scholarly article | Q13442814 |
P2093 | author name string | Brett S Kirby | |
Frank A Dinenno | |||
Rick E Carlson | |||
Wyatt F Voyles | |||
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Exogenous NO administration and alpha-adrenergic vasoconstriction in human limbs | Q33188181 | ||
The red blood cell as an oxygen sensor: what is the evidence? | Q33888508 | ||
ATP-induced vasodilation in human skeletal muscle | Q35046189 | ||
Red blood cell-derived ATP as a regulator of skeletal muscle perfusion | Q35621214 | ||
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ATP-sensitive potassium channels mediate contraction-induced attenuation of sympathetic vasoconstriction in rat skeletal muscle. | Q37367976 | ||
Overflow of catecholamine neurotransmitters to the circulation: source, fate, and functions | Q37601429 | ||
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Role of erythrocyte in regulating local O2 delivery mediated by hemoglobin oxygenation | Q43610552 | ||
Is sympathetic neural vasoconstriction blunted in the vascular bed of exercising human muscle? | Q44013303 | ||
Attenuated vascular responsiveness to noradrenaline release during dynamic exercise in dogs | Q44013306 | ||
Aging and forearm postjunctional alpha-adrenergic vasoconstriction in healthy men. | Q44131319 | ||
Erythrocyte and the regulation of human skeletal muscle blood flow and oxygen delivery: role of circulating ATP. | Q44232562 | ||
alpha1- and alpha2-adrenergic vasoconstriction is blunted in contracting human muscle | Q44317055 | ||
Blunted sympathetic vasoconstriction in contracting skeletal muscle of healthy humans: is nitric oxide obligatory? | Q44569252 | ||
Circulating ATP-induced vasodilatation overrides sympathetic vasoconstrictor activity in human skeletal muscle | Q44904872 | ||
Combined NO and PG inhibition augments alpha-adrenergic vasoconstriction in contracting human skeletal muscle | Q44991344 | ||
Inhibition of KATP channel activity augments baroreflex-mediated vasoconstriction in exercising human skeletal muscle | Q45042747 | ||
Impaired modulation of sympathetic alpha-adrenergic vasoconstriction in contracting forearm muscle of ageing men. | Q46537525 | ||
During hypoxic exercise some vasoconstriction is needed to match O2 delivery with O2 demand at the microcirculatory level | Q46954388 | ||
Nitric oxide-dependent modulation of sympathetic neural control of oxygenation in exercising human skeletal muscle. | Q49148880 | ||
Interaction between sympathetic nerve activation and muscle fibre contraction in resistance vessels of hamster retractor muscle. | Q51837145 | ||
Microvascular response to blockade of prostaglandin synthesis in rat skeletal muscle. | Q51860523 | ||
Deformation-induced ATP release from red blood cells requires CFTR activity. | Q54117015 | ||
Characterization of ATP-induced vasodilation in the human forearm vascular bed. | Q54193800 | ||
Resistance or conductance for expression of arterial vascular tone. | Q54358451 | ||
Maximal muscular vascular conductances during whole body upright exercise in humans | Q58818190 | ||
Release of ATP from human erythrocytes in response to a brief period of hypoxia and hypercapnia | Q67503213 | ||
Interactions between alpha-adrenoceptors and adenosine receptors on microvascular smooth muscle | Q67916564 | ||
Regional vascular resistance vs. conductance: which index for baroreflex responses? | Q68201043 | ||
Differential sensitivity of arteriolar alpha 1- and alpha 2-adrenoceptor constriction to metabolic inhibition during rat skeletal muscle contraction | Q68241246 | ||
A dual function for adenosine 5'-triphosphate in the regulation of vascular tone. Excitatory cotransmitter with noradrenaline from perivascular nerves and locally released inhibitory intravascular agent | Q70142019 | ||
The erythrocyte as a regulator of vascular tone | Q70986072 | ||
Inhibition of alpha 2-adrenergic vasoconstriction during contraction of glycolytic, not oxidative, rat hindlimb muscle | Q72675196 | ||
Gender differences in sensitivity to adrenergic agonists of forearm resistance vasculature | Q73069737 | ||
Having it both ways? Vasoconstriction in contracting muscles | Q73459148 | ||
