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  • Aaslid R., Markwalder, T. M. & Nornes, H. (1982). Noninvasive transcranial Doppler ultrasound recording of flow velocity in basal cerebral arteries. Journal of Neurosurgery. 57, 769774.
  • Asmussen S., Johansen, H., Jørgensen, M. & Nielsen, M. (1965). On the nervous factors controlling respiration and circulation during exercise - experiments with curarization. Acta Physiologica Scandinavica 63, 343350.
  • Borg G. (1975). Simple rating for estimation of perceived exertion. In Physical Work and Effort, ed. Borg G., pp. 3946. Pergamon, New York
  • Bradac G. B., Simon, R. S. & Heidsieck, C. H. (1976). Angiographically verified transient alteration of intercranial arteries and veins in dependence of different CO2 tension. Neuroradiology 10, 257262.
  • Cabanac M. & White, M. D. (1995). Core temperature thresholds for hyperpnea during passive hyperthermia in humans. European Journal of Applied Physiology 71, 7176.
  • Collier C. R. (1956). Determination of mixed venous CO2 tensions by rebreathing. Journal of Applied Physiology 9, 2529.
  • Craig A. D., Chen, K., Bandy, D. & Reiman, E. M. (2000). Thermosensory activation of insular cortex. Nature Neuroscience 3, 184190.
  • Dimri G. P., Malhotra, M. S., Sen Gupta, J., Kumar, T. S. & Aora, B. S. (1980). Alterations in aerobic-anaerobic proportions of metabolism during work in the heat. European Journal of Applied Physiology 45, 4350.
  • Fritzsche R., Switzer, T., Hodgkinson, B. & Coyle, E. F. (1999). Stroke volume decline during prolonged exercise is influenced by the increase in heart rate. Journal of Applied Physiology 86, 799805.
  • Giller C. A., Giller, A. M., Cooper, C. R. & Hatab, M. (2000). Evaluation of the cerebral hemodynamic response to rhythmic handgrip. Journal of Applied Physiology 88, 22052213.
  • González-Alonso J., Calbet, J. A. & Nielsen, B. (1998). Muscle blood flow is reduced with dehydration during prolonged exercise in humans. Journal of Physiology 513, 895905.
  • González-Alonso J., Calbet, J. A. & Nielsen, B. (1999a). Metabolic and thermodynamic responses to dehydration-induced reductions in muscle blood flow in exercising humans. Journal of Physiology 520, 577589.
  • González-Alonso J., Mora-Rodriguez, J. R. & Coyle, E. F. (2000). Stroke volume during exercise: interaction of environment and hydration. American Journal of Physiology 278, H321330.
  • González-Alonso J., Teller, C., Andersen, S., Jensen, F., Hyldig, T. & Nielsen, B. (1999b). Influence of body temperature on the development of fatigue during prolonged exercise in the heat. Journal of Applied Physiology 86, 10321039.
  • Gullestad L., Hallen, J. & Sejersted, O. M. (1993). Variable effects of beta-adrenoceptor blockade on muscle blood flow during exercise. Acta Physiologica Scandinavica 149, 257271.
  • Haldane J. S. (1905). The influence of high air temperatures. Journal of Hygiene 55, 497513.
  • Hales J. R. S., Rowell, L. B. & King, R. B. (1979). Regional distribution of blood flow in awake heat-stressed baboons. American Journal of Physiology 237, H705712.
  • Hanson R. D. G. (1974). Respiratory heat loss at increased core temperature. Journal of Applied Physiology 37, 103107.
  • Harper A. M. (1965). The inter-relationship between PCO2 and blood pressure in the regulation of blood flow through the cerebral cortex. Acta Neurologica Scandinavica 14, (suppl.) 94103.
  • Heistad D. D. & Kontos, H. A. (1983). Cerebral circulation. In Handbook of Physiology, section 2, vol. III, ed. Shepard, J. I., Abboud, F. M. & Geiger, S. R., pp. 137182. American Physiological Society, Bethesda .
  • Hellström G., Magnusson, B., Wahlgren, N. G., Gordon, A., Sylven, C. & Saltin, B. (1996). Carotid artery blood flow and middle cerebral artery during physical exercise. Journal of Applied Physiology 81, 413418.
  • Huang S. Y., Sun, S., Droma, T., Tao, J. X., McCullough, R. G., McCullough, R. E., Micco, A. J., Reeves, J. T. & Moore, L. G. (1992). Internal carotid arterial flow velocity during exercise in Tibetan and Han residents of Lhasa (3,658 m). Journal of Applied Physiology 73, 26382642.
  • Huang S. Y., Tawney, K. W., Bender, P. R., Groves, B. M., McCullough, R. E., Micco, A. J., Macno-Johnson, A., Cymerman, A., Greene, E. R. & Reeves, J. T. (1991). Internal carotid arterial flow velocity with exercise before and after acclimatization to 4,300 m. Journal of Applied Physiology 71, 14691476.
  • Huber P. & Handa, J. (1967). Effects of contrast material, hypercapnia, hypertonic glucose and papaverine on the diameter of the cerebral arteries. Invest Radiology 2, 1732.
  • Ide K., Gulløv, A. L., Pott, F., van Lieshout, J. J., Koefoed, B. G., Petersen, P. & Secher, N. H. (1999). Middle cerebral artery blood velocity during exercise in patients with atrial fibrillation. Clinical Physiology 19, 284289.
  • Ide K., Pott, F., Van Lieshout, J. J. & Secher, N. H. (1998). Middle cerebral artery blood velocity depends on cardiac output during exercise with a large muscle mass. Acta Physiologica Scandinavica 162, 1320.
