scholarly article | Q13442814 |
P2093 | author name string | Brett S Kirby | |
Frank A Dinenno | |||
Rick E Carlson | |||
Wyatt F Voyles | |||
William G Schrage | |||
Carrie B Simpson | |||
P2860 | cites work | Reductions in basal limb blood flow and vascular conductance with human ageing: role for augmented alpha-adrenergic vasoconstriction | Q28363251 |
L-ascorbic acid potentiates endothelial nitric oxide synthesis via a chemical stabilization of tetrahydrobiopterin | Q31448793 | ||
Mechanical compression elicits vasodilatation in rat skeletal muscle feed arteries | Q33234662 | ||
Evidence for impaired skeletal muscle contraction-induced rapid vasodilation in aging humans | Q33321836 | ||
Primary endothelial dysfunction: atherosclerosis | Q33540182 | ||
Age-related reduction of NO availability and oxidative stress in humans | Q33954093 | ||
Direct evidence of endothelial oxidative stress with aging in humans: relation to impaired endothelium-dependent dilation and upregulation of nuclear factor-kappaB. | Q34625472 | ||
Vasodilatory mechanisms in contracting skeletal muscle | Q35819024 | ||
Blood flow to exercising limbs varies with age, gender, and training status | Q36315451 | ||
Vasodilation and vascular control in contracting muscle of the aging human | Q36447827 | ||
Exercise hyperaemia: magnitude and aspects on regulation in humans | Q36886647 | ||
Regulation of muscle sympathetic nerve activity during exercise in humans | Q37441046 | ||
Oxidation of ascorbic acid with superoxide anion generated by the xanthine-xanthine oxidase system | Q40314919 | ||
Endothelial dysfunction in coronary artery disease | Q40898007 | ||
Role of endothelium in thrombosis and hemostasis | Q41036404 | ||
Importance of endothelial function in chronic heart failure | Q41045835 | ||
Skeletal muscle blood flow in humans and its regulation during exercise | Q41760252 | ||
Differential effects of aging on limb blood flow in humans | Q43802011 | ||
Evidence for agonist-specific endothelial vasodilator dysfunction with ageing in healthy humans | Q44049319 | ||
Aging and forearm postjunctional alpha-adrenergic vasoconstriction in healthy men. | Q44131319 | ||
Cytochrome P450 2C9 plays an important role in the regulation of exercise-induced skeletal muscle blood flow and oxygen uptake in humans | Q44267774 | ||
Failure of Systemic Hypoxia to Blunt α‐Adrenergic Vasoconstriction in the Human Forearm | Q44429412 | ||
Blunted sympathetic vasoconstriction in contracting skeletal muscle of healthy humans: is nitric oxide obligatory? | Q44569252 | ||
Increase in endothelial cell Ca(2+) in response to mouse cremaster muscle contraction | Q44705243 | ||
Effect of acute and chronic ascorbic acid on flow-mediated dilatation with sedentary and physically active human ageing | Q44750431 | ||
Local inhibition of nitric oxide and prostaglandins independently reduces forearm exercise hyperaemia in humans | Q44816935 | ||
Vasodilatation is obligatory for contraction-induced hyperaemia in canine skeletal muscle | Q44836772 | ||
Combined NO and PG inhibition augments alpha-adrenergic vasoconstriction in contracting human skeletal muscle | Q44991344 | ||
Heterogeneous vasodilator responses of human limbs: influence of age and habitual endurance training | Q46391041 | ||
Vascular and metabolic response to isolated small muscle mass exercise: effect of age. | Q46477352 | ||
Graded sympatholytic effect of exogenous ATP on postjunctional alpha-adrenergic vasoconstriction in the human forearm: implications for vascular control in contracting muscle | Q46490402 | ||
Impaired modulation of sympathetic alpha-adrenergic vasoconstriction in contracting forearm muscle of ageing men. | Q46537525 | ||
Vascular and metabolic response to cycle exercise in sedentary humans: effect of age. | Q46648967 | ||
Rapid dilation of arterioles with single contraction of hamster skeletal muscle | Q46650383 | ||
Tetrahydrobiopterin augments endothelium-dependent dilatation in sedentary but not in habitually exercising older adults | Q46685929 | ||