Effect of sympathoinhibition on exercise performance in patients with heart failure | Q73542981 | ||
Metabolic modulation of sympathetic vasoconstriction in human skeletal muscle: role of tissue hypoxia | Q74257999 | ||
Nitric oxide mediates contraction-induced attenuation of sympathetic vasoconstriction in rat skeletal muscle | Q74315971 | ||
Blood pressure during supine exercise in idiopathic orthostatic hypotension | Q79068596 | ||
Functional sympatholysis during muscular activity. Observations on influence of carotid sinus on oxygen uptake | Q79635280 | ||
Effects of ATP-induced leg vasodilation on VO2 peak and leg O2 extraction during maximal exercise in humans | Q80128662 | ||
Ageing and leg postjunctional alpha-adrenergic vasoconstrictor responsiveness in healthy men | Q80226402 | ||
Mechanical effects of muscle contraction do not blunt sympathetic vasoconstriction in humans | Q81795827 | ||
P433 | issue | 17 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | vasoconstriction | Q1067506 |
P304 | page(s) | 4305-4316 | |
P577 | publication date | 2008-07-10 | |
P1433 | published in | Journal of Physiology | Q7743612 |
P1476 | title | Graded sympatholytic effect of exogenous ATP on postjunctional alpha-adrenergic vasoconstriction in the human forearm: implications for vascular control in contracting muscle | |
P478 | volume | 586 |
Q38019919 | ATP as a mediator of erythrocyte-dependent regulation of skeletal muscle blood flow and oxygen delivery in humans |
Q37668494 | ATP metabolism in skeletal muscle arterioles. |
Q46178223 | ATP-induced vasodilation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins, and adenosine |
Q84552796 | ATP-mediated vasodilatation occurs via activation of inwardly rectifying potassium channels in humans |
Q46395479 | ATP: a double-edged signalling molecule regulating the flow of oxygen |
Q44585114 | Activation of ATP/UTP-selective receptors increases blood flow and blunts sympathetic vasoconstriction in human skeletal muscle |
Q23919099 | Acute dilation to alpha(2)-adrenoceptor antagonists uncovers dual constriction and dilation mediated by arterial alpha(2)- adrenoceptors |
Q37391915 | Adenosine receptor antagonist and augmented vasodilation during hypoxic exercise |
Q34304875 | Adrenergic receptor activation involves ATP release and feedback through purinergic receptors |
Q84226900 | Augmented skeletal muscle hyperaemia during hypoxic exercise in humans is blunted by combined inhibition of nitric oxide and vasodilating prostaglandins |
Q37308947 | Blood temperature and perfusion to exercising and non-exercising human limbs. |
Q38693262 | Cardiovascular Adaptations to Exercise Training |
Q51717573 | Chronic hypoxia increases arterial blood pressure and reduces adenosine and ATP induced vasodilatation in skeletal muscle in healthy humans. |
Q87153080 | Contracting human skeletal muscle maintains the ability to blunt α1 -adrenergic vasoconstriction during KIR channel and Na(+) /K(+) -ATPase inhibition |
Q37203118 | Differential effects of nebivolol versus metoprolol on functional sympatholysis in hypertensive humans |
Q34447030 | Disparity in regional and systemic circulatory capacities: do they affect the regulation of the circulation? |
Q47176957 | Effects of Dăoyĭn Qìgōng in postpolio syndrome patients with cold intolerance |
Q88554643 | Elevated extracellular potassium prior to muscle contraction reduces onset and steady-state exercise hyperemia in humans |
Q46078227 | Endothelium-dependent vasodilatation and exercise hyperaemia in ageing humans: impact of acute ascorbic acid administration |
Q51550205 | Endothelium-dependent vasodilatory signalling modulates α1 -adrenergic vasoconstriction in contracting skeletal muscle of humans. |
Q34426194 | Erythrocyte-dependent regulation of human skeletal muscle blood flow: role of varied oxyhemoglobin and exercise on nitrite, S-nitrosohemoglobin, and ATP. |
Q35043742 | Functional sympatholysis during exercise in patients with type 2 diabetes with intact response to acetylcholine |
Q85838301 | Haemodynamic responses to dehydration in the resting and exercising human leg |
