scholarly article | Q13442814 |
P2093 | author name string | Andersen P | |
Saltin B | |||
P2860 | cites work | Limiting factors for aerobic muscle performance. The influence of varying oxygen pressure and temperature | Q71585453 |
Cardiovascular responses to exercise as functions of absolute and relative work load | Q71766370 | ||
Anthropometric determination of leg fat and muscle plus bone volumes in young male and female adults | Q72540393 | ||
Thermal-Dilution Technics | Q78929839 | ||
Observations in man upon a blood pressure raising reflex arising from the voluntary muscles | Q80329476 | ||
Observations in man on a pulse-accelerating reflex from the voluntary muscles of the legs | Q80329727 | ||
Cardiovascular adaptations to physical training | Q28263236 | ||
The physiological meaning of the maximal oxygen intake test | Q34096628 | ||
Circulatory adjustments to dynamic exercise and effect of physical training in normal subjects and in patients with coronary artery disease | Q39100673 | ||
The Nature of the Training Response; Peripheral and Central Adaptations to One-Legged Exercise | Q39770679 | ||
Human cardiovascular adjustments to exercise and thermal stress | Q39934157 | ||
The Exercise Pressor Reflex: Its Cardiovascular Effects, Afferent Mechanisms, and Central Pathways | Q40148759 | ||
Interaction of O2 and CO2 in sustained exercise hyperemia of canine skeletal muscle | Q40329640 | ||
Influence of Age on the Local Circulatory Adaptation to Leg Exercise | Q47871114 | ||
Blood flow in exercising muscles by xenon clearance and by microsphere trapping. | Q51848958 | ||
Blood flow in thigh muscle during bicycling exercise at varying work rates | Q52716204 | ||
Muscle blood flow during exercise in normal man studied by the 133Xenon clearance method | Q52738515 | ||
Local xenon 133 clearance from the quadriceps muscle during exercise in man. | Q52757090 | ||
Central and peripheral circulatory changes after training of the arms or legs. | Q54647537 | ||
Tissue hyperosmolality as a mediator of vasodilatation and transcapillary fluid flux in exercising skeletal muscle | Q54663088 | ||
Determination of lower leg blood flow in man by thermodilution | Q67232489 | ||
Central and regional circulatory effects of adding arm exercise to leg exercise | Q67706089 | ||
Biochemical adaptations in muscle. Effects of exercise on mitochondrial oxygen uptake and respiratory enzyme activity in skeletal muscle | Q68565257 | ||
Determination of Leg Blood Flow During Exercise in Man: An Indicator-Dilution Technique Based on Femoral Venous Dye Infusion | Q69333700 | ||
Central and regional circulatory adaptations to one-leg training | Q70372852 | ||
Muscular blood flow distribution patterns as a function of running speed in rats | Q70443997 | ||
The continuous thermodilution method for measuring high blood flows | Q70495497 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 233-249 | |
P577 | publication date | 1985-09-01 | |
P1433 | published in | Journal of Physiology | Q7743612 |
P1476 | title | Maximal perfusion of skeletal muscle in man. | |
P478 | volume | 366 |
Q36725870 | 'Fine-tuning' blood flow to the exercising muscle with advancing age: an update |
Q35554449 | 'Idealized' state 4 and state 3 in mitochondria vs. rest and work in skeletal muscle |
Q48249136 | 10-20-30 training increases performance and lowers blood pressure and VEGF in runners |
Q64063356 | A Comparison of Muscle Sympathetic Nerve Activity to Non-contracting Muscle During Isometric Exercise in the Upper and Lower Limbs |
Q47439358 | A Modeling Investigation to the Possible Role of Myoglobin in Human Muscle in Near Infrared Spectroscopy (NIRS) Measurements |
Q33816729 | A definition of normovolaemia and consequences for cardiovascular control during orthostatic and environmental stress. |
Q43723108 | A model of oxidative phosphorylation in mammalian skeletal muscle |
Q50862212 | A new equation to estimate temperature-corrected PaCO2 from PET CO2 during exercise in normoxia and hypoxia. |
Q36203843 | A perspective on the muscle reflex: implications for congestive heart failure |
Q52053222 | A theoretical model for oxygen transport in skeletal muscle under conditions of high oxygen demand. |
Q47906248 | ACE inhibition modifies exercise-induced pro-angiogenic and mitochondrial gene transcript expression |
Q73141654 | AMP deamination and purine exchange in human skeletal muscle during and after intense exercise |
Q46825057 | AMP deamination delays muscle acidification during heavy exercise and hypoxia |
Q44372221 | ATP and heat production in human skeletal muscle during dynamic exercise: higher efficiency of anaerobic than aerobic ATP resynthesis. |
Q38019919 | ATP as a mediator of erythrocyte-dependent regulation of skeletal muscle blood flow and oxygen delivery in humans |
Q43606117 | ATP production and efficiency of human skeletal muscle during intense exercise: effect of previous exercise |
Q46178223 | ATP-induced vasodilation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins, and adenosine |
Q53163966 | Absence of compensatory vasodilation with perfusion pressure challenge in exercise: evidence for and implications of the noncompensator phenotype. |
Q54245157 | Acute and chronic effect of sprint interval training combined with postexercise blood-flow restriction in trained individuals. |
Q35380577 | Acute and chronic effects of surgical thromboendarterectomy on exercise capacity and ventilatory efficiency in patients with chronic thromboembolic pulmonary hypertension |
Q41762321 | Acute inhibition of respiratory capacity of muscle reduces peak oxygen consumption |
Q34158939 | Adenosine and chronic ischemia of the lower limbs |
Q33888518 | Adenosine and nitric oxide in exercise-induced human skeletal muscle vasodilatation |
Q60637913 | Adenosine formation in contracting primary rat skeletal muscle cells and endothelial cells in culture |
Q36473696 | Adjustments of pulmonary O2 uptake and muscle deoxygenation during ramp incremental exercise and constant-load moderate-intensity exercise in young and older adults |
Q36699616 | Advances and challenges in skeletal muscle angiogenesis |
Q33223892 | Aerobic endurance, anatomical factors and time properties of laser Doppler recorded skin postocclusive hyperaemia |
Q30625873 | Aerobic metabolism of human quadriceps muscle: in vivo data parallel measurements on isolated mitochondria |
Q33728033 | Age and sex influence the balance between maximal cardiac output and peripheral vascular reserve |
Q46477403 | Aging attenuates vascular and metabolic plasticity but does not limit improvement in muscle VO(2) max. |
Q43812521 | Allantoin formation and urate and glutathione exchange in human muscle during submaximal exercise. |
Q52811437 | Alpha adrenergic receptor blockade increases capillarization and fractional O2 extraction and lowers blood flow in contracting human skeletal muscle. |
Q46267019 | Alpha-adrenergic and neuropeptide Y Y1 receptor control of collateral circuit conductance: influence of exercise training |
Q58484027 | Altered mitochondrial regulation in quadriceps muscles of patients with COPD |
Q28335312 | Anaerobic energy production and O2 deficit-debt relationship during exhaustive exercise in humans |
Q73653980 | Anaplerotic processes in human skeletal muscle during brief dynamic exercise |
