Oxygen Cost of Breathing in Dogs

Abstract

The O₂ cost of breathing has been calculated in awake and anesthetized dogs breathing spontaneously. Respiratory variables were measured in tracheostomized dogs in the standing position, while supported in a canvas sling, at room temperatures between 20 and 23 °C. Minute ventilation ranged between 3 and 53 liters/min while VO₂ ranged from 61 to 686 ml/min. V_E, VO₂ and f varied considerably from measurement to measurement even though body temperatures and experimental conditions changed very little. VO₂ increased with V_E: VO₂ = 10.2 V_E + 58.4, r = 0.94. A cubic polynomial equation was also calculated for these data: VO₂ = 11.6 + 19.0 V_E-0.42 (V_E)² + 0.0057 (V_E)³. Awake dogs showed panting and considerable hyperventilation (P_ACO₂ = 22.5+ SD of 4.5 mm Hg). Anesthetized dogs had lower average values of f, V_E and V0₂; while average P_ACO₂ was 29.1 ± 4.5 mm Hg, VO₂ and V_E measured when the dogs were anesthetized, paralyzed and artificially ventilated were related by this equation: VO₂ = 5.9 V_E + 87.5, r ≈ 0.88. The O₂ cost of breathing, calculated by subtracting the regression equation obtained while the dogs were under artificial respiration, from the cubic polynomial equation, increased with increasing V_E in a curvilinear fashion. The values for O₂ cost of breathing at high levels of ventilation were high because dogs’ lungs are small. After correcting for lung size, values for O₂ cost of breathing were similar to those in humans