Q34720069 | Hemodynamic responses to heat stress in the resting and exercising human leg: insight into the effect of temperature on skeletal muscle blood flow |
Q88511928 | Impaired modulation of postjunctional α1 - but not α2 -adrenergic vasoconstriction in contracting forearm muscle of postmenopausal women |
Q36086617 | Impaired skeletal muscle blood flow control with advancing age in humans: attenuated ATP release and local vasodilation during erythrocyte deoxygenation |
Q47651108 | Integration of Central and Peripheral Regulation of the Circulation during Exercise: Acute and Chronic Adaptations |
Q30979635 | Intradermal administration of ATP does not mitigate tyramine-stimulated vasoconstriction in human skin. |
Q34296753 | KIR channel activation contributes to onset and steady-state exercise hyperemia in humans |
Q84959282 | Lifelong physical activity preserves functional sympatholysis and purinergic signalling in the ageing human leg |
Q42348099 | Local temperature-sensitive mechanisms are important mediators of limb tissue hyperemia in the heat-stressed human at rest and during small muscle mass exercise |
Q43143590 | Losing control over adenosine 5'-triphosphate release: implications for the red blood cell storage lesion |
Q36787416 | Mechanical effects of muscle contraction increase intravascular ATP draining quiescent and active skeletal muscle in humans |
Q35395499 | Mechanisms of ATP-mediated vasodilation in humans: modest role for nitric oxide and vasodilating prostaglandins |
Q37054924 | Mechanisms of rapid vasodilation after a brief contraction in human skeletal muscle |
Q83842055 | Modulation of postjunctional α-adrenergic vasoconstriction during exercise and exogenous ATP infusions in ageing humans |
Q43268360 | Muscle interstitial ATP and norepinephrine concentrations in the human leg during exercise and ATP infusion |
Q34173595 | Neural control of blood flow during exercise in human metabolic syndrome |
Q34753720 | Nitric oxide-mediated vasodilation becomes independent of beta-adrenergic receptor activation with increased intensity of hypoxic exercise |
Q84102624 | Not a fine wine: the ATP hypothesis may not get better with age |
Q41840262 | Persistence of functional sympatholysis post-exercise in human skeletal muscle |
Q58577734 | Plasma Nucleotide Dynamics during Exercise and Recovery in Highly Trained Athletes and Recreationally Active Individuals |
Q42089069 | Prolonged adenosine triphosphate infusion and exercise hyperemia in humans |
Q39295378 | Purinergic control of red blood cell metabolism: novel strategies to improve red cell storage quality |
Q38533603 | Reduced blood flow to contracting skeletal muscle in ageing humans: is it all an effect of sand through the hourglass? |
Q52146628 | Reflex control of the circulation during exercise. |
Q27001180 | Regulation of increased blood flow (hyperemia) to muscles during exercise: a hierarchy of competing physiological needs |
Q38579190 | Regulation of skeletal muscle blood flow during exercise in ageing humans |
Q33390289 | Role of {alpha}1-adrenergic vasoconstriction in the regulation of skeletal muscle blood flow with advancing age. |
Q33466664 | Skeletal muscle blood flow responses to hypoperfusion at rest and during rhythmic exercise in humans |
Q36788024 | Sources of intravascular ATP during exercise in humans: critical role for skeletal muscle perfusion |
Q48314410 | Sympatholytic effect of intravascular ATP is independent of nitric oxide, prostaglandins, Na+ /K+ -ATPase and KIR channels in humans |
Q41860416 | Temperature-dependent release of ATP from human erythrocytes: mechanism for the control of local tissue perfusion |
Q50426563 | The effect of purinergic P2 receptor blockade on skeletal muscle exercise hyperemia in miniature swine |
Q46317272 | Tripartite function of ATP in vascular signalling |
Q36124885 | Vascular regulation via KIR channels and Na(+)/K(+)-ATPase |
Q42921063 | Vasodilatory responsiveness to adenosine triphosphate in ageing humans |
Q34305319 | α-Adrenergic control of blood flow during exercise: effect of sex and menstrual phase |
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