Q44201767 | Arm blood flow and metabolism during arm and combined arm and leg exercise in humans |
Q51306617 | Arm blood flow and oxygenation on the transition from arm to combined arm and leg exercise in humans. |
Q42091819 | Arterial to end-tidal Pco2 difference during exercise in normoxia and severe acute hypoxia: importance of blood temperature correction. |
Q47794770 | Assessment of cardiac output with transpulmonary thermodilution during exercise in humans |
Q81051037 | Association between regional quadriceps oxygenation and blood oxygen saturation during normoxic one-legged dynamic knee extension |
Q37611570 | Association between respiratory muscle strength and reduction of arterial blood pressure levels after aerobic training in hypertensive subjects. |
Q52438762 | Asymmetries of oxygen uptake transients at the on- and offset of heavy exercise in humans |
Q35580999 | Atorvastatin increases exercise leg blood flow in healthy adults |
Q40998707 | Attenuated rapid onset vasodilation with greater force production in skeletal muscle of caveolin-2-/- mice. |
Q54053324 | Attenuation of vasodilatation with skeletal muscle fatigue in hamster retractor. |
Q44489960 | Augmented leg vasoconstriction in dynamically exercising older men during acute sympathetic stimulation |
Q43664590 | BCAA intake affects protein metabolism in muscle after but not during exercise in humans |
Q48058133 | Bengt Saltin (1935-2014). |
Q38783483 | Bengt Saltin and exercise physiology: a perspective |
Q38607101 | Biochemical aspects of peripheral muscle fatigue. A review |
Q36114118 | Blood flow and muscle oxygenation during low, moderate, and maximal sustained isometric contractions |
Q81574649 | Blood flow does not limit skeletal muscle force production during incremental isometric contractions |
Q37557709 | Blood flow rate measurements with indicator techniques revisited. |
Q85654830 | Blood flow regulation: from rest to maximal exercise |
Q51237721 | Blood flow response to muscle contractions is more closely related to metabolic rate than contractile work. |
Q36315451 | Blood flow to exercising limbs varies with age, gender, and training status |
Q38121025 | Blood pressure regulation II: what happens when one system must serve two masters--oxygen delivery and pressure regulation? |
Q37136667 | Blood pressure regulation III: what happens when one system must serve two masters: temperature and pressure regulation? |
Q37421752 | Blood pressure regulation during exercise |
Q37308947 | Blood temperature and perfusion to exercising and non-exercising human limbs. |
Q42481829 | Bolus arginine supplementation affects neither muscle blood flow nor muscle protein synthesis in young men at rest or after resistance exercise |
Q45122829 | Cadence and performance in elite cyclists |
Q73300519 | Caffeine ingestion does not alter carbohydrate or fat metabolism in human skeletal muscle during exercise |
Q38995845 | Calcium and electrical signaling in arterial endothelial tubes: New insights into cellular physiology and cardiovascular function |
Q30434965 | Calf muscle perfusion at peak exercise in peripheral arterial disease: measurement by first-pass contrast-enhanced magnetic resonance imaging |
Q50133331 | Can Oxygen Transport Analysis Tell Us Why People With Heart Failure With Preserved Ejection Fraction Feel So Poorly? |
Q68498103 | Capacity of blood flow delivery to exercising skeletal muscle in humans |
Q34548327 | Capillary endothelial cells as coordinators of skeletal muscle blood flow during active hyperemia |
Q48888461 | Carbon monoxide exposure during exercise performance: muscle and cerebral oxygenation. |
Q74454027 | Cardiac performance in inbred rat genetic models of low and high running capacity |
Q38693262 | Cardiovascular Adaptations to Exercise Training |
Q54328692 | Cardiovascular and metabolic responses to static contraction in man. |
Q77610249 | Cardiovascular control during concomitant dynamic leg exercise and static arm exercise in humans |
Q38867261 | Cardiovascular control during whole body exercise |
Q87225518 | Cardiovascular responses to counterweighted single-leg cycling: implications for rehabilitation |
Q54228741 | Carotid baroreflex control of leg vasculature in exercising and non-exercising skeletal muscle in humans. |
Q41679761 | Cellular PO2 as a determinant of maximal mitochondrial O(2) consumption in trained human skeletal muscle |
Q37754298 | Central and peripheral aspects of oxygen transport and adaptations with exercise |
Q50238848 | Central and peripheral hemodynamics in exercising humans: leg vs arm exercise |
Q48292112 | Characteristics and effectiveness of vasodilatory and pressor compensation for reduced relaxation time during rhythmic forearm contractions |
Q46781845 | Chronic but not acute oral L-arginine supplementation delays the ventilatory threshold during exercise in heart failure patients |
Q51717573 | Chronic hypoxia increases arterial blood pressure and reduces adenosine and ATP induced vasodilatation in skeletal muscle in healthy humans. |
Q44502606 | Chronic hypoxia increases blood pressure and noradrenaline spillover in healthy humans |
Q44904872 | Circulating ATP-induced vasodilatation overrides sympathetic vasoconstrictor activity in human skeletal muscle |
Q52657229 | Citrus Flavonoid Supplementation Improves Exercise Performance in Trained Athletes. |
Q43235355 | Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity |
Q26826914 | Compensatory vasodilatation during hypoxic exercise: mechanisms responsible for matching oxygen supply to demand |
Q89024753 | Competition for blood flow distribution between respiratory and locomotor muscles: implications for muscle fatigue |
Q41278731 | Constant infusion transpulmonary thermodilution for the assessment of cardiac output in exercising humans |
Q72886618 | Continuous percutaneous measurement by laser-Doppler flowmetry of skeletal muscle microcirculation at varying levels of contraction force determined electromyographically |
Q87153080 | Contracting human skeletal muscle maintains the ability to blunt α1 -adrenergic vasoconstriction during KIR channel and Na(+) /K(+) -ATPase inhibition |
Q37276248 | Contraction frequency modulates muscle fatigue and the rate of myoglobin desaturation during incremental contractions in humans |
Q51670721 | Contraction velocity influence the magnitude and etiology of neuromuscular fatigue during repeated maximal contractions. |
Q45261270 | Contraction-induced increases in Na+-K+-ATPase mRNA levels in human skeletal muscle are not amplified by activation of additional muscle mass |
Q41496378 | Contributions of Central Command and Muscle Feedback to Sympathetic Nerve Activity in Contracting Human Skeletal Muscle |
Q39117112 | Costs of diabetes medication among male former elite athletes in later life. |
Q33888496 | Coupling of muscle metabolism and muscle blood flow in capillary units during contraction |
Q41647745 | Crosstalk of the heart and periphery: skeletal and cardiac muscle as therapeutic targets in heart failure |
Q46901938 | Cycling efficiency in humans is related to low UCP3 content and to type I fibres but not to mitochondrial efficiency |
Q44267774 | Cytochrome P450 2C9 plays an important role in the regulation of exercise-induced skeletal muscle blood flow and oxygen uptake in humans |
