Affiliations: Laboratoire de Biophysique and Bio-Analyses, Faculté de Pharmacie, Université Montpellier I, Montpellier, France | Laboratoire ACTES, Département de Physiologie, Université des Antilles et de la Guyane, Campus de Fouillole, Pointe-à-Pitre, Guadeloupe, French West Indies | INSERM ERI 25 Muscle et Pathologies, Service Central de Physiologie Clinique, Unité d'Exploration Métabolique, CHU Lapeyronie, Montpellier, France
Note: [] Address for correspondence: Dr. J.F. Brun, INSERM ERI 25 Muscle et Pathologies, Service Central de Physiologie Clinique, Unité d'Explorations Métaboliques (CERAMM), CHU Lapeyronie, 34295 Montpellier Cédex 5, France. Tel.: +46 7338284; Fax: +46 7338986; Telex: CHR MONTP 480 766 F; E-mail: [email protected].
Abstract: Alterations of blood rheology related to muscular activity have been extensively studied over the last 20 years. It has been shown that exercise exerts a “triphasic” action on the rheological properties of blood. In the short term, exercise induces a transient hyperviscosity, mostly due to a rise in hematocrit and plasma viscosity, but also to alterations in erythrocyte rheology. Reversal of this hyperviscosity pattern over the following 24 h can be described as an “autohemodilution”. Later, training results in several profiles of “hemorheologic fitness” with a low hematocrit reflecting an expansion in plasma volume, and improvements in red cell rheology (increased deformability, decreased aggregation, reduced disaggregation shear rate). Some specific aspects of these long-term adaptations have been described, such as the intriguing occurrence of a paradoxical improvement in RBC deformability during exercise in some athletes, and overtraining, which is associated with higher plasma viscosity. Given the variety of modes of exercise and the wide heterogeneity of their effects on blood rheology in the short and long term, many investigations remain to be performed in this area of clinical hemorheology.
