Background: Background: The direction of coaching is emphasized as a factor affecting the physical conditions of pencak silat martial arts athletes in all categories. One of the physical exercises that affects body composition is aerobic activity. Objective: This study aimed to examine the effects of aerobic interval (AI) training performed for five weeks on the body mass index (BMI), basal heart rate, and the VO2max of elite athletes. Methods: The study used an experimental design involving total sampling. Thirty national-level pencak silat elite athletes (17 men and 13 women) were involved in this study. Of the participants, 23 had a normal BMI of 18.5 – 24.9 kg/m2, and 7 had a BMI above 25 kg/m2 (overweight). Their average age was 23.67 + 4.10 years with an average height of 166.03 + 7.15) cm and average initial weight of 64.84 + 12.65 kg. They were in the preparation phase of their training. This experimental research used a one-group pre-test and post-test design. The Mi Xiaomi Body Scale 2 was used for bioimpedance analysis (BIA), and body composition (body weight, BMI, body fat percentage, bone mass, protein percentage, total water body percentage, visceral fat, body age, muscle mass, and basal metabolic rate [BMR]) and VO2max measurements were acquired using a multistage fitness test (MFT). The athletes lived in a dormitory where the food, type of training and exercise, and sleeping time were controlled to the exact condition. The AI training lasted 67–77 minutes per session, twice a week for five weeks, with vigorous intensity at 80–85% of the maximal heart rate, 5 minutes per interval, and 1 minute of rest between each interval. Results: The weight, BMI, body fat percentage, basal heart rate, and VO2max showed significant differences (p < 0.05) after five weeks of AI training. However, AI training did not significantly alter muscle mass, percentage of water, percentage of protein, bone mineral density, or biological age. Conclusion: AI training performed for five weeks improved VO2max and decreased basal heart rate, body weight, and fat percentage.

Aerobic Interval Training, Vigorous-Intensity, Body Composition, Heart Rate, Oxygen Consumption

Astorino, T. A., Allen, R. P., Roberson, D. W., & Jurancich, M. (2012). Effect of high-intensity interval training on cardiovascular function, V̇O 2max, and muscular force. Journal of Strength and Conditioning Research, 26(1), 138–145. https://doi.org/10.1519/JSC.0b013e318218dd77

Baquet, G., Van Praagh, E., & Berthoin, S. (2003). Endurance Training and Aerobic Fitness in Young People. Sports Medicine, 33(15), 1127–1143. https://doi.org/10.2165/00007256-200333150-00004

Beijer, K., Lampa, E., Sundström, J., Nilsson, P. M., Elmståhl, S., Pedersen, N. L., & Lind, L. (2018). Physical activity may compensate for prolonged TV time regarding pulse rate—a cross-sectional study. Upsala Journal of Medical Sciences, 123(4), 247–254. https://doi.org/10.1080/03009734.2018.1540505

Bellew, J. W., & Gehrig, L. (2006). A comparison of bone mineral density in adolescent female swimmers, soccer players, and weightlifters. Pediatric Physical Therapy, 18(1), 19–22. https://doi.org/10.1097/01.pep.0000200952.63544.16

Berg, K. (2008). Are Sports and Games Effective for Fitness and Weight Control? Journal of Physical Education, Recreation & Dance, 79(5), 13–17. https://doi.org/10.1080/07303084.2008.10598177

Blue Malia N, Smith-ryan, A. E., Trexler, E. T., Hirsch, K. R., Science, S., & Curriculum, M. S. (2020). HHS Public Access. 21(2), 207–212. https://doi.org/10.1016/j.jsams.2017.06.001.The

Bompa, T.O., & Haff, G. G. (2009). Periodization: Theory and Methodology of Training. In Champaign, Ill. : Human Kinetics

Bompa, Tudor O, & Buzzichelli, C. A. (2019). Periodization Theory and Methodology of Training. In Champaign, IL : Human Kinetics

Bortolozo, H. I., Derchain, S., Vechin, F. C., Maginador, G. F., Santos, I. S., Torresan, R., de Nazaré Silva dos Santos, P., Sarian, L. O., & Conceição, M. S. (2020). Aerobic Fitness is a Predictor of Body Composition in Women With Breast Cancer at Diagnosis. Clinical Breast Cancer, 1–7. https://doi.org/10.1016/j.clbc.2020.10.001