Q28378781 | Deamination of amino acids as a source for ammonia production in human skeletal muscle during prolonged exercise |
Q34294276 | Deep and superficial masseter muscle blood flow in women |
Q68189380 | Dependence of enhanced maximal exercise performance on increased peak skeletal muscle perfusion during long-term captopril therapy in heart failure |
Q51700542 | Determinants of maximal oxygen uptake in severe acute hypoxia. |
Q41641885 | Determinants of oxygen uptake. Implications for exercise testing |
Q48304522 | Dietary nitrate restores compensatory vasodilation and exercise capacity in response to a compromise in oxygen delivery in the noncompensator phenotype. |
Q64117599 | Difference in the integrated effects of sympathetic vasoconstriction and local vasodilation in human skeletal muscle and skin microvasculature |
Q71557640 | Differential cardiorespiratory response to combined exercise with different combinations of forearm and calf exercise |
Q34447030 | Disparity in regional and systemic circulatory capacities: do they affect the regulation of the circulation? |
Q60637915 | Dissociation between lactate and proton exchange in muscle during intense exercise in man |
Q44232815 | Dissociation between muscle tricarboxylic acid cycle pool size and aerobic energy provision during prolonged exercise in humans |
Q41695689 | Dissociation of peak vascular conductance and V(O2) max among highly trained athletes. |
Q43055217 | Does oxygen delivery explain interindividual variation in forearm critical impulse? |
Q52589786 | Dominant and sensitive control of oxidative flux by the ATP-ADP carrier in human skeletal muscle mitochondria: Effect of lysine acetylation. |
Q46954388 | During hypoxic exercise some vasoconstriction is needed to match O2 delivery with O2 demand at the microcirculatory level |
Q41684356 | Dynamic imaging of perfusion in human skeletal muscle during exercise with arterial spin labeling |
Q50500310 | Dynamic response characteristics of hyperaemia in the human calf muscle: effect of exercise intensity and relation to electromyographic activity. |
Q35046377 | Dynamics of muscle microcirculatory and blood-myocyte O(2) flux during contractions |
Q58172400 | Eccentric exercise decreases maximal insulin action in humans: muscle and systemic effects |
Q40967921 | Effect of PDE5 inhibition on the modulation of sympathetic α-adrenergic vasoconstriction in contracting skeletal muscle of young and older recreationally active humans. |
Q34600982 | Effect of acetazolamide on pulmonary and muscle gas exchange during normoxic and hypoxic exercise. |
Q50780056 | Effect of body tilt on calf muscle performance and blood flow in humans. |
Q80442889 | Effect of dexamethasone on skeletal muscle Na+,K+ pump subunit specific expression and K+ homeostasis during exercise in humans |
Q37381482 | Effect of endurance versus resistance training on quadriceps muscle dysfunction in COPD: a pilot study |
Q35890896 | Effect of exercise training on endothelium-derived nitric oxide function in humans. |
Q44698727 | Effect of fitness on arm vascular and metabolic responses to upper body exercise |
Q44177006 | Effect of mild carboxy-hemoglobin on exercising skeletal muscle: intravascular and intracellular evidence |
Q73623848 | Effect of motor unit recruitment on functional vasodilatation in hamster retractor muscle |
Q58172407 | Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man |
Q77610252 | Effect of muscle glycogen on glucose, lactate and amino acid metabolism during exercise and recovery in human subjects |
Q71989161 | Effect of muscle mass on lactate formation during exercise in humans |
Q54654786 | Effect of pedal cadence on the heterogeneity of muscle deoxygenation during moderate exercise. |
Q46973263 | Effect of temperature on skeletal muscle energy turnover during dynamic knee-extensor exercise in humans |
Q36083609 | Effectiveness of training programmes for prepubescent children |
Q48044379 | Effects of 6-month aerobic interval training on skeletal muscle metabolism in middle-aged metabolic syndrome patients |
Q43737932 | Effects of dynamic exercise on mean blood velocity and muscle interstitial metabolite responses in humans |
Q48347751 | Effects of erythropoietin abuse on exercise performance. |
Q57623054 | Effects of exhaustive stretch-shortening cycle exercise on muscle blood flow during exercise |
Q44666568 | Effects of high-intensity intermittent training on potassium kinetics and performance in human skeletal muscle. |
Q24621137 | Effects of insulin and exercise on muscle lipoprotein lipase activity in man and its relation to insulin action |
Q41498909 | Effects of lung ventilation-perfusion and muscle metabolism-perfusion heterogeneities on maximal O2 transport and utilization |
Q47665032 | Effects of pedal frequency on estimated muscle microvascular O2 extraction |
Q28364384 | Effects of prior exercise on oxygen uptake and phosphocreatine kinetics during high-intensity knee-extension exercise in humans |
Q51698818 | Effects of respiratory muscle work on blood flow distribution during exercise in heart failure. |
Q47792521 | Effects of respiratory muscle work on respiratory and locomotor blood flow during exercise |
Q44453339 | Effects of short-term training on plasma acid-base balance during incremental exercise in man. |
Q46793358 | Effects of the nitric oxide donor, sodium nitroprusside, on resting leg glucose uptake in patients with type 2 diabetes |
Q55053652 | Electrical dynamics of isolated cerebral and skeletal muscle endothelial tubes: Differential roles of G-protein-coupled receptors and K+ channels. |
Q71725848 | Electromyogram median power frequency in dynamic exercise at medium exercise intensities |
Q41967741 | Elevated muscle glycogen and anaerobic energy production during exhaustive exercise in man |
Q46127908 | Elucidation in the rat of the role of adenosine and A2A-receptors in the hyperaemia of twitch and tetanic contractions |
Q42511108 | Endothelial mechanotransduction proteins and vascular function are altered by dietary sucrose supplementation in healthy young male subjects |
Q69617117 | Endurance capacity of untrained males and females in isometric and dynamic muscular contractions |
Q42970141 | Endurance training increases exercise-induced prostacyclin release in young, healthy men--relationship with VO2max. |
Q39175680 | Energy demand and supply in human skeletal muscle |
Q57623226 | Enhanced oxygen extraction and reduced flow heterogeneity in exercising muscle in endurance-trained men |
Q43822357 | Enhanced pyruvate dehydrogenase activity does not affect muscle O2 uptake at onset of intense exercise in humans. |
Q46913555 | Erythrocytes and the regulation of human skeletal muscle blood flow and oxygen delivery: role of erythrocyte count and oxygenation state of haemoglobin |
Q53653723 | Erythropoietin does not reduce plasma lactate, H⁺, and K⁺ during intense exercise. |
Q51841389 | Estimation of capillary density in human skeletal muscle based on maximal oxygen consumption rates. |
Q92442439 | Exercise and Vascular Insulin Sensitivity in the Skeletal Muscle and Brain |
Q35576240 | Exercise and the nitric oxide vasodilator system |
Q36886654 | Exercise hyperaemia: is anything obligatory but the hyperaemia? |
Q36886647 | Exercise hyperaemia: magnitude and aspects on regulation in humans |
