Affiliations: Research Institute for Sports & Exercise Sciences, Liverpool John Moores University, Liverpool, UK | Sports Science Research Centre, Ministry of Sciences, Tehran, Iran and Department of Sports Sciences Kurdistan University, Iran
Note: [] Corresponding author: Dr. Sajad Ahmadizad, Research Institute for Sports & Exercise Sciences, Liverpool John Moores University, Henry Cotton Campus, 15-21 Webster Street, Liverpool, L3 2ET, England. Tel.: +44 151 2227652; Fax: +44 151 2314353; E-mail: [email protected].
Abstract: To examine the effects of drinking an amount of water equal to weight loss on the responses of blood rheological variables, eleven healthy male subjects performed three resistance exercise trials. The aim of the first session was to determine the amount of weight loss following a resistance exercise trial at 80% of one repletion maximum (1RM). In the second and third sessions subjects performed the same resistance exercise protocol without and with drinking an amount of water equal to that recorded for body weight loss. Three venous blood samples were taken before exercise, immediately after exercise, and at the end of 30-min recovery and were analysed for haematocrit (Hct), haemoglobin (Hb), blood cells count and the main determinant of blood rheology. Haematocrit, plasma viscosity, fibrinogen, albumin, and total protein were significantly increased in response to resistance exercise and returned to pre-exercise level following 30-min of recovery. The changes in blood rheological variables in response to resistance exercise occurred similarly in both control and water trials with no significant difference being observed between trials. Plasma volume loss through sweating and respiratory tract during resistance exercise could have contributed to the decrease in plasma volume, though, this contribution was negligible. Therefore, it is concluded that the increases in blood rheological variables in response to resistance exercise are mainly due to plasma shifts from intravascular space to extravascular spaces rather than plasma volume loss through sweating and respiratory tract.
Keywords: Water intake, resistance exercise, fibrinogen, plasma viscosity, haemoconcentration
