Ventilatory responses to exercise in humans lacking ventilatory chemosensitivity.

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Ventilatory responses to exercise in humans lacking ventilatory chemosensitivity.

S A Shea, L P Andres, D C Shannon and R B Banzett

Physiology Program, Harvard School of Public Health, Boston, MA 02115.

1. In healthy humans during aerobic exercise ventilation increasesand mean arterial PCO2 usually remains constant over a widerange of CO2 production. 2. Congenital central hypoventilationsyndrome (CCHS) is associated with ineffective chemoreceptorregulation of breathing and severe hypoventilation during sleep(requiring mechanical ventilation) reflecting abnormalitiesin the brainstem respiratory complex or its chemoreceptor input.Such patients can have adequate spontaneous ventilation duringresting wakefulness and participate in normal activities. 3.If children with CCHS have normal ventilatory responses to exercisethen chemoreceptors are not necessary for this ventilatory responseor the resultant control of Pa,CO2 during exercise. We studiedfive children with CCHS (aged 8-17 years) with abnormally lowventilatory responses to steady-state increased end-tidal PCO2(< 9 ml min-1 kg-1 mmHg-1) and five age-matched controls.4. Depth and rate of breathing, end-tidal PCO2, end-tidal PO2,CO2 production, O2 utilization and heart rate were monitoredduring the following conditions: whilst subjects stood at rest;following the onset of treadmill exercise (4 m.p.h.); duringsteady-state exercise (4 m.p.h.); during an incremental maximalexercise test; and during recovery from exercise. 5. There wereno significant differences in the ventilatory responses betweenCCHS subjects and controls during the onset of treadmill exercise,in the dynamic response in achieving the steady-state exercise,during steady-state exercise, in the recovery from steady-stateexercise, or during incremental exercise (up to the point ofpresumed blood lactate accumulation, as indicated by gas exchangecriteria). There was a very small mean increase in PCO2 in bothgroups during steady-state exercise (controls 1.4 mmHg; CCHS2.2 mmHg). 6. The only differences which emerged between groupswere (i) slightly more variability in PCO2 in the CCHS groupduring steady-state exercise, and (ii) the CCHS subjects didnot hyperventilate, as the controls did, at exercise levelsabove the point of presumed blood lactate accumulation. 7. Breath-by-breathcoefficient of variation of ventilation was significantly reducedin both groups during steady-state exercise compared to rest.There were no differences between groups in either state. 8.We conclude that chemoreceptors are not necessary for an appropriateventilatory response to aerobic exercise. Hence, other stimuli,such as afferent information from the exercising limbs or signalsrelated to activation of the motor cortex, can increase alveolarventilation in close proportion to CO2 production. 9. The lackof hyperventilatory response to blood lactate accumulation duringheavy exercise provides good evidence that these CCHS patientshave ineffective peripheral chemoreception.

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				S. H. Moosavi, A. Guz, and L. Adams Repeated exercise paired with "imperceptible" dead space loading does not alter VE of subsequent exercise in humans J Appl Physiol, March 1, 2002; 92(3): 1159 - 1168. [Abstract] [Full Text] [PDF]

				J. M. Wenninger, L. G. Pan, P. Martino, L. Geiger, M. Hodges, A. Serra, T. R. Feroah, and H. V. Forster Multiple rostral medullary nuclei can influence breathing in awake goats J Appl Physiol, August 1, 2001; 91(2): 777 - 788. [Abstract] [Full Text] [PDF]

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				M J Morrell, P Heywood, S H Moosavi, A Guz, and J Stevens Unilateral focal lesions in the rostrolateral medulla influence chemosensitivity and breathing measured during wakefulness, sleep, and exercise J. Neurol. Neurosurg. Psychiatry, November 1, 1999; 67(5): 637 - 645. [Abstract] [Full Text]

				Idiopathic Congenital Central Hypoventilation Syndrome . Diagnosis and Management Am. J. Respir. Crit. Care Med., July 1, 1999; 160(1): 368 - 373. [Full Text]