Q40022506 | Exercise increases sphingoid base-1-phosphate levels in human blood and skeletal muscle in a time- and intensity-dependent manner |
Q59326285 | Exercise induces hepatosplanchnic release of heat shock protein 72 in humans |
Q36556409 | Exercise intensity modulates capillary perfusion in correspondence with ACE I/D modulated serum angiotensin II levels |
Q50546332 | Exercise limb blood flow response to acute and chronic hypoxia in Danish lowlanders and Aymara natives. |
Q74454483 | Exercise metabolism in human skeletal muscle exposed to prior eccentric exercise |
Q48063928 | Exercise physiology: from performance studies to muscle physiology and cardiovascular adaptations |
Q37157213 | Exercise training and peripheral arterial disease |
Q57921514 | Exercise training induces similar elevations in the activity of oxoglutarate dehydrogenase and peak oxygen uptake in the human quadriceps muscle |
Q42583058 | Exercise, hypoglycemia, and type 1 diabetes. |
Q98565522 | Exercise-induced calf muscle hyperemia: Rapid mapping of magnetic resonance imaging using deep learning approach |
Q28349449 | Exercise-induced hyperaemia and leg oxygen uptake are not altered during effective inhibition of nitric oxide synthase with N(G)-nitro-L-arginine methyl ester in humans |
Q44087193 | Exercise-induced increase in interstitial bradykinin and adenosine concentrations in skeletal muscle and peritendinous tissue in humans |
Q80264261 | Exercise-induced inhibition of angiotensin II vasoconstriction in human thigh muscle |
Q56240297 | Exercise-induced pyruvate dehydrogenase activation is not affected by 7 days of bed rest |
Q28351698 | Exercising skeletal muscle blood flow in humans responds to reduction in arterial oxyhaemoglobin, but not to altered free oxygen |
Q50420883 | Expression of striated activator of rho-signaling in human skeletal muscle following acute exercise and long-term training |
Q28366540 | Fat utilization during exercise: adaptation to a fat-rich diet increases utilization of plasma fatty acids and very low density lipoprotein-triacylglycerol in humans |
Q34698724 | Fatigue during high-intensity intermittent exercise: application to bodybuilding |
Q46031080 | Fatigue resistance during high-intensity intermittent exercise from childhood to adulthood in males and females. |
Q53355176 | Feasibility and reproducibility of measurement of whole muscle blood flow, oxygen extraction, and VO2 with dynamic exercise using MRI. |
Q35779564 | Feeding the sleeping giant: muscle blood flow during whole body exercise |
Q69384674 | Fitness as a determinant of oxygen uptake response to constant-load exercise |
Q33302393 | Forearm blood flow follows work rate during submaximal dynamic forearm exercise independent of sex. |
Q45195885 | Functional coordination of the spread of vasodilations through skeletal muscle microvasculature: implications for blood flow control |
Q35043742 | Functional sympatholysis during exercise in patients with type 2 diabetes with intact response to acetylcholine |
Q43852621 | Gender differences in substrate utilization during submaximal exercise in endurance-trained subjects |
Q54457853 | Glucocorticoids improve high-intensity exercise performance in humans. |
Q24656984 | Glucose ingestion attenuates interleukin-6 release from contracting skeletal muscle in humans |
Q44594006 | Glucose ingestion blunts hormone-sensitive lipase activity in contracting human skeletal muscle |
Q46568243 | Glutamate availability is important in intramuscular amino acid metabolism and TCA cycle intermediates but does not affect peak oxidative metabolism |
Q43139397 | Glycine propionyl-L-carnitine produces enhanced anaerobic work capacity with reduced lactate accumulation in resistance trained males |
Q34634274 | Haemodynamic limitations and exercise performance in peripheral arterial disease |
Q85838301 | Haemodynamic responses to dehydration in the resting and exercising human leg |
Q46702800 | Haemodynamic responses to exercise, ATP infusion and thigh compression in humans: insight into the role of muscle mechanisms on cardiovascular function |
Q73459148 | Having it both ways? Vasoconstriction in contracting muscles |
Q73680820 | Heat production in human skeletal muscle at the onset of intense dynamic exercise |
Q34790165 | Hemodynamic responses to small muscle mass exercise in heart failure patients with reduced ejection fraction |
Q36693972 | High-fat diets cause insulin resistance despite an increase in muscle mitochondria |
Q45941593 | Higher intramuscular triacylglycerol in women does not impair insulin sensitivity and proximal insulin signaling. |
Q38112027 | Highly athletic terrestrial mammals: horses and dogs |
Q39673389 | Human cardiovascular adjustments to acute hypoxaemia |
Q33165175 | Human cardiovascular responses to passive heat stress. |
Q70697610 | Human circulatory and thermoregulatory adaptations with heat acclimation and exercise in a hot, dry environment |
Q31075802 | Human experimentation: no accurate, quantitative data? |
Q58818180 | Human muscle net K+ release during exercise is unaffected by elevated anaerobic metabolism, but reduced after prolonged acclimatization to 4,100 m |
Q51659554 | Human skeletal muscle sympathetic nerve activity, heart rate and limb haemodynamics with reduced blood oxygenation and exercise. |
Q46887684 | Hyperoxia decreases muscle glycogenolysis, lactate production, and lactate efflux during steady-state exercise |
Q33163545 | Hyperventilation, cerebral perfusion, and syncope |
Q35819018 | Ideas about control of skeletal and cardiac muscle blood flow (1876-2003): cycles of revision and new vision |
Q89565097 | Impact of age on the development of fatigue during large and small muscle mass exercise |
Q46537525 | Impaired modulation of sympathetic alpha-adrenergic vasoconstriction in contracting forearm muscle of ageing men. |
Q36805655 | Impaired skeletal muscle vasodilation during exercise in heart failure with preserved ejection fraction |
Q91729426 | Impaired training-induced angiogenesis process with loss of pericyte-endothelium interactions is associated with an abnormal capillary remodelling in the skeletal muscle of COPD patients |
Q36979025 | Implications of chronic heart failure on peripheral vasculature and skeletal muscle before and after exercise training |
Q43605690 | In situ microdialysis of intramuscular prostaglandin and thromboxane in contracting skeletal muscle in humans |
Q80198651 | In vivo ATP production during free-flow and ischaemic muscle contractions in humans |
Q38334897 | Increased muscle blood supply and transendothelial nutrient and insulin transport induced by food intake and exercise: effect of obesity and ageing. |
Q36339268 | Increasing blood flow to exercising muscle attenuates systemic cardiovascular responses during dynamic exercise in humans |
Q48360513 | Increasing skeletal muscle carnitine availability does not alter the adaptations to high-intensity interval training |
Q41880377 | Influence of Prior Intense Exercise and Cold Water Immersion in Recovery for Performance and Physiological Response during Subsequent Exercise |
Q47604350 | Influence of exercise intensity on skeletal muscle blood flow, O2 extraction and O2 uptake on-kinetics. |
Q41158325 | Influence of fatty acids on ammonia and amino acid flux from active human muscle |