Boutcher, S. H. (2011). High-intensity intermittent exercise and fat loss. Journal of Obesity, 2011. https://doi.org/10.1155/2011/868305

Castelli Correia De Campos, L. F., De Athayde Costa E Silva, A., Teixeira Fabrício Dos Santos, L. G., Trevisan Costa, L., Montagner, P. C., Borin, J. P., Ferreira De Araújo, P., & Irineu Gorla, J. (2013). Effects of training in physical fitness and body composition of the brazilian 5-a-side football team. Revista Andaluza de Medicina Del Deporte, 6(3), 91–95. https://doi.org/10.1016/S1888-7546(13)70041-8

De Feo, P. (2013). Is high-intensity exercise better than moderate-intensity exercise for weight loss? Nutrition, Metabolism and Cardiovascular Diseases, 23(11), 1037–1042. https://doi.org/10.1016/j.numecd.2013.06.002

Di Cesare, M., Bentham, J., Stevens, G. A., Zhou, B., Danaei, G., Lu, Y., Bixby, H., Cowan, M. J., Riley, L. M., Hajifathalian, K., Fortunato, L., Taddei, C., Bennett, J. E., Ikeda, N., Khang, Y. H., Kyobutungi, C., Laxmaiah, A., Li, Y., Lin, H. H., … Cisneros, J. Z. (2016). Trends in adult body-mass index in 200 countries from 1975 to 2014: A pooled analysis of 1698 population-based measurement studies with 19.2 million participants. The Lancet, 387(10026), 1377–1396. https://doi.org/10.1016/S0140-6736(16)30054-X

DiFrancisco-Donoghue, J., Werner, W. G., Douris, P. C., & Zwibel, H. (2020). Esports players, got muscle? Competitive video game players’ physical activity, body fat, bone mineral content, and muscle mass in comparison to matched controls. Journal of Sport and Health Science. https://doi.org/10.1016/j.jshs.2020.07.006

Farsani, P. A., & Rezaeimanesh, D. (2011). The effect of six-week aerobic interval training on some blood lipids and VO 2max in female athlete students. Procedia - Social and Behavioral Sciences, 30, 2144–2148. https://doi.org/10.1016/j.sbspro.2011.10.416

França, G. de O., Frantz, E. D. C., Magliano, D. C., Bargut, T. C. L., Sepúlveda-Fragoso, V., Silvares, R. R., Daliry, A., Nascimento, A. R. do, & Borges, J. P. (2020). Effects of short-term high-intensity interval and continuous exercise training on body composition and cardiac function in obese sarcopenic rats. Life Sciences, 256(June), 117920. https://doi.org/10.1016/j.lfs.2020.117920

Hannan, A., Hing, W., Simas, V., Climstein, M., Coombes, J., Jayasinghe, R., Byrnes, J., & Furness, J. (2018). High-intensity interval training versus moderate-intensity continuous training within cardiac rehabilitation: a systematic review and meta-analysis. Open Access Journal of Sports Medicine, Volume 9, 1–17. https://doi.org/10.2147/oajsm.s150596

Hemmatinafar, A., Fathi, M., & Ziaaldini, M. M. (2020). Effect of 8 weeks of HIIT on hepatic enzyme levels, lipid profile and body composition in overweight young men. Obesity Medicine, 18(December 2019), 100233. https://doi.org/10.1016/j.obmed.2020.100233

Hinrichs, T., Chae, E.-H., Lehmann, R., Allolio, B., & Platen, P. (2010). Bone Mineral Density in Athletes of Different Disciplines: a Cross- Sectional Study~!2010-04-09~!2010-06-28~!2010-08-13~! The Open Sports Sciences Journal, 3(1), 129–133. https://doi.org/10.2174/1875399x01003010129

Huang, S. W., Hsieh, F. C., Lin, L. F., Liao, C. De, Ku, J. W., Hsiao, D. J., & Liou, T. H. (2018). Correlation between Body Composition and Physical Performance in Aged People. International Journal of Gerontology, 12(3), 186–190. https://doi.org/10.1016/j.ijge.2018.02.011

Juránková, M., Bílý, J., & Hrazdíra, E. (2015). Effects of high-intensity strength interval training program on body composition. Journal of Human Sport and Exercise, 10(Proc1). https://doi.org/10.14198/jhse.2015.10.proc1.20

