The effect of aerobic training with two different intensities on body composition, aerobic capacity, and salivary hormones of overweight men
الموضوعات :
Journal of Physical Activity and Hormones
Ebrahim Safari
1
,
Alireza Elmieh
2
,
Maryam Safari
3
,
mina safari
4
1 - Department of sports Biomechanics, Central Tehran Branch, Islamic Azad university, Tehran, Iran.
2 - Associate Professor, Department of Physical Education and Sports Science, Rasht Branch, Islamic Azad University, Rasht, Iran
3 - Department of Physical Education and Sports Science, Rasht Branch, Islamic Azad University, Rasht, Iran
4 - Department of Physical Education and Sports Science, Rasht Branch, Islamic Azad University, Rasht, Iran
تاريخ الإرسال : 26 الإثنين , صفر, 1445
تاريخ التأكيد : 27 الخميس , ربيع الأول, 1445
تاريخ الإصدار : 16 الجمعة , صفر, 1445
الکلمات المفتاحية:
Aerobic exercise,
Cortisol,
Lactate dehydrogenase,
salivary,
body composition,
ملخص المقالة :
Introduction:The main aim of this study was to investigate the effect of aerobic exercise with two different intensities on body composition, aerobic capacity, and salivary hormones of overweight men.Materials and Methods: 35 overweight male volunteers (mean age 31.3 ± 3.3 years, height 170.5 ± 4, weight 77.42 ± 6.2) were randomly divided into three groups of high-intensity aerobic exercise (HIAT, 12 people) and low-intensity exercise. (LIAT, n=12) and control group (CG, n=11). Body composition (WHR, BMI, fat percentage, lean body mass), VO2 max, salivary cortisol, testosterone, and lactate dehydrogenase were evaluated before and after the 8-week training program. Paired t-test and ANOVA were used for statistical analysis (P<0.05).Results: The results of this study showed that high-intensity aerobic training significantly decreased weight, BMI, and fat percentage and increased cortisol and lactate dehydrogenase hormones in this training group. Low-intensity aerobic exercise led to an increase in testosterone (P<0.05).Conclusion: The results of our research revealed that high-intensity aerobic exercise induces weight loss, enhances body composition, and elevates cortisol and lactate dehydrogenase hormones in overweight men. while low-intensity aerobic exercise increases testosterone levels.
المصادر:
Reference
Zurek G, Danek N, Żurek A, Nowak-Kornicka J, Żelaźniewicz A, Orzechowski S, et al. Effects of dominance and Sprint interval exercise on testosterone and cortisol levels in strength-, endurance-, and non-training men. Biology. 2022;11(7):961.
Hayes LD, Elliott BT. Short-term exercise training inconsistently influences basal testosterone in older men: a systematic review and meta-analysis. Frontiers in physiology. 2019;9:1878.
El-Zayat SR, Sibaii H, El-Shamy KA. Physiological process of fat loss. Bulletin of the National Research Centre. 2019;43(1):1-15.
Bahrami A, Saremi A. Effect of caloric restriction with or without aerobic training on body composition, blood lipid profile, insulin resistance, and inflammatory marker in middle-age obese/overweight men. Arak Medical University Journal. 2011;14(3):11-9.
Marzetti E, Calvani R, Tosato M, Cesari M, Di Bari M, Cherubini A, et al. Physical activity and exercise as countermeasures to physical frailty and sarcopenia. Aging clinical and experimental research. 2017;29:35-42.
Armstrong A, Jungbluth Rodriguez K, Sabag A, Mavros Y, Parker HM, Keating SE, et al. Effect of aerobic exercise on waist circumference in adults with overweight or obesity: A systematic review and meta‐analysis. Obesity Reviews. 2022;23(8):e13446.
Hassannejad A, Khalaj A, Mansournia MA, Rajabian Tabesh M, Alizadeh Z. The effect of aerobic or aerobic-strength exercise on body composition and functional capacity in patients with BMI≥ 35 after bariatric surgery: a randomized control trial. Obesity surgery. 2017;27:2792-801.
Huntula S, Punsawad C, Lalert L. Alteration in salivary cortisol and interleukin-6 levels during two different intensities of acute aerobic exercise. Journal of Physical Education and Sport. 2022;22(6):1363-71.
Cano A, Ventura L, Martinez G, Cugusi L, Caria M, Deriu F, et al. Analysis of sex-based differences in energy substrate utilization during moderate-intensity aerobic exercise. European journal of applied physiology. 2022:1-42.
Alghadir AH, Gabr SA, Aly FA. The effects of four weeks aerobic training on saliva cortisol and testosterone in young healthy persons. Journal of physical therapy science. 2015;27(7):2029-33.
Matejko B, Tota Ł, Morawska-Tota M, Pałka T, Malecki MT, Klupa T. Assessment of selected muscle damage markers and zonulin concentration after maximum-intensity exercise in men with type 1 diabetes treated with a personal insulin pump. Acta Diabetologica. 2023:1-9.
Zotarelli Filho IJ. EVALUATION OF SALIVARY CORTISOL LEVELS DURING A LONG CROSSFIT® CHAMPIONSHIP. Authorea Preprints. 2020.