  • Johnson J. M. & Rowell, L. B. (1975). Forearm skin and muscle vascular responses to prolonged leg exercise in man. Journal of Applied Physiology 39, 920924.
  • Jones N., Robertson, D. G. & Kane, J. W. (1979). Difference between end-tidal and arterial PCO2 in exercise. Journal of Applied Physiology 47, 954960.
  • Jørgensen L. (1995). Transcranial Doppler ultrasound for cerebral perfusion. Acta Physiologica Scandinavica 152 (suppl.), 625.
  • Jørgensen L., Perko, M., Perko, G. & Secher, N. H. (1993). Middle cerebral artery velocity during head-up tilt induced hypovolaemic shock in humans. Clinical Physiology 13, 323336.
  • Jørgensen L., Perko, M. & Secher, N. H. (1992). Regional cerebral artery mean flow velocity and blood flow during dynamic exercise in humans. Journal of Applied Physiology 73, 18251830.
  • Linkis P., Jørgensen, L., Olesen, H. L., Madsen, P. L., Lassen, N. A. & Secher, N. H. (1995). Dynamic exercise enhances regional cerebral artery mean flow velocity. Journal of Applied Physiology 78, 1216.
  • MacDougal J. D., Reddan, W. G., Layton, C. R. & Dempsey, J. A. (1974). Effects of metabolic hyperthermia on performance during heavy prolonged exercise. Journal of Applied Physiology 36, 538544.
  • Madsen P. L., Sperling, B. K., Warming, T., Schmidt, J. F., Secher, N. H., Wildschiødtc, G., Holm, S. & Lassen, N. A. (1993). Middle cerebral artery blood velocity and cerebral blood flow and O2 uptake during dynamic exercise. Journal of Applied Physiology 74, 245250.
  • Mariak Z., White, M. D., Lewko, J., Lyson, T., Piekarski, P. (1999). Direct cooling of the human brain by heat loss from the upper respiratory tract. Journal of Applied Physiology 87, 16091613.
  • Minson C. T., Stacey, L. W., Cardell, A. F., Pawelczyk, J. A. & Kenney, W. L. (1998). Age alters the cardiovascular response to direct passive heating. Journal of Applied Physiology 84, 13231332.
  • Newell D. W, Aaslid, R., Lam, A., Mayberg, T. S. & Winn, H. R. (1994). Comparison of flow and velocity during dynamic autoregulation testing in humans. Stroke 25, 793797.
  • Nielsen B., Hales, J. R. S., Strange, N. J., Christensen, N. J., Warberg, J. & Saltin, B. (1993). Human circulatory and thermoregulatory adaptations with heat acclimation and exercise in a hot, dry environment. Journal of Physiology 460, 467485.
  • Nielsen B., Savard, G., Richter, E. A., Hargreaves, M. & Saltin, B. (1990). Muscle blood flow and metabolism during exercise and heat stress. Journal of Applied Physiology 69, 10401046.
  • Paulson O. B., Strandgaard, S. & Edvisson, L. (1990). Cerebral autoregulation. Cerebrovascular Brain Metabolism Review 2, 161192.
  • Pawelczyk J. A., Hanel, B., Pawelczyk, R. A., Warberg, J. & Secher, N. H. (1992). Leg vasoconstriction during dynamic exercise with reduced cardiac output. Journal of Applied Physiology 73, 18381846.
  • Poulin M. J., Syed, R. J. & Robbins, P. A. (1999). Assessments of flow by transcranial Doppler ultrasound in the middle cerebral artery during exercise in humans. Journal of Applied Physiology 85, 388397.
  • Rasch W., Samsom, P., Cote, J & Cabanac M. (1991). Heat loss from the human head during exercise. Journal of Applied Physiology 71, 590595.
  • Reivich M. (1964). Arterial PCO2 and cerebral hemodynamics. American Journal of Physiology 206, 2535.
  • Rowell L. B. (1974). Human cardiovascular adjustments to exercise and thermal stress. Physiological Reviews 54, 75159.
  • Rowell L. B. (1986). Human Circulation: Regulation during Physical Stress, pp. 363406. Oxford University Press, New York .
  • Rowell L. B., Blackmon, J., Martin, R., Mazzarella, J. & Bruce, R. A. (1965). Hepatic clearance of indocyanine green in man under thermal and exercise stresses. Journal of Applied Physiology 20, 384394.
  • Rowell L. B., Brengelmann, G., Murray, J., Kraning, K. & Kusumi, F. (1969). Human metabolic responses to hyperthermia during mild to maximal exercise. Journal of Applied Physiology 26, 395402.
  • Rowell L. B., Marx, H. J., Bruce, R. A., Conn, R. D. & Kusumi, F. (1966). Reductions in cardiac output, central blood volume and stroke volume with thermal stress in normal men during exercise. Journal of Clinical Investigation 45, 18011816.
  • Serrador J. M., Picot, P. A., Rutt, B. K., Shoemaker, J. K. & Bondar, R. L. (2000). MRI measures of middle cerebral artery diameter in conscious humans during simulated orthostasis. Stroke 31, 16721678.
  • Valdueza J. M., Balzer, J. O., Villringer, A, Vogl, T. J., Kutter, R. & Einhaupl K. M. (1997). Changes in blood flow velocity and diameter of the middle cerebral artery during hyperventilation: assessment with MR and transcranial Doppler sonography. American Journal of Neuroradiology 18, 19291934.
  • Wahlgren N. G., Hellström, G., Lindquist, C. & Rudehill, A. (1992). Sympathetic nerve stimulation in man increases middle cerebral artery blood flow velocity. Cerebrovascular Disease 2, 359364.
  • White M. D. & Cabanac, M. (1996). Exercise hyperpnea and hyperthermia in humans. Journal of Applied Physiology 81, 12491254.