Laursen, P. B., & Jenkins, D. G. (2002). The Scientific Basis for High-Intensity Interval Training. Sports Medicine, 32(1), 53–73. https://doi.org/10.2165/00007256-200232010-00003

Liang, X., Chen, X., Li, J., Yan, M., & Yang, Y. (2018). Study on body composition and its correlation with obesity A Cohort Study in 5121 Chinese Han participants. Medicine (United States), 97(21). https://doi.org/10.1097/MD.0000000000010722

Lubis, J., & Wardoyo, H. (2014). Pencak silat. Jakarta: Raja Grafindo Persada.

Lubis, J., Sukur, A., Fitrianto, E. J., Suliyanthini, D., Irawan, A. A., Robianto, A., Haqiyah, A., & Oktafiranda, N. D. (2021). Wearing a fibrous protein (cv-f) cooling vest to reduce fatigue among indonesian pencak silat athletes: Is it effective? Journal of Engineering Science and Technology, 16(2), 1402–1415.

Lubis, J., Fitrianto, E. J., Sukiri, A. H., Setiakarnawijaya, Y., Robianto, A., Sukriadi, S., ... & Irawan, S. S. (2021). Does aerobic interval training induce a decrease in body weight in pencak silat elite athletes?. Journal of Physical Education & Sport, 21 (Suppl. issue 4), Art 318 pp 2372 – 2380. https://doi.org/10.7752/jpes.2021.s4318

Malmir, H., Mirzababaei, A., Moradi, S., Rezaei, S., Mirzaei, K., & Dadfarma, A. (2019). Metabolically healthy status and BMI in relation to depression: A systematic review of observational studies. Diabetes and Metabolic Syndrome: Clinical Research and Reviews, 13(2), 1099–1103. https://doi.org/10.1016/j.dsx.2019.01.027

Molmen-Hansen, H. E., Stolen, T., Tjonna, A. E., Aamot, I. L., Ekeberg, I. S., Tyldum, G. A., Wisloff, U., Ingul, C. B., & Stoylen, A. (2012). Aerobic interval training reduces blood pressure and improves myocardial function in hypertensive patients. European Journal of Preventive Cardiology, 19(2), 151–160. https://doi.org/10.1177/1741826711400512

Naderi, A., Goli, S., Shephard, R. J., & Degens, H. (2021). Six-month table tennis training improves body composition, bone health and physical performance in untrained older men; a randomized controlled trial. Science and Sports, 36(1), 72.e1-72.e9. https://doi.org/10.1016/j.scispo.2020.02.008

Porras-Segovia, A., Rivera, M., Molina, E., López-Chaves, D., Gutiérrez, B., & Cervilla, J. (2019). Physical exercise and body mass index as correlates of major depressive disorder in community-dwelling adults: Results from the PISMA-ep study. Journal of Affective Disorders, 251(January), 263–269. https://doi.org/10.1016/j.jad.2019.01.050

Rad, S. A., Mokhtar, N., & Kiwanuka, F. (2019). Effect of a Four Weeks Aerobic Training Intervention on Body Fat Percentage and Physical Fitness Indices among 5 to 6-year-old Obese, Overweight and Normal Weight Children: A Quasi-experimental Study. International Journal of Kinesiology and Sports Science, 7(1), 12-17. https://doi.org/10.7575/aiac.ijkss.v.7n.1p.12

Salazar, M. R., Carbajal, H. A., Espeche, W. G., Aizpurúa, M., Maciel, P. M., & Reaven, G. M. (2014). Identification of cardiometabolic risk: visceral adiposity index versus triglyceride/HDL cholesterol ratio. The American journal of medicine, 127(2), 152-157. https://doi.org/10.1016/j.amjmed.2013.10.012

Shakoor, E., Salesi, M., Daryanoosh, F., & Izadpanah, P. (2020). Effect of Acute High-Intensity Interval Training and Isometric Handgrip Exercise on Hemodynamic Responses in Hypertensive Women. Women’s Health Bulletin, 7(3), 60-69. https://doi.org/10.30476/WHB.2020.86948.1063

Seiler, S., Jøranson, K., Olesen, B. V., & Hetlelid, K. J. (2013). Adaptations to aerobic interval training: Interactive effects of exercise intensity and total work duration. Scandinavian Journal of Medicine and Science in Sports, 23(1), 74–83. https://doi.org/10.1111/j.1600-0838.2011.01351.x

Tangkudung, J., Haqiyah, A., Puspitorini, W., Tangkudung, A. W. A., & Riyadi, D. N. (2020). The effect of body mass index and haemoglobin on cardiorespiratory endurance. International Journal of Innovation, Creativity and Change, 11(8), 346-355.