Q46775450 | Influence of prior exercise on muscle [phosphorylcreatine] and deoxygenation kinetics during high-intensity exercise in men. |
Q54082669 | Influence of respiratory muscle work on VO(2) and leg blood flow during submaximal exercise. |
Q33820454 | Influence of the metaboreflex on arterial blood pressure in heart failure patients |
Q31034272 | Inhibition of alpha-adrenergic vasoconstriction in exercising human thigh muscles |
Q60637885 | Inhibition of nitric oxide and prostaglandins, but not endothelial-derived hyperpolarizing factors, reduces blood flow and aerobic energy turnover in the exercising human leg |
Q79448732 | Insights into central and peripheral factors affecting the "oxidative performance" of skeletal muscle in aging |
Q30361811 | Integration and Modulation of Intercellular Signaling Underlying Blood Flow Control |
Q47651108 | Integration of Central and Peripheral Regulation of the Circulation during Exercise: Acute and Chronic Adaptations |
Q33888484 | Integration of blood flow control to skeletal muscle: key role of feed arteries |
Q54485141 | Intense intermittent exercise provides weak stimulus for vascular endothelial growth factor secretion and capillary growth in skeletal muscle. |
Q60637891 | Intense interval training enhances human skeletal muscle oxygen uptake in the initial phase of dynamic exercise at high but not at low intensities |
Q58818174 | Interleukin-6 release is higher across arm than leg muscles during whole-body exercise |
Q44804939 | Interstitial glycerol concentrations in human skeletal muscle and adipose tissue during graded exercise. |
Q61970336 | Intravascular ADP and soluble nucleotidases contribute to acute prothrombotic state during vigorous exercise in humans |
Q47765747 | Investigating human skeletal muscle physiology with unilateral exercise models: when one limb is more powerful than two. |
Q37582370 | Is it time to retire the 'central governor'? |
Q46219939 | Is the balance between skeletal muscular metabolic capacity and oxygen supply capacity the same in endurance trained and untrained subjects? |
Q84986380 | Ischemic exercise hyperemia in the human forearm: reproducibility and roles of adenosine and nitric oxide |
Q72153678 | K+ shifts of skeletal muscle during stepwise bicycle exercise with and without beta-adrenoceptor blockade |
Q46613296 | Kinetics of O2 uptake, leg blood flow, and muscle deoxygenation are slowed in the upper compared with lower region of the moderate-intensity exercise domain. |
Q47691103 | Kinetics of muscle oxygen use, oxygen content, and blood flow during exercise |
Q72831868 | Lactate and H+ effluxes from human skeletal muscles during intense, dynamic exercise |
Q70917591 | Lactate and H+ uptake in inactive muscles during intense exercise in man |
Q53837138 | Lactate and potassium fluxes from human skeletal muscle during and after intense, dynamic, knee extensor exercise. |
Q44185296 | Leg and arm lactate and substrate kinetics during exercise. |
Q44291137 | Leg blood flow during submaximal cycle ergometry is not reduced in healthy older normally active men. |
Q47773094 | Leg blood flow is impaired during small muscle mass exercise in patients with COPD. |
Q48201645 | Leg vascular and skeletal muscle mitochondrial adaptations to aerobic high-intensity exercise training are enhanced in the early postmenopausal phase. |
Q84959282 | Lifelong physical activity preserves functional sympatholysis and purinergic signalling in the ageing human leg |
Q44738481 | Lifelong physical activity prevents an age-related reduction in arterial and skeletal muscle nitric oxide bioavailability in humans |
Q30872093 | Limb and skeletal muscle blood flow measurements at rest and during exercise in human subjects |
Q57788902 | Limitations to oxygen transport and utilization during sprint exercise in humans: evidence for a functional reserve in muscle O2 diffusing capacity |
Q24544325 | Limitations to systemic and locomotor limb muscle oxygen delivery and uptake during maximal exercise in humans |
Q43588562 | Limitations to vasodilatory capacity and .VO2 max in trained human skeletal muscle |
Q39049804 | Linking skeletal muscle blood flow and metabolism to the limits of human performance |
Q34448802 | Lipid-induced insulin resistance affects women less than men and is not accompanied by inflammation or impaired proximal insulin signaling |
Q40378740 | Lipoprotein metabolism influenced by training-induced changes in human skeletal muscle |
Q38575155 | Local control of blood flow during active hyperaemia: what kinds of integration are important? |
Q35601718 | Local control of skeletal muscle blood flow during exercise: influence of available oxygen |
Q42357316 | Long-term glycine propionyl-l-carnitine supplemention and paradoxical effects on repeated anaerobic sprint performance |
Q43188273 | Low blood flow at onset of moderate-intensity exercise does not limit muscle oxygen uptake |
Q45071070 | Malonyl-CoA and carnitine in regulation of fat oxidation in human skeletal muscle during exercise |
Q42241820 | Maximal heart rate does not limit cardiovascular capacity in healthy humans: insight from right atrial pacing during maximal exercise |
Q58818190 | Maximal muscular vascular conductances during whole body upright exercise in humans |
Q38225478 | Maximal oxygen consumption in healthy humans: theories and facts |
Q36530910 | Maximal strength training and increased work efficiency: contribution from the trained muscle bed. |
Q44894123 | Maximal strength training improves work economy, rate of force development and maximal strength more than conventional strength training |
Q73435912 | Maximum rate of oxygen uptake by human skeletal muscle in relation to maximal activities of enzymes in the Krebs cycle |
Q36691224 | Measurement by laser-Doppler flowmetry of microcirculation in lower leg muscle at different blood fluxes in relation to electromyographically determined contraction and accumulated fatigue |
Q41859389 | Measurement of skeletal muscle blood flow in humans: plethysmographic, bolus and continuous infusion technique |
Q34325947 | Measurement of skeletal muscle perfusion during postischemic reactive hyperemia using contrast-enhanced MRI with a step-input function. |
Q45894016 | Measures of cardiorespiratory fitness in relation to measures of body size and composition among children |
Q30462761 | Measuring muscle blood flow: a key link between systemic and regional metabolism. |
Q36235131 | Mechanical compression during repeated sustained isometric muscle contractions and hyperemic recovery in healthy young males |
Q58818210 | Mechanisms of activation of muscle branched-chain alpha-keto acid dehydrogenase during exercise in man |
Q87634459 | Metabolic adaptations in skeletal muscle, adipose tissue, and whole-body oxidative capacity in response to resistance training |
Q40631501 | Metabolic and thermodynamic responses to dehydration-induced reductions in muscle blood flow in exercising humans |
Q35622623 | Metabolic control of muscle blood flow during exercise in humans |
Q26796224 | Metabolic equivalents of task are confounded by adiposity, which disturbs objective measurement of physical activity |
Q88657318 | Methods for the determination of skeletal muscle blood flow: development, strengths and limitations |
