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  • Asmussen E, Johansen SH, Jorgensen M & Nielsen M (1965). On the nervous factors controlling respiration and circulation during exercise. Experiments with curarization. Acta Physiol Scand 63, 343350.
  • Cechetto DF & Saper CB (1990). Role of the cerebral cortex in autonomic function. In Central Regulation of Autonomic Function, ed. SpyerM & LoweyD, pp. 208223. Oxford University Press, Oxford , UK .
  • Critchley HD, Corfield DR, Chandler MP, Mathias CJ & Dolan RJ (2000). Cerebral correlates of autonomic cardiovascular arousal: a functional neuroimaging investigation in humans. J Physiol 523, 259270.
  • Fadel PJ, Gallagher KG & Smith SA (2004). Neural mechanisms influencing baroreflex resetting during exercise. Recent Research Developments in Physiology, pp. 413448. Research Signpost.
  • Gallagher K, Fadel P, Stromstad M, Ide K, Smith S, Querry R, Raven P & Secher N (2001). Effects of partial neuromuscular blockade on carotid baroreflex function during exercise in humans. J Physiol 533, 861870.
  • Gandevia SC, Killian K, McKenzie DK, Crawford M, Allen GM, Gorman RB & Hales JP (1993). Respiratory sensations, cardiovascular control, kinaesthesia and transcranial stimulation during paralysis in humans. J Physiol 470, 85107.
  • Goodwin GM, McCloskey DI & Mitchell JH (1972). Cardiovascular and respiratory responses to changes in central command during isometric exercise at constant muscle tension. J Physiol 226, 173190.
  • Ichiyama RM, Waldrop TG & Iwamoto GA (2004). Neurons in and near insular cortex are responsive to muscular contraction and have sympathetic and/or cardiac-related discharge. Brain Res 1008, 273277.
  • Johansson JE (1895). Ueber die Einwirkung der Muskelthatigkeit auf die Athmung und die Hertzhiitigkeit. Skandinaviesches Arch Fiir Physiologie 5, 2066.
  • Kaufman MP & Forster HV (1996). Reflexes controlling circulatory, ventilatory and airway responses to exercise. In Handbook of Physiology, chapter 11, section 12, Exercise: Regulation and Integration of Multiple Systems, ed. RowellLB & SheperdDT, pp. 381447. American Physiological Society, Bethesda , MD , USA .
  • King AB, Menon RS, Hachinski V & Cechetto DF (1999). Human forebrain activation by visceral stimuli. J Comp Neurol 413, 572582.
  • Krogh A & Lindhard J (1913). The regulation of respiration and circulation during the initial stages of muscular work. J Physiol 47, 112136.
  • Leonard B, Mitchell JH, Mizuno M, Rube N, Saltin B & Secher NH (1985). Partial neuromuscular blockade and cardiovascular responses to static exercise in man. J Physiol 359, 365379.
  • McCloskey DI & Mitchell JH (1972). Reflex cardiovascular and respiratory response originating in exercising muscle. J Physiol 224, 173186.
  • McIlveen SA, Hayes SG & Kaufman MP (2001). Both central command and exercise pressor reflex reset carotid sinus baroreflex. Am J Physiol 280, H1454H1463.
  • Mitchell JH (1990). Neural control of the circulation during exercise. Med Sci Sports Exerc 22, 141154.
  • Mitchell JH, Kaufman MP & Iwamoto GA (1983). The exercise pressor reflex: its cardiovascular effects, afferent mechanisms, and central pathways. Ann Rev Physiol 45, 229242.
  • Nowak M, Holm S, Biering-Sorensen F, Secher NH & Friberg L (2005). ‘Central command’ and insular activation during attempted foot lifting in paraplegic humans. Hum Brain Mapp 25, 259265.
  • Nowak M, Olsen KS, Law I, Holm S, Paulson OB & Secher NH (1999). Command-related distribution of regional cerebral blood flow during attempted handgrip . J Appl Physiol 86, 819824.
  • Ogoh S, Fisher JP, Dawson EA, White MJ, Secher NH & Raven PB (2005). Autonomic nervous system influence on arterial baroreflex control of heart rate during exercise in humans. J Physiol 566, 599611.
  • Ogoh S, Wasmund WL, Keller DM, O-Yurvati A, Gallagher KM, Mitchell JH & Raven PB (2002). Role of central command in carotid baroreflex resetting in humans during static exercise. J Physiol 543, 349364.
