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Article type: Research Article
Authors: Brun, J.F. | Belhabas, H. | Granat, M.Ch. | Sagnes, C. | Thöni, G. | Micallef, J.P. | Mercier, J.
Affiliations: Service Central de Physiologie Clinique, Centre d'Exploration et de Réadaptation des Anomalies du Métabolisme Musculaire (CERAMM), CHU Lapeyronie 34295 Montpellier‐cédex 5, France Tel.: +33 4 67 33 82 84; Fax: +33 4 67 33 89 86; Telex: CHR MONTP 480 766F; E‐mail: drjfbrun.@aol.com
Note: [] Corresponding author: Dr J.F. Brun, MD, PhD, Service Central de Physiologie Clinique, Centre d'Exploration et de Réadaptation des Anomalies du Métabolisme Musculaire (CERAMM), CHU Lapeyronie 34295 Montpellier‐cédex 5, France. Tel.: +33 4 67 33 82 84; Fax: +33 4 67 33 89 86; Telex: CHR MONTP 480 766F; E‐mail: drjfbrun.@aol.com.
Abstract: In three separate studies, we have observed that the rise in blood lactate during exercise is correlated to blood viscosity and red cell aggregation. Whether these results were related to an effect of blood rheology on lactate production by muscles or on lactate disappearance remains unknown. The modelling of postexercise lactate kinetics allows a fair evaluation of lactate production by muscles (γ1) and lactate disappearance (γ2), the latter being easily measurable with simplified protocols. We thus investigated the relationships between pre‐ and postexercise blood rheology and γ2. Ten subjects (2 female and 8 males; age 16–45 yr, weight 62–106.5 kg) exhibiting a wide range of γ2 (from 2 to 7.7×10−2 min−1) underwent a maximal exercise‐test with postexercise calculation of γ2 with the simplified formula γ2=0.0724+0.755(Lac8−Lac20)/(Lac8·Δt)−0.00684Lac20 where Lac8 and Lac20 are lactate concentrations 8 and 10 min after exercise stop at the level of VO2max , as previously reported. During exercise whole blood viscosity ηb increased (+15%, p<0.01) due to a rise in hematocrit (p<0.05) and plasma viscosity (+0.08±0.03 mPa.s, p<0.05), while red cell rigidity was unchanged. Red cell aggregation (Myrenne M1) increased by 11% (p<0.05). Postexercise M1 (measured at VO2max ) was the only hemorheologic parameter correlated to γ2 (r=−0.697, p=0.037). We find once again a statistical relationship between lactate at exercise and red cell aggregation. Microcirculatory adaptations influenced by red cell aggregation may influence lactate disposal (as reflected by γ2), adding its effect to that of the balance between carbohydrates and fat oxidation which is the major determinant of blood lactate concentrations at exercise in physiological conditions.
Keywords: Blood viscosity, plasma viscosity, hemorheology, erythrocyte deformability, erythrocyte aggregability, insulin sensitivity, insulin resistance, minimal model
Journal: Clinical Hemorheology and Microcirculation, vol. 26, no. 4, pp. 231-239, 2002
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