PURPOSE: To examine the effects of a whole-body cryotherapy (WBC) protocol (3 min at -110°C) on acute recovery and key variables of endurance performance during high-intensity intermittent exercise in a thermoneutral environment. METHODS:Eleven endurance athletes were tested twice in a randomized crossover design in which 5×5 min of high-intensity running (HIR) were followed by 1 h of passive rest at ~22°C, including either 3 min of whole-body exposure to -110°C (WBC) or a placebo intervention of 3 min walking (PBO). A ramp-test protocol was performed before HIR (R1) and after the 1-h recovery period (R2). Time to exhaustion (tlim) was measured along with alterations in oxygen content of the vastus lateralis (TSI), oxygen consumption (VO2), capillary blood lactate, heart rate (HR), and rating of perceived exertion (RPE) during submaximal and maximal running. RESULTS: The difference in tlim between R1 and R2 was lower in WBC than in PBO (P<.05, effect size d=1.13). During R2, TSI was higher in WBC during submaximal and maximal running (P<.01, d=0.68-1.01). In addition, VO2, HR, and RPE were lower at submaximal level of R2 after WBC than in PBO (P=.04 to <.01, d=0.23-0.83). CONCLUSION:WBC improves acute recovery during high-intensity intermittent exercise in thermoneutral conditions. The improvements might be induced by enhanced oxygenation of the working muscles, as well as a reduction in cardiovascular strain and increased work economy at submaximal intensities.
RCT Entities:
PURPOSE: To examine the effects of a whole-body cryotherapy (WBC) protocol (3 min at -110°C) on acute recovery and key variables of endurance performance during high-intensity intermittent exercise in a thermoneutral environment. METHODS: Eleven endurance athletes were tested twice in a randomized crossover design in which 5×5 min of high-intensity running (HIR) were followed by 1 h of passive rest at ~22°C, including either 3 min of whole-body exposure to -110°C (WBC) or a placebo intervention of 3 min walking (PBO). A ramp-test protocol was performed before HIR (R1) and after the 1-h recovery period (R2). Time to exhaustion (tlim) was measured along with alterations in oxygen content of the vastus lateralis (TSI), oxygen consumption (VO2), capillary blood lactate, heart rate (HR), and rating of perceived exertion (RPE) during submaximal and maximal running. RESULTS: The difference in tlim between R1 and R2 was lower in WBC than in PBO (P<.05, effect size d=1.13). During R2, TSI was higher in WBC during submaximal and maximal running (P<.01, d=0.68-1.01). In addition, VO2, HR, and RPE were lower at submaximal level of R2 after WBC than in PBO (P=.04 to <.01, d=0.23-0.83). CONCLUSION: WBC improves acute recovery during high-intensity intermittent exercise in thermoneutral conditions. The improvements might be induced by enhanced oxygenation of the working muscles, as well as a reduction in cardiovascular strain and increased work economy at submaximal intensities.
Authors: Joseph T Costello; Philip R A Baker; Geoffrey M Minett; Francois Bieuzen; Ian B Stewart; Chris Bleakley Journal: Cochrane Database Syst Rev Date: 2015-09-18
Authors: Jon K Davis; Sara Y Oikawa; Shona Halson; Jessica Stephens; Shane O'Riordan; Kevin Luhrs; Bridget Sopena; Lindsay B Baker Journal: Sports Med Date: 2021-12-14 Impact factor: 11.928
Authors: Agnieszka Zembron-Lacny; Barbara Morawin; Edyta Wawrzyniak-Gramacka; Jaroslaw Gramacki; Pawel Jarmuzek; Dariusz Kotlega; Ewa Ziemann Journal: Int J Environ Res Public Health Date: 2020-10-27 Impact factor: 3.390