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  • 2008-2009

Ollie Jay

Publications

• Jay O and Webb P (2009) Improving the prediction of sweat losses during exercise. J Appl Physiol. Aug;107(2)
• Jay O (2009) Last Word on Viewpoint: Current evidence does not support an anticipatory regulation of exercise intensity mediated by the rate of heat storage. J Appl Physiol. Aug;107(2)
• Jay O (2009) Heat balance considerations when estimating the rate of body heat storage. Int J Sports Med. Apr;30(4):307
• Jay O and Kenny GP (2008) Viewpoint: Current evidence does not support an anticipatory regulation of exercise intensity mediated by rate of body heat storage. J Appl Physiol. [Epub ahead of print Aug 7]; DOI: 10.1152/japplphysiol.90632.2008.
• Jay O, Gagnon D, Reardon FD, Webb P. Ducharme MB and Kenny GP (2008) Human heat balance during postexercise recovery: separating metabolic and nonthermal effects. Am J Physiol Regul Integr Comp Physiol. May;294(5):R1586-92.
• Jay O, Reardon FD, Webb P, Ducharme MB, Ramsay T, Nettlefold L and Kenny GP (2007) Estimating changes in mean body temperature for humans during exercise using core and skin temperatures is inaccurate even with a correction factor. J Appl Physiol. Aug;103(2):443-51
  

  - Highlighted by Invited Editorial: Sawka MN, Castellani JW (2007) How hot is the human body? J Appl Physiol. Aug;103(2):419-20

• Jay O and Kenny GP (2007) The determination of changes in body heat content during exercise using calorimetry and thermometry – An invited review. J Hum Environ System. Jul;10(1):19-29
• Jay O, Gariepy LM, Reardon FD, Webb P, Ducharme MB, Ramsay T and Kenny GP (2007) A 3-compartment model for the improved estimation of changes in body heat content. Am J Physiol Regul Integr Comp Physiol, Jan; 292(1):R167-175
• Jay O, Christensen JP and White MD (2007) Face-only immersion in cold water reduces apnoeic time and stimulates ventilation. Exp Physiol, Jan; 92(1):197-206
• Jay O and White MD (2006) Maximum effort breath-hold times for males and females of similar pulmonary capacities during sudden face-only immersion at water temperatures from 0ºC to 33ºC. Appl Physiol Nutr Metab. Oct; 31(5):549-556
• Jay O and White MD (2006) The combined effects of local contact pressure and hand cooling upon cutaneous blood cell velocity of the fingertip. Eur J Appl Physiol. Jun; 97(3):332-339
• Jay O and Havenith G (2006) Differences in finger skin contact cooling response between an arterial occlusion and a vasodilated condition. J Appl Physiol, May; 100(5): 1596-1601
• Jay O and Havenith G (2004) Finger skin cooling on contact with cold materials: An investigation between male and female responses during short-term exposures with a view on hand and finger size. Eur J Appl Physiol,Oct; 93(1-2):1-8
• Jay O and Havenith G (2004) Finger skin cooling on contact with cold materials: A comparison between male and female responses during short-term exposures. Eur J Appl Physiol, Apr; 91(4): 373-381
• Jay O and Havenith G (2004) Skin cooling on contact with cold materials: The effect of blood flow during short-term exposures. Ann Occup Hyg. Mar; 48(2): 129-137