Ageing diminishes endothelium-dependent vasodilatation and tetrahydrobiopterin content in rat skeletal muscle arterioles | Q46862881 | ||
Vitamin C blocks vascular dysfunction and release of interleukin-6 induced by endothelin-1 in humans in vivo | Q46983061 | ||
Immediate exercise hyperemia in humans is contraction intensity dependent: evidence for rapid vasodilation. | Q47423843 | ||
Autonomic control of skeletal muscle blood flow at the onset of exercise. | Q51433217 | ||
Potassium initiates vasodilatation induced by a single skeletal muscle contraction in hamster cremaster muscle. | Q51798975 | ||
Age and flow-mediated dilation: a comparison of dilatory responsiveness in the brachial and popliteal arteries. | Q53592292 | ||
Impaired leg vasodilation during dynamic exercise in healthy older women. | Q53652766 | ||
Rapid vasodilation in response to a brief tetanic muscle contraction. | Q53689519 | ||
Age-dependent changes of antioxidant activities and markers of free radical damage in human skeletal muscle. | Q53705528 | ||
Combined inhibition of nitric oxide and prostaglandins reduces human skeletal muscle blood flow during exercise | Q57024655 | ||
Inhibition of nitric oxide and prostaglandins, but not endothelial-derived hyperpolarizing factors, reduces blood flow and aerobic energy turnover in the exercising human leg | Q60637885 | ||
Physical activity prevents age-related impairment in nitric oxide availability in elderly athletes | Q73929745 | ||
Forearm blood flow responses to handgripping after local neuromuscular blockade | Q74222057 | ||
Regular aerobic exercise prevents and restores age-related declines in endothelium-dependent vasodilation in healthy men | Q74332653 | ||
EFFECT OF A BRIEF CONTRACTION OF FOREARM MUSCLES ON FOREARM BLOOD FLOW | Q76681468 | ||
Effects of acetylcholine and nitric oxide on forearm blood flow at rest and after a single muscle contraction | Q77648890 | ||
Ageing reduces nitric-oxide- and prostaglandin-mediated vasodilatation in exercising humans | Q79396999 | ||
Electron paramagnetic spectroscopic evidence of exercise-induced free radical accumulation in human skeletal muscle | Q79964072 | ||
Mechanical influences on skeletal muscle vascular tone in humans: insight into contraction-induced rapid vasodilatation | Q80313691 | ||
Endothelin-1 vasoconstrictor tone increases with age in healthy men but can be reduced by regular aerobic exercise | Q80495474 | ||
P433 | issue | Pt 9 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | endothelium | Q111140 |
vasodilation | Q14859627 | ||
P304 | page(s) | 1989-2003 | |
P577 | publication date | 2009-03-23 | |
P1433 | published in | Journal of Physiology | Q7743612 |
P1476 | title | Endothelium-dependent vasodilatation and exercise hyperaemia in ageing humans: impact of acute ascorbic acid administration | |
P478 | volume | 587 |
Q35859302 | Acute ascorbic acid ingestion increases skeletal muscle blood flow and oxygen consumption via local vasodilation during graded handgrip exercise in older adults |
Q34980495 | Acute dietary nitrate supplementation enhances compensatory vasodilation during hypoxic exercise in older adults. |
Q35876519 | Acute reversal of endothelial dysfunction in the elderly after antioxidant consumption |
Q40160831 | Acute supplementation of N-acetylcysteine does not affect muscle blood flow and oxygenation characteristics during handgrip exercise. |
Q42473055 | Advanced age protects microvascular endothelium from aberrant Ca(2+) influx and cell death induced by hydrogen peroxide |
Q61446549 | Age and sex differences in sympathetic and hemodynamic responses to hypoxia and cold pressor test |
Q51764062 | Age-associated impairments in contraction-induced rapid onset vasodilatation within the forearm are independent of mechanical factors. |
Q83333050 | Ageing reduces the compensatory vasodilatation during hypoxic exercise: the role of nitric oxide |
