Mechanism involved of post-exercise cold water immersion: Blood redistribution and increase in energy expenditure during rewarming - Archive ouverte HAL
Article Dans Une Revue Temperature Année : 2024

Mechanism involved of post-exercise cold water immersion: Blood redistribution and increase in energy expenditure during rewarming

Résumé

Thermogenesis is well understood, but the relationships between cold water immersion (CWI), the post-CWI rewarming and the associated physiological changes are not. This study investigated muscle and systemic oxygenation, cardiorespiratory and haemodynamic responses, and gastrointestinal temperature during and after CWI. 21 healthy men completed randomly 2 protocols. Both protocols consisted of a 48 minutes heating cycling exercise followed by 3 recovery periods (R1-R3), but they differed in R2. R1 lasted 20 minutes in a passive semi-seated position on a physiotherapy table at ambient room temperature. Depending on the protocol, R2 lasted 15 minutes at either ambient condition (R2_AMB) or in a CWI condition at 10 °C up to the iliac crest (R2_CWI). R3 lasted 40 minutes at AMB while favouring rewarming after R2_CWI. This was followed by 10 minutes of cycling. Compared to R2_AMB, R2_CWI ended at higher VȮ 2 in the non-immersed body part due to thermogenesis (7.16(2.15) vs. 4.83(1.62) ml.min-1 .kg-1) and lower femoral artery blood flow (475(165) vs. 704(257) ml.min-1) (p<0.001). Only after CWI, R3 showed a progressive decrease in vastus and gastrocnemius medialis O 2 saturation, significant after 34 minutes (p<0.001). As blood flow did not differ from the AMB protocol, this indicated local thermogenesis in the immersed part of the body. After CWI, a lower gastrointestinal temperature on resumption of cycling compared to AMB (36.31(0.45) vs. 37.30(0.49) °C, p<0.001) indicated incomplete muscle thermogenesis. In conclusion, the rewarming period after CWI was non-linear and metabolically costly. Immersion and rewarming should be considered as a continuum rather than separate events.
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hal-04411334 , version 1 (23-01-2024)
hal-04411334 , version 2 (08-02-2024)

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Dorian Giraud, Laura Pomportes, Caroline Nicol, Denis Bertin, Jean-Laurent Gardarein, et al.. Mechanism involved of post-exercise cold water immersion: Blood redistribution and increase in energy expenditure during rewarming. Temperature, In press, 10 (1), pp.3-8. ⟨10.1080/23328940.2024.2303332⟩. ⟨hal-04411334v2⟩
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