Summary
Repayment of oxygen debt incurred during physical effort is determined by measuring the extra oxygen used above the resting value during a recovery period of 0.5 to 1 h. Since this imposes an additional stress on the experimental subject, an attempt has been made to develop a simple, quick, and accurate method for determining oxygen debt. The method described here is based on the fact that the curve describing recovery is the resultant of two exponential curves, one fast and one slow, the former being complete in less than 3 min. We have derived a mathematical equation by means of which the total oxygen debt measurable over a 60 min period can be extrapolated from the measurements of excess oxygen consumption over the resting value at the end of 3, 6, and 9 min of the recovery period. The equation has been validated by observations on 10 young healthy subjects at sea level and at high altitude. The results show that the equation has good predictive value.
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References
Davies CTM (1968) Cardiac frequency in relation to aerobic capacity for work. Ergonomics 11:511–526
Davies CTM, Crockford GW (1971) The kinetics of recovery oxygen intake and blood lactic acid concentration measured to a baseline of mild steady work. Ergonomics 14:721–731
Gisolfi C, Robinson S, Turrell ES (1966) Effect of aerobic work performed during recovery from exhausting work. J Appl Physiol 21:1767–1772
Hill AV, Long CNH, Lupton H (1924) Muscular exercise, lactic acid and the supply and utilization of oxygen. Part V: The recovery process after exercise in man. Proc R Soc London [Biol] 97:84–126
Hill AV, Long CNH, Lupton H (1924) Muscular exercise, lactic acid, and the supply and utilization of oxygen. Part VI: The oxygen debt at the end of exercise. Proc R Soc London [Biol] 97:127–138
Katch FI, Girandola RN, Henry FM (1972) The influence of the estimated oxygen cost of ventilation on oxygen deficit and recovery oxygen intake for moderately heavy bicycle ergometer exercise. Med Sci Sports 4:71–76
Margaria R, Edwards HT, Dill DB (1933) The possible mechanisms of contracting and paying the oxygen debt and the role of lactic acid in muscular contraction. Am J Physiol 106:689–715
Margaria R, Cerretelli P, Prompero PE, Massari C, Torrelli G (1963) Kinetics and mechanism of oxygen debt contraction in man. J Appl Physiol 18:371–377
Margaria R, Cerretelli P, Mangili E (1964) Balance and kinetics of anaerobic energy release during strenuous exercise in man. J Appl Physiol 19:623–628
Sen Gupta J, Dimri GP, Joseph NT, Majumdar NC, Malhotra MS (1974) A simple and quick method for determination of oxygen debt contracted during physical efforts. Ergonomics 17:249–257
Whipp BJ, Seard C, Wasserman K (1970) Oxygen deficit oxygen debt relationships and efficiency of anaerobic work. J Appl Physiol 28:452–456
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Dimri, G.P., Sen Gupta, J. & Majumdar, N.C. An extrapolation procedure for determination of oxygen debt repayment. Europ. J. Appl. Physiol. 44, 153–159 (1980). https://doi.org/10.1007/BF00421093
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DOI: https://doi.org/10.1007/BF00421093