All Stories

  1. Heat‐related changes in the velocity and kinetic energy of flowing blood influence the human heart's output during hyperthermia
  2. Thermo‐haemodynamic coupling during regional thigh heating: Insight into the importance of local thermosensitive mechanisms in blood circulation
  3. Lower limb hyperthermia augments functional hyperaemia during small muscle mass exercise similarly in trained elderly and young humans
  4. Pulmonary ventilation and gas exchange during prolonged exercise in humans: Influence of dehydration, hyperthermia and sympathoadrenal activity
  5. Skeletal muscle angiogenic, regulatory, and heat shock protein responses to prolonged passive hyperthermia of the human lower limb
  6. Exercise Heat Acclimation With Dehydration Does Not Affect Vascular and Cardiac Volumes or Systemic Hemodynamics During Endurance Exercise
  7. Regional thermal hyperemia in the human leg: Evidence of the importance of thermosensitive mechanisms in the control of the peripheral circulation
  8. Exercise heat acclimation has minimal effects on left ventricular volumes, function and systemic hemodynamics in euhydrated and dehydrated trained humans
  9. Dehydration reduces stroke volume and cardiac output during exercise because of impaired cardiac filling and venous return, not left ventricular function
  10. Heat Acclimation with Controlled Heart Rate: Influence of Hydration Status
  11. Heat, Hydration and the Human Brain, Heart and Skeletal Muscles
  12. Noninvasive assessment of the common carotid artery hemodynamics with increasing exercise work rate using wave intensity analysis
  13. Whole‐body heat stress and exercise stimulate the appearance of platelet microvesicles in plasma with limited influence of vascular shear stress
  14. Common Carotid Artery Diameter, Blood Flow Velocity and Wave Intensity Responses at Rest and during Exercise in Young Healthy Humans: A Reproducibility Study
  15. Mechanisms for the control of local tissue blood flow during thermal interventions: influence of temperature-dependent ATP release from human blood and endothelial cells
  16. Whole body hyperthermia, but not skin hyperthermia, accelerates brain and locomotor limb circulatory strain and impairs exercise capacity in humans
  17. Exercise intensity modulates the appearance of circulating microvesicles with proangiogenic potential upon endothelial cells
  18. Temperature and blood flow distribution in the human leg during passive heat stress
  19. Maintained peak leg and pulmonary VO2despite substantial reduction in muscle mitochondrial capacity
  20. Central and peripheral hemodynamics in exercising humans: leg vs arm exercise
  21. Dehydration accelerates reductions in cerebral blood flow during prolonged exercise in the heat without compromising brain metabolism
  22. Blood temperature and perfusion to exercising and non‐exercising human limbs
  23. Local temperature-sensitive mechanisms are important mediators of limb tissue hyperemia in the heat-stressed human at rest and during small muscle mass exercise
  24. The ubiquitous ATP molecule: could it be the elusive thermal mediator igniting skin perfusion and sweating in the heat-stressed human?
  25. Dehydration affects cerebral blood flow but not its metabolic rate for oxygen during maximal exercise in trained humans
  26. Low-intensity training increases peak arm VO2by enhancing both convective and diffusive O2delivery
  27. Left ventricular energetics: new insight into the plasticity of regional contributions at rest and during exercise
  28. Maximal heart rate does not limit cardiovascular capacity in healthy humans: insight from right atrial pacing during maximal exercise
  29. Haemodynamic responses to dehydration in the resting and exercising human leg
  30. ATP as a mediator of erythrocyte-dependent regulation of skeletal muscle blood flow and oxygen delivery in humans
  31. International Olympic Committee consensus statement on thermoregulatory and altitude challenges for high-level athletes
  32. Supraspinal fatigue after normoxic and hypoxic exercise in humans
  33. Influence of erythrocyte oxygenation and intravascular ATP on resting and exercising skeletal muscle blood flow in humans with mitochondrial myopathy
  34. Temperature-dependent release of ATP from human erythrocytes: mechanism for the control of local tissue perfusion
  35. Human thermoregulation and the cardiovascular system
  36. Effects of graded exercise-induced dehydration and rehydration on circulatory markers of oxidative stress across the resting and exercising human leg
  37. Dehydration reduces left ventricular filling at rest and during exercise independent of twist mechanics
  38. Left ventricular mechanical limitations to stroke volume in healthy humans during incremental exercise
  39. Hemodynamic responses to heat stress in the resting and exercising human leg: insight into the effect of temperature on skeletal muscle blood flow
  40. Muscle mitochondrial capacity exceeds maximal oxygen delivery in humans
  41. Erythrocyte-dependent regulation of human skeletal muscle blood flow: role of varied oxyhemoglobin and exercise on nitrite, S-nitrosohemoglobin, and ATP
  42. Effects of graded heat stress on global left ventricular function and twist mechanics at rest and during exercise in healthy humans
  43. Separate and combined effects of heat stress and exercise on circulatory markers of oxidative stress in euhydrated humans
  44. Muscle interstitial ATP and norepinephrine concentrations in the human leg during exercise and ATP infusion
  45. ATP-induced vasodilation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins, and adenosine
  46. Activation of ATP/UTP-selective receptors increases blood flow and blunts sympathetic vasoconstriction in human skeletal muscle
  47. Glutamate availability is important in intramuscular amino acid metabolism and TCA cycle intermediates but does not affect peak oxidative metabolism
  48. Restrictions in systemic and locomotor skeletal muscle perfusion, oxygen supply andVO2during high-intensity whole-body exercise in humans
  49. Haemodynamic responses to exercise, ATP infusion and thigh compression in humans: insight into the role of muscle mechanisms on cardiovascular function