Exercise-induced arterial hypoxaemia in healthy human subjects at sea level.

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Exercise-induced arterial hypoxaemia in healthy human subjects at sea level.

J A Dempsey, P G Hanson and K S Henderson

We determined the incidence of exercise-induced arterial hypoxaemiaand its determinants in sixteen highly trained, healthy runnerswho were capable of achieving and sustaining very high metabolicrates (maximal O2 uptake = 72 +/- 2 ml kg-1 min-1 or 4.81 +/-0.13 l min-1). Arterial blood gases and acid-base status weredetermined at each load of a progressive short-term exercisetest and repeatedly during constant-load treadmill running whilebreathing air and during inhalation of mildly hypoxic, hyperoxic,and helium-enriched gases. Three types of responses to heavyand maximum exercise were evident and highly reproducible withinsubjects. Four runners maintained arterial PO2 (Pa, O2) within10 mmHg of resting values, another four showed 10-15 mmHg reductionsin Pa, O2, and the remaining eight showed reductions of 21-35mmHg, i.e. in all cases to a Pa, O2 of less than 75 mmHg andto less than 60 mmHg in two cases. During constant-load exercise,Pa, O2 was often maintained during the initial 30 s when hyperventilationwas greatest; then hypoxaemia occurred and in most cases waseither maintained or worsened over the ensuing 3-4 min. Themost severe hypoxaemia during heavy exercise was associatedwith no or little alveolar hyperventilation (Pa, CO2 greaterthan 35 mmHg and PA, O2 less than 110 mmHg) and an alveolarto arterial PO2 difference [(A-a)DO2] in excess of 40 mmHg.During 3-4 min of heavy exercise alveolar PO2 (PA, O2) decreasedby 20 mmHg in mild hypoxia (0.17 FI, O2; inspired % O2) andincreased by 20 mmHg during mild hyperoxia (0.24 FI, O2) and10 mmHg during the hyperventilation which accompanied normoxichelium breathing. In all cases Pa, O2 changed in proportionto PA, O2 with no consistent change in the alveolar to arterialPO2 difference [(A-a)DO2]. In view of the correction of hypoxaemiawith mild hyperoxia and the very high ratios of alveolar ventilationto pulmonary blood flow (VA/QC = 4-6) achieved during heavyexercise, we think it unlikely that non-uniformity of the VA/QCdistribution or veno-arterial shunt could explain the hypoxaemiaobserved in most of our subjects. By exclusion, we suggest thathypoxaemia may be attributed to a diffusion limitation secondaryto very short red cell transit times in at least a portion ofthe pulmonary circulation.(ABSTRACT TRUNCATED AT 400 WORDS)

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				M. K. Stickland, A. T. Lovering, and M. W. Eldridge Exercise-induced Arteriovenous Intrapulmonary Shunting in Dogs Am. J. Respir. Crit. Care Med., August 1, 2007; 176(3): 300 - 305. [Abstract] [Full Text] [PDF]

				A. N. H. Hodges, A. W. Sheel, J. R. Mayo, and D. C. McKenzie Human lung density is not altered following normoxic and hypoxic moderate-intensity exercise: implications for transient edema J Appl Physiol, July 1, 2007; 103(1): 111 - 118. [Abstract] [Full Text] [PDF]

				L Ansley, D Petersen, A Thomas, A St Clair Gibson, P Robson-Ansley, T D Noakes, and A M Hunter *The effect of breathing an ambient low-density, hyperoxic gas on the perceived effort of breathing and maximal performance of exercise in well-trained athletes Commentary** Br. J. Sports Med., January 1, 2007; 41(1): 2 - 7. [Abstract] [Full Text] [PDF]

				J. A. Dempsey Is the healthy respiratory system (always) built for exercise? J. Physiol., October 15, 2006; 576(2): 339 - 340. [Full Text] [PDF]

				B. Saltin, J. A. L. Calbet, and P. D. Wagner Point: In health and in a normoxic environment, VO2 max is limited primarily by cardiac output and locomotor muscle blood flow J Appl Physiol, February 1, 2006; 100(2): 744 - 748. [Full Text] [PDF]

				L. M. Romer, H. C. Haverkamp, A. T. Lovering, D. F. Pegelow, and J. A. Dempsey Effect of exercise-induced arterial hypoxemia on quadriceps muscle fatigue in healthy humans Am J Physiol Regulatory Integrative Comp Physiol, February 1, 2006; 290(2): R365 - R375. [Abstract] [Full Text] [PDF]

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				P. A. Wilkins, R. D. Gleed, N. M. Krivitski, and A. Dobson Extravascular lung water in the exercising horse J Appl Physiol, December 1, 2001; 91(6): 2442 - 2450. [Abstract] [Full Text] [PDF]

				T. J. Wetter, C. M. St. Croix, D. F. Pegelow, D. A. Sonetti, and J. A. Dempsey Effects of exhaustive endurance exercise on pulmonary gas exchange and airway function in women J Appl Physiol, August 1, 2001; 91(2): 847 - 858. [Abstract] [Full Text] [PDF]

				M. C. P. Van Beekvelt, J. K. Shoemaker, M. E. Tschakovsky, M. T. E. Hopman, and R. L. Hughson Blood flow and muscle oxygen uptake at the onset and end of moderate and heavy dynamic forearm exercise Am J Physiol Regulatory Integrative Comp Physiol, June 1, 2001; 280(6): R1741 - R1747. [Abstract] [Full Text] [PDF]

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