Terada, T., Beanlands, R. A., Tulloch, H. E., Pipe, A. L., Chirico, D., & Reed, J. L. (2019). Aerobic interval training and moderate-to-vigorous intensity continuous training are associated with sex-specific improvements in psychological health in patients with heart disease. European Journal of Preventive Cardiology, 26(8), 888–891. https://doi.org/10.1177/2047487318825368

Tjønna, Arnt E., Stølen, T. O., Bye, A., Volden, M., Slördahl, S. A., Ødegård, R., Skogvoll, E., & Wisløff, U. (2009). Aerobic interval training reduces cardiovascular risk factors more than a multitreatment approach in overweight adolescents. Clinical Science, 116(4), 317–326. https://doi.org/10.1042/CS20080249

Tjønna, Arnt Erik, Lee, S. J., Rognmo, Ø., Stølen, T. O., Bye, A., Haram, P. M., Loennechen, J. P., Al-Share, Q. Y., Skogvoll, E., Slørdahl, S. A., Kemi, O. J., Najjar, S. M., & Wisløff, U. (2008). Aerobic interval training versus continuous moderate exercise as a treatment for the metabolic syndrome: A pilot study. Circulation, 118(4), 346–354. https://doi.org/10.1161/CIRCULATIONAHA.108.772822

Ubago-Guisado, E., Mata, E., Sánchez-Sánchez, J., Plaza-Carmona, M., Martín-García, M., & Gallardo, L. (2017). Influence of different sports on fat mass and lean mass in growing girls. Journal of Sport and Health Science, 6(2), 213–218. https://doi.org/10.1016/j.jshs.2015.06.001

Urzeală, C., Popescu, V., & Predoiu, R. (2014). Dimensions of the Personality of Athlete and Non-athlete Normal Weight and Overweight Female Students. Procedia - Social and Behavioral Sciences, 117, 395–401. https://doi.org/10.1016/j.sbspro.2014.02.234

Viana, R. B., Naves, J. P. A., Coswig, V. S., De Lira, C. A. B., Steele, J., Fisher, J. P., & Gentil, P. (2019). Is interval training the magic bullet for fat loss? A systematic review and meta-analysis comparing moderate-intensity continuous training with high-intensity interval training (HIIT). British Journal of Sports Medicine, 53(10), 655–664. https://doi.org/10.1136/bjsports-2018-099928

Walter-Kroker, A., Kroker, A., Mattiucci-Guehlke, M., & Glaab, T. (2011). A practical guide to bioelectrical impedance analysis using the example of chronic obstructive pulmonary disease. Nutrition Journal, 10(1), 2–9. https://doi.org/10.1186/1475-2891-10-35

Winegarden, A., Lebrun, C., Passfield, L., & Doyle-Baker, P. (2021). Three km track time trial performance changes after HIIT in competitive cross-country skiers. International Journal of Kinesiology and Sports Science, 9(1), 15-23. https://doi.org/10.7575/aiac.ijkss.v.9n.1p.15

Weston, K. S., Wisløff, U., & Coombes, J. S. (2014). High-intensity interval training in patients with lifestyle-induced cardiometabolic disease: A systematic review and meta-analysis. British Journal of Sports Medicine, 48(16), 1227–1234. https://doi.org/10.1136/bjsports-2013-092576

Yen, P. K. (1992). Losing weight realistically. Geriatric Nursing, 13(4), 225–226. https://doi.org/10.1016/S0197-4572(05)80405-7

Zhang, H., Tong, T. K., Qiu, W., Zhang, X., Zhou, S., Liu, Y., & He, Y. (2017). Comparable Effects of High-Intensity Interval Training and Prolonged Continuous Exercise Training on Abdominal Visceral Fat Reduction in Obese Young Women. Journal of Diabetes Research, 2017. https://doi.org/10.1155/2017/5071740