Q58565537 | Microvascular Mechanisms Limiting Skeletal Muscle Blood Flow with Advancing Age |
Q73746140 | Milestones in human physiology: Muscle energy metabolism and blood flow during contraction |
Q44059986 | Mitochondria express enhanced quality as well as quantity in association with aerobic fitness across recreationally active individuals up to elite athletes |
Q26820838 | Mitochondrial fatty acid oxidation in obesity |
Q37525060 | Mitochondrial respiration in hummingbird flight muscles |
Q36656343 | Model analysis of the relationship between intracellular PO2 and energy demand in skeletal muscle |
Q43917392 | Multiple dilator pathways in skeletal muscle contraction-induced arteriolar dilations |
Q46862876 | Muscle [phosphocreatine] dynamics following the onset of exercise in humans: the influence of baseline work-rate |
Q41760189 | Muscle blood flow and oxygen uptake in recovery from exercise |
Q60686297 | Muscle blood flow during isometric activity and its relation to muscle fatigue |
Q77587444 | Muscle blood flow is reduced with dehydration during prolonged exercise in humans |
Q43996812 | Muscle glycogen content and glucose uptake during exercise in humans: influence of prior exercise and dietary manipulation |
Q77112830 | Muscle heat production and anaerobic energy turnover during repeated intense dynamic exercise in humans |
Q43268360 | Muscle interstitial ATP and norepinephrine concentrations in the human leg during exercise and ATP infusion |
Q44381071 | Muscle interstitial potassium kinetics during intense exhaustive exercise: effect of previous arm exercise |
Q58172093 | Muscle metabolism during graded quadriceps exercise in man |
Q30277845 | Muscle microvasculature's structural and functional specializations facilitate muscle metabolism. |
Q28360635 | Muscle oxygen uptake and energy turnover during dynamic exercise at different contraction frequencies in humans |
Q46898768 | Muscle oxygenation after downhill walking-induced muscle damage |
Q27026527 | Muscle perfusion: its measurement and role in metabolic regulation |
Q36288199 | Muscle reflex control of sympathetic nerve activity in heart failure: the role of exercise conditioning. |
Q46908145 | Muscular and pulmonary O2 uptake kinetics during moderate- and high-intensity sub-maximal knee-extensor exercise in humans. |
Q35764674 | Myoglobin O2 desaturation during exercise. Evidence of limited O2 transport |
Q83147052 | Near infrared spectroscopy-derived interstitial hydrogen ion concentration and tissue oxygen saturation during ambulation |
Q51653458 | Neural control of cardiovascular responses and of ventilation during dynamic exercise in man. |
Q41389735 | Neural control of muscle blood flow: importance during dynamic exercise |
Q80778472 | Neuromuscular and circulatory adaptation during combined arm and leg exercise with different maximal work loads |
Q46291561 | Neuromuscular blockade of slow twitch muscle fibres elevates muscle oxygen uptake and energy turnover during submaximal exercise in humans |
Q37337568 | Neuropeptide Y and neurovascular control in skeletal muscle and skin |
Q48290241 | New perspectives concerning feedback influences on cardiorespiratory control during rhythmic exercise and on exercise performance |
Q37112555 | Nitric oxide and muscle blood flow in exercise |
Q50735799 | Nitric oxide and prostaglandins influence local skeletal muscle blood flow during exercise in humans: coupling between local substrate uptake and blood flow. |
Q41656680 | Nitric oxide and vasodilation in human limbs |
Q58172623 | Noradrenaline spillover during exercise in active versus resting skeletal muscle in man |
Q28570384 | Nucleoside transporter subtype expression and function in rat skeletal muscle microvascular endothelial cells |
Q71814190 | Obligatory anaerobiosis resulting from oxygen uptake-to-blood flow ratio dispersion in skeletal muscle: a model |
Q48257462 | On the contribution of group III and IV muscle afferents to the circulatory response to rhythmic exercise in humans. |
Q46220420 | On the mechanisms that limit oxygen uptake during exercise in acute and chronic hypoxia: role of muscle mass |
Q35579856 | Oral beraprost sodium improves exercise capacity and ventilatory efficiency in patients with primary or thromboembolic pulmonary hypertension |
Q44030433 | Oxidative capacity interacts with oxygen delivery to determine maximal O(2) uptake in rat skeletal muscles in situ. |
Q35053316 | Oxygen cost of dynamic or isometric exercise relative to recruited muscle mass. |
Q51661514 | Oxygen cost of exercise hyperpnoea is greater in women compared with men. |
Q55164058 | Oxygen cost of thoracic and diaphragmatic breathing during hyperventilation in healthy males. |
Q35588984 | Oxygen transport and utilization: an integration of the muscle systems |
Q33428686 | Oxygen uptake during swimming in a hypobaric hypoxic environment |
Q38116828 | Oxygen uptake kinetics |
Q44212220 | Oxygen uptake kinetics during high-intensity arm and leg exercise. |
Q56240274 | PGC-1β is downregulated by training in human skeletal muscle: no effect of training twice every second day vs. once daily on expression of the PGC-1 family |
Q46133217 | Partial neuromuscular blockade in humans enhances muscle blood flow during exercise independently of muscle oxygen uptake and acetylcholine receptor blockade. |
Q44180851 | Partial restoration of dietary fat induced metabolic adaptations to training by 7 days of carbohydrate diet. |
Q55033503 | Peak muscle perfusion and oxygen uptake in humans: importance of precise estimates of muscle mass. |
Q47829563 | Peak oxygen uptake during running and arm cranking normalized to total and regional skeletal muscle mass measured by magnetic resonance imaging. |
Q38203225 | Performance in the heat-physiological factors of importance for hyperthermia-induced fatigue |
Q38111280 | Peripheral circulation |
Q37094184 | Peripheral fatigue limits endurance exercise via a sensory feedback-mediated reduction in spinal motoneuronal output. |
Q34622165 | Peripheral limitations of maximal aerobic capacity in patients with chronic heart failure |
Q41840262 | Persistence of functional sympatholysis post-exercise in human skeletal muscle |
Q51061604 | Photoplethysmograph signal reconstruction based on a novel hybrid motion artifact detection-reduction approach. Part I: Motion and noise artifact detection. |
Q88032603 | Physiological Redundancy and the Integrative Responses to Exercise |
Q61828196 | Physiological responses to incremental, interval, and continuous counterweighted single-leg and double-leg cycling at the same relative intensities |
Q37546079 | Pknox1/Prep1 regulates mitochondrial oxidative phosphorylation components in skeletal muscle |
Q81825537 | Plantar flexion: an effective training for peripheral arterial disease |
Q47606339 | Plasma volume expansion does not increase maximal cardiac output or VO2 max in lowlanders acclimatized to altitude |
Q46244608 | Point: maximal oxygen uptake is limited by a central nervous system governor. |
Q69560097 | Post-exercise glucose uptake and glycogen synthesis in human muscle during oral or i.v. glucose intake |
Q36431967 | Potassium regulation during exercise and recovery. |
Q41052616 | Potentiation of cGMP signaling increases oxygen delivery and oxidative metabolism in contracting skeletal muscle of older but not young humans. |
