Morphine reduces ventilation without changing metabolic rate in exercise

Abstract

MARTIN, BRUCE J., CLIFFORD W. ZWILLICH, and JOHN V. WEIL. Morphine reduces ventilation without changing metabolic rate in exercise. Med. Sci. Sports Exercise, Vol. 12, No. 4, pp. 285–287, 1980. Morphine reduces ventilation (V_E) in exercising man. The mechanism of this ventilatory depression remains unclear. Recent evidence suggests that morphine may reduce exercise V_E by simultaneously reducing exercise metabolic rate. We measured exercise V_E in six normal subjects after intravenous injection of either saline or 0.1 mg/kg morphine sulfate. During treadmill walks requiring 1/3 and 1/2 of the maximal oxygen uptake, morphine reduced V_E (P2 at both work levels (PE and higher PETco₂ in exercise after morphine persisted after elevation of alveolar Po₂ to 200 torr. Thus, morphine left unchanged the contribution of the hypoxic chemoreflex to normoxic exercise V_E. In addition, morphine failed to alter the ventilatory responses to hypercapnia measured at each exercise level. These results suggest that analgesic dosages of morphine reduce the ventilatory response to exercise through a mechanism other than alterations in metabolic rate or chemical ventilatory responses.