  • Oppenheimer SM, Gelb A, Girvin JP & Hachinski VC (1992). Cardiovascular effects of human insular cortex stimulation. Neurology 42, 17271732.
  • Oppenheimer SM, Kulshreshtha N, Lenz FA, Zhang Z, Rowland LH & Dougherty PM (1998). Distribution of cardiovascular related cells within the human thalamus. Clin Auton Res 8, 173179.
  • Potts JT & Mitchell JH (1998). Central interaction between the carotid baroreflex and the exercise pressor reflex. J Exerc Sci 8, 120.
  • Potts JT, Shi XR & Raven PB (1993). Carotid baroreflex responsiveness during dynamic exercise in humans. Am J Physiol 265, H1928H1938.
  • Querry RG, Smith SA, Stromstad M, Ide K, Raven PB & Secher NH (2001). Neural blockade during exercise augments central command's contribution to carotid baroreflex resetting. Am J Physiol 280, H1635H1644.
  • Raven PB, Fadel PJ & Smith SA (2002). The influence of central command on baroreflex resetting during exercise. Exerc Sport Sci Rev 30, 3944.
  • Raven PB, Potts JT & Shi X (1997). Baroreflex regulation of blood pressure during dynamic exercise. Exerc Sport Sci Rev 25, 365389.
  • Ruggiero DA, Mraovitch S, Granata AR, Anwar M & Reis DJ (1987). A role of insular cortex in cardiovascular function. J Comp Neurol 257, 189207.
  • Saper CB (1982). Convergence of autonomic and limbic connections in the insular cortex of the rat. J Comp Neurol 210, 163173.
  • Sheriff DD, O'Leary DS, Scher AM & Rowell LB (1990). Baroreflex attenuates pressor response to graded muscle ischemia in exercising dogs. Am J Physiol 258, H305H310.
  • Smith JC, Stephens DP, Winchester PK & Williamson JW (1997). Facial cooling-induced bradycardia: attenuating effect of central command at exercise onset. Med Sci Sports Exerc 29, 320325.
  • Thornton JM, Aziz T, Schlugman D & Paterson DJ (2002). Electrical stimulation of the midbrain increases heart rate and arterial blood pressure in awake humans. J Physiol 539, 615621.
  • Thornton JM, Guz A, Murphy K, Griffith AR, Pedersen DL, Kardos A, Leff A, Adams L, Casadei B & Paterson DJ (2001). Identification of higher brain centres that may encode the cardiorespiratory response to exercise in humans. J Physiol 533, 823836.
  • Verberne AJ & Owens NC (1998). Cortical modulation of the cardiovascular system. Prog Neurobiol 54, 149168.
  • Waldrop TG, Eldridge FL, Iwamoto GA & Mitchell JH (1996). Central neural control of respiration and circulation during exercise. In Handbook of Physiology, chapter 9, section 12, Exercise: Regulation and Integration of Multiple Systems, ed. RowellLB & ShepherdJT, pp. 333380. American Physiological Society, Bethesda , MD , USA .
  • Williamson JW, McColl R & Mathews D (2003). Evidence for central command activation of the human insular cortex during exercise. J Appl Physiol 94, 17261734.
  • Williamson JW, McColl R, Mathews D, Ginsburg M & Mitchell JH (1999). Activation of the insular cortex is affected by the intensity of exercise. J Appl Physiol 87, 12131219.
  • Williamson JW, McColl R, Mathews D, Mitchell JH, Raven PB & Morgan WP (2001). Hypnotic manipulation of effort sense during dynamic exercise: cardiovascular responses and brain activation. J Appl Physiol 90, 13921399.
  • Williamson JW, McColl R, Mathews D, Mitchell JH, Raven PB & Morgan WP (2002). Brain activation by central command during actual and imagined handgrip under hypnosis. J Appl Physiol 92, 13171324.
  • Yasui Y, Breder CD, Saper CB & Cechetto DF (1991). Autonomic responses and efferent pathways from the insular cortex in the rat. J Comp Neur 303, 355374.
  • Zhang Z & Oppenheimer SM (1997). Characterization, distribution and lateralization of baroreceptor-related neurons in the rat insular cortex. Brain Res 760, 243250.
  • Zhang ZH & Oppenheimer SM (2000). Baroreceptive and somatosensory convergent thalamic neurons project to the posterior insular cortex in the rat. Brain Res 861, 241256.
  • Zuntz N & Geppert J (1886). Über die Natur der normalen Atemreize und den ort ihrer Wirkung. Arch General Physiol 38, 337338.