Chemoreflex control of breathing during wakefulness in healthy men and women

doi:10.1152/japplphysiol.01208.2003

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J Appl Physiol 98: 822-828, 2005. First published November 19, 2004; doi:10.1152/japplphysiol.01208.2003
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Chemoreflex control of breathing during wakefulness in healthy men and women

Dennis Jensen,¹ Larry A. Wolfe,¹^,2 Denis E. O'Donnell,²^,4 and Gregory A. L. Davies³

¹School of Physical and Health Education, Departments of ²Physiology and ³Obstetrics and Gynaecology, and ⁴Division of Respirology and Critical Care, Department of Medicine, Queen's University, Kingston, Ontario, Canada

Submitted 11 November 2003 ; accepted in final form 15 November 2004

This study used a modified CO₂ rebreathing procedure to examinethe effect of gender on the chemoreflex control of breathingduring wakefulness in healthy men (n = 14) and women (n = 14).Women were tested in the follicular phase of the menstrual cycle.During rebreathing trials, subjects hyperventilated to reducethe partial pressure of end-tidal CO₂ (PET_CO₂) below 25 Torrand were then switched to a rebreathing bag containing a normocapnichypoxic or hyperoxic gas mixture. During the trial, PET_CO₂ increased,while O₂ was maintained at a constant level. The point at whichventilation began to rise as PET_CO₂ increased was identifiedas the ventilatory recruitment threshold (VRT). Ventilationbelow the VRT was measured, and the slope of the ventilatoryresponse above the VRT was determined. Gender had no effecton the hyperoxic or hypoxic VRT for CO₂. Central chemoreflexsensitivity was significantly greater in men than women butnot after correction for forced vital capacity. Measures ofperipheral chemoreflex sensitivity were similar between genders.However, the slope of the tidal volume (VT) response to hyperoxicand hypoxic CO₂ rebreathing (corrected and uncorrected) wasgreater in men than women, respectively. We conclude that centralchemoreflex sensitivity is greater in men compared with womenas reflected by differences in ventilatory (uncorrected) andVT (corrected and uncorrected) responses to CO₂. However, genderhas no significant effect on the central chemoreflex VRT forCO₂. The peripheral chemoreflex control of breathing duringwakefulness is similar between men and women.

hypoxia; chemoreflex sensitivity; ventilatory recruitment threshold; sleep-disordered breathing

Address for reprint requests and other correspondence: L. A. Wolfe, School of Physical and Health Education, Queen's Univ., Kingston, Ontario, Canada K7L 3N6 (E-mail: wolfel{at}post.queensu.ca)

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