versa. |
Q36844558 | Changes in regional myocardial volume during the cardiac cycle: implications for transmural blood flow and cardiac structure |
Q47894246 | Chronic hypertension increases aortic endothelial hydraulic conductivity by upregulating endothelial aquaporin-1 expression |
Q58472382 | Comparison of arterial waves derived by classical wave separation and wave intensity analysis in a model of aortic coarctation |
Q92643229 | Coronary Microcirculation in Aortic Stenosis |
Q35589548 | Coronary arterioles in type 2 diabetic (db/db) mice undergo a distinct pattern of remodeling associated with decreased vessel stiffness |
Q52412184 | Coronary autoregulation and assessment of stenosis severity without pharmacological vasodilation. |
Q35902372 | Coronary collaterals provide a constant scaffold effect on the left ventricle and limit ischemic left ventricular dysfunction in humans |
Q37216087 | Coronary flow reserve from mouse to man--from mechanistic understanding to future interventions |
Q33325522 | Coronary microcirculation in the beating heart |
Q40113536 | Coronary microcirculatory dysfunction is associated with left ventricular dysfunction during follow-up after STEMI. |
Q30487553 | Coronary microvascular resistance: methods for its quantification in humans |
Q37917169 | Coronary pressure-flow relations as basis for the understanding of coronary physiology |
Q22242677 | Coronary structure and perfusion in health and disease |
Q37469693 | Coupling contraction, excitation, ventricular and coronary blood flow across scale and physics in the heart. |
Q40382874 | Development of an In Vitro Model to Characterize the Effects of Transcatheter Aortic Valve on Coronary Artery Flow |
Q36366820 | Dynamic micro- and macrovascular remodeling in coronary circulation of obese Ossabaw pigs with metabolic syndrome |
Q99404624 | Effects of Mechanical Dyssynchrony on Coronary Flow: Insights From a Computational Model of Coupled Coronary Perfusion With Systemic Circulation |
Q50868276 | Effects of myocardial constraint on the passive mechanical behaviors of the coronary vessel wall. |
Q37220205 | Endocardial-epicardial distribution of myocardial perfusion reserve assessed by multidetector computed tomography in symptomatic patients without significant coronary artery disease: insights from the CORE320 multicentre study. |
Q35619418 | Flow regulation in coronary vascular tree: a model study |
Q39241482 | Flow velocity is relatively uniform in the coronary sinusal venous tree: structure-function relation. |
Q35022284 | Folic acid improves acetylcholine-induced vasoconstriction of coronary vessels isolated from hyperhomocysteinemic mice: an implication to coronary vasospasm |
Q63915302 | GLP-1 Is a Coronary Artery Vasodilator in Humans |
Q37868929 | Heart rate: a forgotten link in coronary artery disease? |
Q58472250 | Hemodynamic Effects of Epicardial Stenoses |
Q30361084 | Hemodynamics. |
Q40711617 | Hypertension and coronary artery disease: epidemiology, physiology, effects of treatment, and recommendations : A joint scientific statement from the Austrian Society of Cardiology and the Austrian Society of Hypertension |
Q46113482 | Impact of alcohol septal ablation on left anterior descending coronary artery blood flow in hypertrophic obstructive cardiomyopathy |
Q37410175 | In silico coronary wave intensity analysis: application of an integrated one-dimensional and poromechanical model of cardiac perfusion. |
Q37691970 | Integrating in vitro organ-specific function with the microcirculation |
Q46725738 | Integrative control of coronary resistance vessel tone by endothelin and angiotensin II is altered in swine with a recent myocardial infarction |
Q41810595 | Intraoperative left subclavian artery occlusion with left hand ischaemia and steal syndrome in the left internal thoracic artery |
Q90728973 | Local metabolic hypothesis is not sufficient to explain coronary autoregulatory behavior |
Q38540388 | Measurement and modeling of coronary blood flow. |
Q33727590 | Mechanisms of myocardium-coronary vessel interaction |
Q58472347 | Minimal effect of collateral flow on coronary microvascular resistance in the presence of intermediate and noncritical coronary stenoses |
Q39627165 | Model prediction of subendocardial perfusion of the coronary circulation in the presence of an epicardial coronary artery stenosis |
Q58694221 | Morphometric Reconstruction of Coronary Vasculature Incorporating Uniformity of Flow Dispersion |
Q54501570 | Multi-scale parameterisation of a myocardial perfusion model using whole-organ arterial networks. |
Q26751197 | Multiphysics and multiscale modelling, data-model fusion and integration of organ physiology in the clinic: ventricular cardiac mechanics |
Q38124722 | Myocardial perfusion distribution and coronary arterial pressure and flow signals: clinical relevance in relation to multiscale modeling, a review |
Q33571237 | Nitric oxide and coronary vascular endothelium adaptations in hypertension |
Q42512913 | Obestatin regulates cardiovascular function and promotes cardioprotection through the nitric oxide pathway |
Q90108883 | Overview of mathematical modeling of myocardial blood flow regulation |
Q26827707 | Pathophysiology of coronary collaterals |
Q38111280 | Peripheral circulation |
Q91961601 | Pharmacological Targeting of KCa Channels to Improve Endothelial Function in the Spontaneously Hypertensive Rat |
Q47839310 | Plasma detection of NO by a catheter |
Q34979833 | Postinfarction healing dynamics in the mechanically unloaded rat left ventricle |
Q58472387 | Potential and limitations of wave intensity analysis in coronary arteries |
Q37401196 | Prenatal cocaine exposure causes sex-dependent impairment in the myogenic reactivity of coronary arteries in adult offspring |
Q35834465 | Pulmonary endarterectomy normalizes interventricular dyssynchrony and right ventricular systolic wall stress |
Q47164538 | Quantifying Myocardial Contractility Changes Using Ultrasound-Based Shear Wave Elastography |
Q33728053 | Quantitative analysis of exercise-induced enhancement of early- and late-systolic retrograde coronary blood flow |
Q38336680 | RV diastolic dysfunction: time to re-evaluate its importance in heart failure. |
Q34068784 | Recent advances in the management of chronic stable angina I: Approach to the patient, diagnosis, pathophysiology, risk stratification, and gender disparities |
Q50949282 | Regulation of Coronary Blood Flow. |
Q37216075 | Regulation of coronary blood flow during exercise |
Q38158224 | Role of ion channels in coronary microcirculation: a review of the literature |
Q36529014 | SKA-31, a novel activator of SK(Ca) and IK(Ca) channels, increases coronary flow in male and female rat hearts |
Q45916775 | Scalability and in vivo validation of a multiscale numerical model of the left coronary circulation. |
Q40537387 | Significance of microvascular remodelling for the vascular flow reserve in hypertension |
Q42149439 | Sildenafil and B-type natriuretic peptide acutely phosphorylate titin and improve diastolic distensibility in vivo |
Q36042630 | Slackness between vessel and myocardium is necessary for coronary flow reserve |
Q34892722 | Soluble guanylate cyclase is required for systemic vasodilation but not positive inotropy induced by nitroxyl in the mouse. |
Q37138987 | Stress phase angle depicts differences in coronary artery hemodynamics due to changes in flow and geometry after percutaneous coronary intervention |
Q64376636 | Structural stability of neoangiogenic intramyocardial microvessels supports functional recovery in chronic ischemic myocardium |
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