THE EFFECT OF HIGH-INTENSITY INTERVAL TRAINING, MODERATE-INTENSITY INTERVAL TRAINING, AND CONTINUOUS TRAINING ON ANAEROBIC AND AEROBIC CAPACITY
THE EFFECT OF HIGH-INTENSITY INTERVAL TRAINING, MODERATE-INTENSITY INTERVAL TRAINING, AND CONTINUOUS TRAINING ON ANAEROBIC AND AEROBIC CAPACITY
Abstract
The purpose of this research is to study and compare the effects of high-intensity interval training (HIIT), moderate-intensity interval training (MIIT), and continuous training (CT) on anaerobic and aerobic capacity in Bangkokthonburi university students. Methods: 21 male students aged 20-24 years who are now studying in the Faculty of Sports Science and Technology of Bangkokthonburi university volunteered to participate in this study. Subjects were divided into 3 groups of 7 subjects who participated in 8 weeks of exercise training for 3 days/per week. The HIIT group (n=7) conducted a 20-second sprint exercise with 45 seconds of walking for 5 sets. The MIIT group performed 4 minutes of moderate-intensity running exercise alternating 4 minutes of walking for 4 sets, and the CT group performed 45 minutes of continuous running exercise training with pre and post-test. Data were analyzed with statistics mean, and standard deviation. Differentiated by one-way ANOVA and Tukey's test. Results: Anaerobic capacity; HIIT (7.67±0.76 W.kg-1) was indifferent from MIIT (8.06±0.70 W.kg-1) (p>0.05) but significant difference from CT (7.81±0.54 W.kg-1) (p<0.05) while the aerobic capacity for HIIT (3.81±0.441 ml/kg/min) was indifferent from MIIT (3.95±0.39 ml/kg/min) (p>0.05), but HIIT (3.81±0.441 ml/kg/min) was significant difference from CT (4.42±0.72 ml/kg/min) (p<0.05).
References
Chee R. (2019). Training Power Systems: Anaerobic and Aerobic Training Methods. Retrieved 18 January 2022. From https://www.bodybuilding.com/fun/anaerobic -aerobic-training-methods.htm
Coswig, S. V, Babalho, M, Raiol, R, Del Vecchio, B, F, Ramirez-Campillo, R, and P. Gentil. (2020). Effects of high vs moderate-intensity intermittent training on functionality, resting heart rate, and blood pressure of elderly women. Retrieved 22 August 2020. From https://www.ncbi.nlm.nih.gov/pmc/articles/ PMC7027031/
Gentil P, and F.B. Del Vecchio. (2017). Commentary: High-intensity Intermittent Training vs. Moderate-intensity Intermittent Training: Is It a Matter of Intensity or Intermittent Efforts. Frontiers in Physiology. 8. 370.
Gibala MJ, Gillen JB, and M.E. Percival. (2014). Physiological and Health-related Adaptations to Low-Volume Interval training: Influences of Nutrition and sex. Sports Medicine. 44(2). 127–137.
Gist NH, Fedewa MV, Dishman RK, and K.J. Cureton. (2014). Sprint interval training effects on aerobic capacity: a systematic review and meta-analysis. Sports Medicine (Auckland, N.Z.). 44(2). 269-279.
Martin J, Maclnnis, and J. Gibala. (2016). Physiological adaptations to interval training and the role of exercise intensity. Journal of Physiology. 595(9). 2915–2930.
Mayo clinic staff. (2014). Rev up your workout with interval training. Retrieved 4 June 2022. From https://www.mayoclinic.org/healthy-lifestyle/fitness/in-depth/art-20044588?pg=1
Osawa Y, Azuma K, Tabata S, Katsukawa F, Ishida H, Oguma Y, Kawai T, Itoh H, Okuda S, and H. Matsumoto. (2014). Effects of 16-week high intensity interval training using upper and lower body ergometers on aerobic fitness and morphological changes in healthy men: preliminary study. Open Access Journal of Sports Medicine. 5. 257–265.
Tremblay M.S, Colley R.C, Saunders T.J, Healy G.N, and N. Owen. (2010). Physiological and health implications of a sedentary lifestyle. Applied Physiology, Nutrition, and Metabolism. 35(6). 725–740.