Q64911047 | Ageing, exercise and cardiovascular health: good and bad news. |
Q37161071 | Aging impairs electrical conduction along endothelium of resistance arteries through enhanced Ca2+-activated K+ channel activation |
Q35921753 | Aging is associated with altered vasodilator kinetics in dynamically contracting muscle: role of nitric oxide |
Q90005528 | Antioxidant supplements and endurance exercise: Current evidence and mechanistic insights |
Q37430894 | Antioxidants and aging: NMR-based evidence of improved skeletal muscle perfusion and energetics |
Q37346053 | Ascorbate infusion increases skeletal muscle fatigue resistance in patients with chronic obstructive pulmonary disease. |
Q35588695 | Ascorbic acid attenuates the pressor response to voluntary apnea in postmenopausal women |
Q34297397 | Ascorbic acid does not enhance hypoxia-induced vasodilation in healthy older men. |
Q36902352 | Ascorbic acid improves brachial artery vasodilation during progressive handgrip exercise in the elderly through a nitric oxide-mediated mechanism |
Q85103251 | Attenuated exercise induced hyperaemia with age: mechanistic insight from passive limb movement |
Q84226900 | Augmented skeletal muscle hyperaemia during hypoxic exercise in humans is blunted by combined inhibition of nitric oxide and vasodilating prostaglandins |
Q38995845 | Calcium and electrical signaling in arterial endothelial tubes: New insights into cellular physiology and cardiovascular function |
Q34548327 | Capillary endothelial cells as coordinators of skeletal muscle blood flow during active hyperemia |
Q38693262 | Cardiovascular Adaptations to Exercise Training |
Q36965782 | Chronic endurance exercise training offsets the age-related attenuation in contraction-induced rapid vasodilation. |
Q87153080 | Contracting human skeletal muscle maintains the ability to blunt α1 -adrenergic vasoconstriction during KIR channel and Na(+) /K(+) -ATPase inhibition |
Q37093962 | Contribution of nitric oxide in the contraction-induced rapid vasodilation in young and older adults |
Q50439062 | Differential effects of age and type 2 diabetes on dynamic vs. peak response of pulmonary oxygen uptake during exercise |
Q57601903 | Eccentric exercise slows in vivo microvascular reactivity during brief contractions in human skeletal muscle |
Q35945529 | Effect of antioxidants on histamine receptor activation and sustained postexercise vasodilatation in humans |
Q34519025 | Effect of vitamin C on hyperoxia-induced vasoconstriction in exercising skeletal muscle. |
Q36530987 | Effects of aging and exercise training on skeletal muscle blood flow and resistance artery morphology |
Q46730258 | Effects of modest hyperoxia and oral vitamin C on exercise hyperaemia and reactive hyperaemia in healthy young men. |
Q37643493 | Evidence of a metabolic reserve in the skeletal muscle of elderly people. |
Q34201108 | Exercise-mediated vasodilation in human obesity and metabolic syndrome: effect of acute ascorbic acid infusion. |
Q48192505 | Folic acid ingestion improves skeletal muscle blood flow during graded handgrip and plantar flexion exercise in aged humans. |
Q34153748 | Heterogeneous vascular responses to hypoxic forearm exercise in young and older adults |
Q38629795 | Human cerebral blood flow control during hypoxia: focus on chronic pulmonary obstructive disease (COPD) and obstructive sleep apnea (OSA). |
Q46375024 | Impact of Aging on Calcium Signaling and Membrane Potential in Endothelium of Resistance Arteries: A Role for Mitochondria |
Q37666914 | Impact of polyphenol antioxidants on cycling performance and cardiovascular function |
Q36086617 | Impaired skeletal muscle blood flow control with advancing age in humans: attenuated ATP release and local vasodilation during erythrocyte deoxygenation |
Q28596757 | Increased ventilatory response to carbon dioxide in COPD patients following vitamin C administration |
Q90015282 | Induced Trf2 deletion leads to aging vascular phenotype in mice associated with arterial telomere uncapping, senescence signaling, and oxidative stress |
