PURPOSE: To investigate the training and detraining effects of two different hypoxic high-intensity protocols on cardiorespiratory fitness, maximal fat oxidation and energy contribution in obese women. METHODS:82 obese women completed a12-week training of: (1) interval training in hypoxia (IHT; n = 19; 3 min at 90%Wmax: 3 min at 55-65%Wmax; FiO2 = 17.2%), (2) interval training in normoxia (INT; n = 20; 3 min at 90%Wmax: 3 min at 55-65%Wmax), (3) repeated sprint training in hypoxia (RSH; n = 22; 30 s at 130%Wmax: 3 min at 55-65%Wmax; FiO2 = 17.2%), and (4) repeated sprint training in normoxia (RSN; n = 21; 30 s at 130%Wmax: 3 min at 55-65%Wmax). VO2max, workload, time to exhaustion and heart rate were assessed at baseline, after completion of 36 training sessions over 12 weeks and after 4 weeks of detraining. RESULTS:Hypoxic training (IHT and RSH) showed a significant positive effect on absolute (p < 0.001) and relative maximal oxygen uptake (p < 0.001) as well as VT2 (%VO2max; p < 0.001). Both IHT and RSH showed significantly higher values of absolute VO2max (IHT: + 26.63%; RSH: + 19.79%) and relative VO2max (IHT: + 27.95%; RSH: + 19.94%) between baseline and post-exercise (p < 0.001). VO2max (IHT: + 21.74%; RSH: + 17.65%) and relative VO2max (IHT: + 23.53%; RSH: + 17.15%) remained significantly higher after detraining in IHT and RSH (p < 0.001). CONCLUSION: A larger improvement in cardiorespiratory fitness has been observed after high-intensity interval training under normobaric hypoxia. As interval training or repeated sprint training did not show a significant effect, RSH might provide a time-metabolic effective strategy in this population.
RCT Entities:
PURPOSE: To investigate the training and detraining effects of two different hypoxic high-intensity protocols on cardiorespiratory fitness, maximal fat oxidation and energy contribution in obesewomen. METHODS: 82 obesewomen completed a 12-week training of: (1) interval training in hypoxia (IHT; n = 19; 3 min at 90%Wmax: 3 min at 55-65%Wmax; FiO2 = 17.2%), (2) interval training in normoxia (INT; n = 20; 3 min at 90%Wmax: 3 min at 55-65%Wmax), (3) repeated sprint training in hypoxia (RSH; n = 22; 30 s at 130%Wmax: 3 min at 55-65%Wmax; FiO2 = 17.2%), and (4) repeated sprint training in normoxia (RSN; n = 21; 30 s at 130%Wmax: 3 min at 55-65%Wmax). VO2max, workload, time to exhaustion and heart rate were assessed at baseline, after completion of 36 training sessions over 12 weeks and after 4 weeks of detraining. RESULTS: Hypoxic training (IHT and RSH) showed a significant positive effect on absolute (p < 0.001) and relative maximal oxygen uptake (p < 0.001) as well as VT2 (%VO2max; p < 0.001). Both IHT and RSH showed significantly higher values of absolute VO2max (IHT: + 26.63%; RSH: + 19.79%) and relative VO2max (IHT: + 27.95%; RSH: + 19.94%) between baseline and post-exercise (p < 0.001). VO2max (IHT: + 21.74%; RSH: + 17.65%) and relative VO2max (IHT: + 23.53%; RSH: + 17.15%) remained significantly higher after detraining in IHT and RSH (p < 0.001). CONCLUSION: A larger improvement in cardiorespiratory fitness has been observed after high-intensity interval training under normobaric hypoxia. As interval training or repeated sprint training did not show a significant effect, RSH might provide a time-metabolic effective strategy in this population.
Authors: Sarah Margaret Cleland; Juan Manuel Murias; John Michael Kowalchuk; Donald Hugh Paterson Journal: Appl Physiol Nutr Metab Date: 2012-01-24 Impact factor: 2.665
Authors: Alba Camacho-Cardenosa; Marta Camacho-Cardenosa; Javier Brazo-Sayavera; Martin Burtscher; Rafael Timón; Guillermo Olcina Journal: High Alt Med Biol Date: 2018-09-11 Impact factor: 1.981
Authors: Alba Camacho-Cardenosa; Marta Camacho-Cardenosa; Martin Burtscher; Ismael Martínez-Guardado; Rafael Timon; Javier Brazo-Sayavera; Guillermo Olcina Journal: Front Physiol Date: 2018-02-07 Impact factor: 4.566