Q85100982 | Preserved metabolic reserve capacity in skeletal muscle of post‐infarction heart failure patients |
Q83396276 | Progressive arteriolar vasoconstriction and fatigue during tetanic contractions of rat skeletal muscle are inhibited by α-receptor blockade |
Q34490587 | Pulmonary function test abnormalities in pulmonary vascular disease and chronic heart failure |
Q43918674 | Pulmonary gas exchange and acid-base state at 5,260 m in high-altitude Bolivians and acclimatized lowlanders |
Q47360003 | Pulmonary gas exchange at maximal exercise in Danish lowlanders during 8 wk of acclimatization to 4,100 m and in high-altitude Aymara natives |
Q36174766 | Quadriceps exercise intolerance in patients with chronic obstructive pulmonary disease: the potential role of altered skeletal muscle mitochondrial respiration |
Q80401273 | Quadriceps maximal power and optimal shortening velocity in 335 men aged 23-88 years |
Q30942590 | Quadriceps muscle function in relation to habitual physical activity and VO2max in men and women aged more than 65 years. |
Q51956134 | Quantitative ASL muscle perfusion imaging using a FAIR-TrueFISP technique at 3.0 T. |
Q36799200 | Quantitative evaluation of muscle perfusion with CEUS and with MR. |
Q51826327 | Rapid biphasic arteriolar dilations induced by skeletal muscle contraction are dependent on stimulation characteristics. |
Q48238993 | Rapid versus slow ascending vasodilatation: intercellular conduction versus flow-mediated signalling with tetanic versus rhythmic muscle contractions |
Q81139264 | Real-time magnetic resonance imaging to guide pediatric endovascular procedures |
Q45004555 | Recruitment of fibre types and quadriceps muscle portions during repeated, intense knee-extensor exercise in humans |
Q38022266 | Red blood cell volume and the capacity for exercise at moderate to high altitude |
Q69148238 | Redox state changes in human skeletal muscle after isometric contraction |
Q46083708 | Reduced Mechanical Efficiency in Chronic Obstructive Pulmonary Disease but Normal Peak V̇o2with Small Muscle Mass Exercise |
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. |
Q70060461 | Regional blood flow in congestive heart failure: concept of compensatory mechanisms with short and long time constants |
Q52012360 | Regional differences in blood flow and oxygen consumption in resting muscle and their relationship during recovery from exhaustive exercise. |
Q45141194 | Regional differences in blood flow, glucose uptake and fatty acid uptake within quadriceps femoris muscle during dynamic knee-extension exercise |
Q81473738 | Regular endurance training reduces the exercise induced HIF-1alpha and HIF-2alpha mRNA expression in human skeletal muscle in normoxic conditions |
Q33814837 | Regulation of ATP supply in mammalian skeletal muscle during resting state-->intensive work transition |
Q35622626 | Regulation of blood flow at the onset of exercise by feed forward and feedback mechanisms. |
Q42376408 | Regulation of exercise blood flow: Role of free radicals |
Q30428955 | Regulation of exercise-induced fiber type transformation, mitochondrial biogenesis, and angiogenesis in skeletal muscle |
Q43081547 | Regulation of human skeletal muscle perfusion and its heterogeneity during exercise in moderate hypoxia |
Q27001180 | Regulation of increased blood flow (hyperemia) to muscles during exercise: a hierarchy of competing physiological needs |
Q38246362 | Regulation of the skeletal muscle blood flow in humans |
Q34014861 | Relating pulmonary oxygen uptake to muscle oxygen consumption at exercise onset: in vivo and in silico studies. |
Q44214033 | Relation between physical activity, muscle function and IGF-1, testosterone and DHEAS concentrations in the elderly |
Q85029265 | Relationship between effort sense and ventilatory response to intense exercise performed with reduced muscle glycogen |
Q30426220 | Relationship between leg muscle capillary density and peak hyperemic blood flow with endurance capacity in peripheral artery disease |
Q53530462 | Relationship between local perfusion and FFA uptake in human skeletal muscle-no effect of increased physical activity and aerobic fitness. |
Q42635002 | Relationship between muscle blood flow and oxygen uptake during exercise in endurance-trained and untrained men. |
Q41583963 | Reliability of arterial spin labelling measurements of perfusion within the quadriceps during steady-state exercise. |
Q80971414 | Restrictions in systemic and locomotor skeletal muscle perfusion, oxygen supply and VO2 during high-intensity whole-body exercise in humans |
Q46587342 | Resveratrol blunts the positive effects of exercise training on cardiovascular health in aged men. |
Q34566572 | Robust internal elastic lamina fenestration in skeletal muscle arteries |
Q28363241 | Role for endothelial cell conduction in ascending vasodilatation and exercise hyperaemia in hamster skeletal muscle |
Q99560905 | Role of Skeletal Muscle in Insulin Resistance and Glucose Uptake |
Q43605716 | Role of adenosine in exercise-induced human skeletal muscle vasodilatation |
Q46989287 | Role of adenosine in regulating the heterogeneity of skeletal muscle blood flow during exercise in humans |
Q36573455 | Role of fatty acids in the transition from anaerobic to aerobic metabolism in skeletal muscle during exercise |
Q60637755 | Role of nitric oxide and prostanoids in the regulation of leg blood flow and blood pressure in humans with essential hypertension: effect of high-intensity aerobic training |
Q37175575 | Roles of nitric oxide synthase and cyclooxygenase in leg vasodilation and oxygen consumption during prolonged low-intensity exercise in untrained humans |
Q72045051 | Separate measures of ATP utilization and recovery in human skeletal muscle |
Q47549155 | Sex and nitric oxide bioavailability interact to modulate interstitial PO2 in healthy rat skeletal muscle |
Q82865550 | Sex-specific effect of aging on submaximal leg exercise hemodynamics in middle-aged and older adults |
Q47791257 | Shear wave sonoelastography of skeletal muscle: basic principles, biomechanical concepts, clinical applications, and future perspectives. |
Q48259254 | Simulation of differential drug pharmacokinetics under heat and exercise stress using a physiologically based pharmacokinetic modeling approach |
Q53963853 | Simulation of motor unit recruitment and microvascular unit perfusion: spatial considerations. |
Q38774226 | Size Exponents for Scaling Maximal Oxygen Uptake in Over 6500 Humans: A Systematic Review and Meta-Analysis. |
Q47366169 | Skeletal Muscle Mitochondrial Function is Determined by Burn Severity, Sex and Sepsis, and is Associated with Glucose Metabolism and Functional Capacity in Burned Children |
Q34285823 | Skeletal muscle disorders in heart failure |
Q36197831 | Skeletal muscle glucose uptake during exercise: how is it regulated? |
Q42444834 | Skeletal muscle interleukin-6 and tumor necrosis factor-alpha release in healthy subjects and patients with type 2 diabetes at rest and during exercise |
Q35743988 | Skeletal muscle lipid flux: running water carries no poison |
Q86631165 | Skeletal muscle oxygen uptake in obese patients: functional evaluation by knee-extension exercise |
Q33921958 | Skeletal muscle substrate metabolism during exercise: methodological considerations |