Q36320953 | Influence of α-adrenergic vasoconstriction on the blunted skeletal muscle contraction-induced rapid vasodilation with aging |
Q45989131 | Keeping the juices flowing with age: vitamin C and exercise hyperaemia. |
Q58091614 | Lack of age-specific influence on leg blood flow during incremental calf plantar-flexion exercise in men and women |
Q44738481 | Lifelong physical activity prevents an age-related reduction in arterial and skeletal muscle nitric oxide bioavailability 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 |
Q58565537 | Microvascular Mechanisms Limiting Skeletal Muscle Blood Flow with Advancing Age |
Q37234966 | Microvascular function in younger adults with obesity and metabolic syndrome: role of oxidative stress |
Q83842055 | Modulation of postjunctional α-adrenergic vasoconstriction during exercise and exogenous ATP infusions in ageing humans |
Q34994570 | NAD(P)H oxidase-derived reactive oxygen species contribute to age-related impairments of endothelium-dependent dilation in rat soleus feed arteries |
Q38130310 | Nitric oxide and reactive oxygen species in limb vascular function: what is the effect of physical activity? |
Q34357850 | Nitric oxide, but not vasodilating prostaglandins, contributes to the improvement of exercise hyperemia via ascorbic acid in healthy older adults |
Q26776523 | Nitroxide pharmaceutical development for age-related degeneration and disease |
Q35217467 | Oral atorvastatin therapy increases nitric oxide-dependent cutaneous vasodilation in humans by decreasing ascorbate-sensitive oxidants |
Q37627485 | Oxidative stress and COPD: the effect of oral antioxidants on skeletal muscle fatigue |
Q35178663 | Passive leg movement and nitric oxide-mediated vascular function: the impact of age. |
Q38111280 | Peripheral circulation |
Q38890471 | Peripheral vascular function, oxygen delivery and utilization: the impact of oxidative stress in aging and heart failure with reduced ejection fraction |
Q47855023 | Phosphodiesterase-5 inhibition preserves exercise-onset vasodilator kinetics when NOS activity is reduced. |
Q27307929 | Preserved Microvascular Endothelial Function in Young, Obese Adults with Functional Loss of Nitric Oxide Signaling |
Q36036504 | Rapid onset vasodilation with single muscle contractions in the leg: influence of age. |
Q83385004 | Reactive oxygen species enter the tug-of-war between metabolic vasodilatation and sympathetic vasoconstriction |
Q36993426 | Reduced muscle oxidative capacity is independent of O2 availability in elderly people |
Q42376408 | Regulation of exercise blood flow: Role of free radicals |
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 |
Q46587342 | Resveratrol blunts the positive effects of exercise training on cardiovascular health in aged men. |
Q82741723 | Rethinking the role of superoxide in the ageing skeletal muscle vasculature |
Q83429290 | Retrograde flow components in the brachial artery. A new hemodynamic index |
Q45904776 | Role of α-adrenergic vasoconstriction in regulating skeletal muscle blood flow and vascular conductance during forearm exercise in ageing humans. |
Q43282892 | Run for your life: exercise, oxidative stress and the ageing endothelium |
Q48339628 | Signalling of vasodilatation across an exercise transient. |
Q38034464 | Spreading the signal for vasodilatation: implications for skeletal muscle blood flow control and the effects of ageing. |
Q38849070 | Sympathetic nervous system activation reduces contraction-induced rapid vasodilation in the leg of humans independent of age. |
Q36206593 | Systemic vascular function is associated with muscular power in older adults |
Q36348267 | The impact of age on vascular smooth muscle function in humans |
Q83129616 | The paradox of oxidative stress and exercise with advancing age |
Q42921063 | Vasodilatory responsiveness to adenosine triphosphate in ageing humans |
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