Lactic acidosis as a facilitator of oxyhemoglobin dissociation during exercise

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Lactic acidosis as a facilitator of oxyhemoglobin dissociation during exercise

W. Stringer, K. Wasserman, R. Casaburi, J. Porszasz, K. Maehara and W. French
Division of Respiratory and Critical Care Physiology and Medicine, Harbor-University of California, Los Angeles Medical Center, Torrance 90509.

The slow rise in O2 uptake (VO2), which has been shown to be linearly correlated with the increase in lactate concentration during heavy constant work rate exercise, led us to investigate the role of H+ from lactic acid in facilitating oxyhemoglobin (O2Hb) dissociation. We measured femoral venous PO2, O2Hb saturation, pH, PCO2, lactate, and standard HCO3- during increasing work rate and two constant work rate cycle ergometer exercise tests [below and above the lactic acidosis threshold (LAT)] in two groups of five healthy subjects. Mean end-exercise femoral vein blood and VO2 values for the below- and above-LAT square waves and the increasing work rate protocol were, respectively, PO2 of 19.8 +/- 2.1 (SD), 18.8 +/- 4.7, and 19.8 +/- 3.3 Torr; O2 saturation of 22.5 +/- 4.1, 13.8 +/- 4.2, and 18.5 +/- 6.3%; pH of 7.26 +/- 0.01, 7.02 +/- 0.11, and 7.09 +/- 0.07; lactate of 1.9 +/- 0.9, 11.0 +/- 3.8, and 8.3 +/- 2.9 mmol/l; and VO2 of 1.77 +/- 0.24, 3.36 +/- 0.4, and 3.91 +/- 0.68 l/min. End-exercise femoral vein PO2 did not differ statistically for the three protocols, whereas O2Hb saturation continued to decrease for work rates above LAT. We conclude that decreasing capillary PO2 accounted for most of the O2Hb dissociation during below-LAT exercise and that acidification of muscle capillary blood due to lactic acidosis accounted for virtually all of the O2Hb dissociation above LAT.

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				J. A. L. Calbet, H.-C. Holmberg, H. Rosdahl, G. van Hall, M. Jensen-Urstad, and B. Saltin Why do arms extract less oxygen than legs during exercise? Am J Physiol Regulatory Integrative Comp Physiol, November 1, 2005; 289(5): R1448 - R1458. [Abstract] [Full Text] [PDF]

				J. A. Zoladz, Z. Szkutnik, K. Duda, J. Majerczak, and B. Korzeniewski Preexercise metabolic alkalosis induced via bicarbonate ingestion accelerates V{middle dot}2 kinetics at the onset of a high-power-output exercise in humans J Appl Physiol, March 1, 2005; 98(3): 895 - 904. [Abstract] [Full Text] [PDF]

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				J. A. L. Calbet, R. Boushel, G. Radegran, H. Sondergaard, P. D. Wagner, and B. Saltin Why is VO2 max after altitude acclimatization still reduced despite normalization of arterial O2 content? Am J Physiol Regulatory Integrative Comp Physiol, February 1, 2003; 284(2): R304 - R316. [Abstract] [Full Text] [PDF]

				H Ding, G Wang, W Lei, R Wang, L Huang, Q Xia, and J Wu Non-invasive quantitative assessment of oxidative metabolism in quadriceps muscles by near infrared spectroscopy Br. J. Sports Med., December 1, 2001; 35(6): 441 - 444. [Abstract] [Full Text] [PDF]

				A. Koike, K. Kobayashi, H. Adachi, N. Shimizu, H. Itoh, M. Hiroe, and K. Wasserman Effects of Dobutamine on Critical Capillary PO2 and Lactic Acidosis Threshold in Patients With Cardiovascular Disease Chest, October 1, 2001; 120(4): 1218 - 1225. [Abstract] [Full Text] [PDF]

				F. Borrani, R. Candau, G. Y. Millet, S. Perrey, J. Fuchslocher, and J. D. Rouillon Is the {V}O2 slow component dependent on progressive recruitment of fast-twitch fibers in trained runners? J Appl Physiol, June 1, 2001; 90(6): 2212 - 2220. [Abstract] [Full Text] [PDF]

				X.-G. Sun, J. E. Hansen, W. W. Stringer, H. Ting, and K. Wasserman Carbon dioxide pressure-concentration relationship in arterial and mixed venous blood during exercise J Appl Physiol, May 1, 2001; 90(5): 1798 - 1810. [Abstract] [Full Text] [PDF]

				H. Carter, A. M. Jones, T. J. Barstow, M. Burnley, C. Williams, and J. H. Doust Effect of endurance training on oxygen uptake kinetics during treadmill running J Appl Physiol, November 1, 2000; 89(5): 1744 - 1752. [Abstract] [Full Text] [PDF]

				T. Binzoni, V. Quaresima, M. Ferrari, E. Hiltbrand, and P. Cerretelli Human calf microvascular compliance measured by near-infrared spectroscopy J Appl Physiol, February 1, 2000; 88(2): 369 - 372. [Abstract] [Full Text] [PDF]

				M.-L. Chuang, H. Ting, T. Otsuka, X.-G. Sun, F. Y. L. Chiu, W. L. Beaver, J. E. Hansen, D. A. Lewis, and K. Wasserman Aerobically generated CO2 stored during early exercise J Appl Physiol, September 1, 1999; 87(3): 1048 - 1058. [Abstract] [Full Text] [PDF]

				S. Koga, T. Shiojiri, M. Shibasaki, N. Kondo, Y. Fukuba, and T. J. Barstow Kinetics of oxygen uptake during supine and upright heavy exercise J Appl Physiol, July 1, 1999; 87(1): 253 - 260. [Abstract] [Full Text] [PDF]

				B. Grassi, V. Quaresima, C. Marconi, M. Ferrari, and P. Cerretelli Blood lactate accumulation and muscle deoxygenation during incremental exercise J Appl Physiol, July 1, 1999; 87(1): 348 - 355. [Abstract] [Full Text] [PDF]

				V. L. Billat, R. Richard, V. M. Binsse, J. P. Koralsztein, and P. Haouzi The VO2 slow component for severe exercise depends on type of exercise and is not correlated with time to fatigue J Appl Physiol, December 1, 1998; 85(6): 2118 - 2124. [Abstract] [Full Text] [PDF]

				F. Maltais, J. Jobin, M. J. Sullivan, S. Bernard, F. Whittom, K. J. Killian, M. Desmeules, M. Belanger, and P. LeBlanc Metabolic and hemodynamic responses of lower limb during exercise in patients with COPD J Appl Physiol, May 1, 1998; 84(5): 1573 - 1580. [Abstract] [Full Text] [PDF]

				R. S. Richardson, K. Tagore, L. J. Haseler, M. Jordan, and P. D. Wagner Increased VO2 max with right-shifted Hb-O2 dissociation curve at a constant O2 delivery in dog muscle in situ J Appl Physiol, March 1, 1998; 84(3): 995 - 1002. [Abstract] [Full Text] [PDF]

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Lactic acidosis as a facilitator of oxyhemoglobin dissociation during exercise