Q55066073 | Skeletal muscle substrate utilization during submaximal exercise in man: effect of endurance training. |
Q38048737 | Skeletal muscle vasodilatation during maximal exercise in health and disease. |
Q90203069 | Skeletal muscle, haematological and splenic volume characteristics of elite breath-hold divers |
Q43961304 | Slow VO2 off-kinetics in skeletal muscle is associated with fast PCr off-kinetics--and inversely |
Q51815547 | Stimulation characteristics that determine arteriolar dilation in skeletal muscle. |
Q44290807 | Substrates for muscle glycogen synthesis in recovery from intense exercise in man. |
Q74149050 | Sympathetic nerves continue to regulate blood flow in exercising muscles |
Q36837932 | Systemic and vastus lateralis muscle blood flow and O2 extraction during ramp incremental cycle exercise |
Q56242174 | THIS ARTICLE HAS BEEN RETRACTED Exercise induces interleukin-8 expression in human skeletal muscle |
Q36817374 | Taming the "sleeping giant": the role of endothelin-1 in the regulation of skeletal muscle blood flow and arterial blood pressure during exercise |
Q53224957 | Temporal course of perfusion in human masseter muscle during isometric contraction assessed by arterial spin labeling at 3T. |
Q38603682 | The August Krogh Institute: Capillaries and beyond. |
Q38994770 | The Effect of Vigorous- Versus Moderate-Intensity Aerobic Exercise on Insulin Action |
Q60949916 | The Endothelial Mechanotransduction Protein Platelet Endothelial Cell Adhesion Molecule-1 Is Influenced by Aging and Exercise Training in Human Skeletal Muscle |
Q51274762 | The Journal of Physiology annual report 2014-15: a year of change and celebration. |
Q38570830 | The Mechanoreflex and Hemodynamic Response to Passive Leg Movement in Heart Failure |
Q36940465 | The cardiovascular challenge of exercising in the heat. |
Q37140476 | The catecholamines strike back. What NO does not do. |
Q70868524 | The comparison of peak oxygen uptake between swim-bench exercise and arm stroke |
Q43503331 | The effect of beta-adrenergic blockade on leg blood flow with repeated maximal contractions of the triceps surae muscle group in man. |
Q35913175 | The effect of exercise on expression of myokine and angiogenesis mRNA in skeletal muscle of high fat diet induced obese rat. |
Q44267771 | The effect of graded exercise on IL-6 release and glucose uptake in human skeletal muscle |
Q68731723 | The effect of high-intensity exercise on the respiratory capacity of skeletal muscle |
Q54416320 | The effect of passive movement training on angiogenic factors and capillary growth in human skeletal muscle. |
Q84959459 | The effects of short recovery duration on VO2 and muscle deoxygenation during intermittent exercise |
Q38640657 | The elite cross-country skier provides unique insights into human exercise physiology |
Q33361626 | The ergogenic effect of recombinant human erythropoietin on VO2max depends on the severity of arterial hypoxemia |
Q46166081 | The lactate paradox revisited in lowlanders during acclimatization to 4100 m and in high-altitude natives |
Q83740542 | The low intracellular oxygen tension during exercise is a function of limited oxygen supply and high mitochondrial oxygen affinity |
Q28299391 | The measurement of maximal (anaerobic) power output on a cycle ergometer: a critical review |
Q43800778 | The metabolic, catecholamine and cardiovascular effects of exercise in human sympathetic denervation |
Q48283286 | The metaboreflex does not contribute to the increase in muscle sympathetic nerve activity to contracting muscle during static exercise in humans |
Q52708875 | The noninvasive simultaneous measurement of tissue oxygenation and microvascular hemodynamics during incremental handgrip exercise. |
Q36853120 | The oxygen delivery response to acute hypoxia during incremental knee extension exercise differs in active and trained males |
Q83129616 | The paradox of oxidative stress and exercise with advancing age |
Q64068177 | The paraspinal muscle-tendon system: Its paradoxical anatomy |
Q69495383 | The peripheral circulation |
Q33932625 | The relationship between skeletal muscle mitochondrial citrate synthase activity and whole body oxygen uptake adaptations in response to exercise training |
Q33900507 | The role of muscle mass in exercise-induced hyperemia |
Q41477955 | The time course and magnitude of blood flow changes in the human quadriceps muscles following isometric contraction |
Q36315453 | The versatility of the pump-perfused rat hindlimb preparation: examples relating to skeletal muscle function and energy metabolism. |
Q36995131 | Theoretical model of metabolic blood flow regulation: roles of ATP release by red blood cells and conducted responses |
Q32139032 | Theoretical studies on the regulation of oxidative phosphorylation in intact tissues |
Q38221450 | Thermoregulatory modeling for cold stress |
Q68086951 | Time course and magnitude of blood flow changes in the human quadriceps muscles during and following rhythmic exercise |
Q31837887 | Training affects muscle phospholipid fatty acid composition in humans |
Q33690792 | Two research paths for probing the roles of oxygen in metabolic regulation |
Q39037487 | Using exercise training to understand control of skeletal muscle metabolism |
Q28552560 | Validated Predictions of Metabolic Energy Consumption for Submaximal Effort Movement |
Q30981467 | Validation and advantages of FAWSETS perfusion measurements in skeletal muscle |
Q38640644 | Vascular function in health, hypertension, and diabetes: effect of physical activity on skeletal muscle microcirculation |
Q33921975 | Vasoactive substances in the interstitium of contracting skeletal muscle examined by microdialysis |
Q38044359 | Vasodilator interactions in skeletal muscle blood flow regulation |
Q50528464 | Venous occlusion plethysmography versus Doppler ultrasound in the assessment of leg blood flow during calf exercise. |
Q47388053 | Venous occlusion plethysmography vs. Doppler ultrasound in the assessment of leg blood flow kinetics during different intensities of calf exercise |
Q36943259 | Wearable Multi-Frequency and Multi-Segment Bioelectrical Impedance Spectroscopy for Unobtrusively Tracking Body Fluid Shifts during Physical Activity in Real-Field Applications: A Preliminary Study |
Q48676067 | What limits [V(·)]O(2max)? A symposium held at the BASES Conference, 6 September 2010. |
Q34184315 | What triggers the aerobic dive limit? Patterns of muscle oxygen depletion during dives of emperor penguins |
Q37609051 | Whole body hyperthermia, but not skin hyperthermia, accelerates brain and locomotor limb circulatory strain and impairs exercise capacity in humans. |
Q45299517 | Whole-body heat stress and exercise stimulate the appearance of platelet microvesicles in plasma with limited influence of vascular shear stress. |
Q58818189 | Why do arms extract less oxygen than legs during exercise? |
Q51700539 | Why is VO2 max after altitude acclimatization still reduced despite normalization of arterial O2 content? |
Q91793855 | α-Adrenergic receptor regulation of skeletal muscle blood flow during exercise in heart failure patients with reduced ejection fraction |
Q35736157 | α1-Adrenergic responsiveness in human skeletal muscle feed arteries: the impact of reducing extracellular pH. |
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