Cofré-Bolados C, Reuquen-López P, Herrera-Valenzuela T, Orihuela-Diaz P, Garcia-Hermoso A, Hackney AC. Testosterone and cortisol responses to HIIT and continuous aerobic exercise in active young men. Sustainability. 2019;11(21):6069.
González Fernández Á, de la Rubia Ortí JE, Franco-Martinez L, Ceron JJ, Mariscal G, Barrios C. Changes in salivary levels of creatine kinase, lactate dehydrogenase, and aspartate aminotransferase after playing rugby sevens: the influence of gender. International Journal of Environmental Research and Public Health. 2020;17(21):8165.
Sarkar S, Debnath M, Das M, Bandyopadhyay A, Dey SK, Datta G. Effect of high intensity interval training on antioxidant status, inflammatory response and muscle damage indices in endurance team male players. Apunts Sports Medicine. 2021;56(210):100352.
Rahmanian K, Hooshmand F, Shakeri M, Rahmanian V, Jahromi FS, Jahromi AS, et al. Creatine Kinase and Lactate Dehydrogenase Enzymes Response to Lactate Tolerance Exercise Test. Exercise Science. 2022;31(2):168-72.
Rohnejad B, Monazzami A. Effects of high-intensity intermittent training on some inflammatory and muscle damage indices in overweight middle-aged men. Apunts Sports Medicine. 2023;58(217):100404.
Pal S, Chaki B, Chattopadhyay S, Bandyopadhyay A. High-intensity exercise induced oxidative stress and skeletal muscle damage in postpubertal boys and girls: A comparative study. The journal of strength & conditioning research. 2018;32(4):1045-52.
Moradi Kelardeh B. Effect of Fencing Championship on Muscular Damage Indicators in Fencer Females. Report of Health Care. 2019;5(3):14-23.
Tianlong D, Sim Y-J. Effects of different recovery methods on postboxing sparring fatigue substances and stress hormones. Journal of exercise rehabilitation. 2019;15(2):258.
Kruk J, Aboul-Enein BH, Duchnik E. Exercise-induced oxidative stress and melatonin supplementation: current evidence. The Journal of Physiological Sciences. 2021;71:1-19.
Tait JL, Drain JR, Corrigan SL, Drake JM, Main LC. Impact of military training stress on hormone response and recovery. Plos one. 2022;17(3):e0265121.
Zar A, Ahmadi F, Krustrup P, Fernandes RJ. Effects of morning and afternoon high-intensity interval training (HIIT) on testosterone, cortisol and testosterone/cortisol ratio response in active men. Trends Sport Sci. 2021;28:179-85.
Piotrowska A, Pilch W, Tota Ł, Maciejczyk M, Mucha D, Bigosińska M, et al. Local vibration reduces muscle damage after prolonged exercise in men. Journal of Clinical Medicine. 2021;10(22):5461.
Ito S. High-intensity interval training for health benefits and care of cardiac diseases-the key to an efficient exercise protocol. World journal of cardiology. 2019;11(7):171.
Austin PC. The use of propensity score methods with survival or time‐to‐event outcomes: reporting measures of effect similar to those used in randomized experiments. Statistics in medicine. 2014;33(7):1242-58.
Athanasiou N, Bogdanis GC, Mastorakos G. Endocrine responses of the stress system to different types of exercise. Reviews in Endocrine and Metabolic Disorders. 2023;24(2):251-66.
Syed-Abdul MM. Mini-Review: Effect of exercise on cortisol synthesis, release, metabolism, and clearance. Journal of Physical Activity and Hormones. 2020;4(3):17-32.
Ribeiro VB, Pedroso DCC, Kogure GS, Lopes IP, Santana BA, Dutra de Souza HC, et al. Short-Term aerobic exercise did not change telomere length while it reduced testosterone levels and obesity indexes in PCOS: a randomized controlled clinical trial study. International Journal of Environmental Research and Public Health. 2021;18(21):11274.
Vaamonde D, García-Manso JM, Algar-Santacruz C, Abbasi A, Sarmiento S, Valverde-Esteve T. Behaviour of salivary testosterone and cortisol in men during an Ironman Triathlon. European Journal of Sport Science. 2022;22(9):1335-42.
Schwanbeck SR, Cornish SM, Barss T, Chilibeck PD. Effects of training with free weights versus machines on muscle mass, strength, free testosterone, and free cortisol levels. The Journal of Strength & Conditioning Research. 2020;34(7):1851-9.
Chiu C-H, Ko M-C, Wu L-S, Yeh D-P, Kan N-W, Lee P-F, et al. Benefits of different intensity of aerobic exercise in modulating body composition among obese young adults: a pilot randomized controlled trial. Health and quality of life outcomes. 2017;15(1):1-9.
McDougle JM, Mangine GT, Townsend JR, Jajtner AR, Feito Y. Acute physiological outcomes of high-intensity functional training: a scoping review. PeerJ. 2023;11:e14493.
Hintikka JE, Ahtiainen JP, Permi P, Jalkanen S, Lehtonen M, Pekkala S. Aerobic exercise training and gut microbiome-associated metabolic shifts in women with overweight: A multi-omic study. Scientific Reports. 2023;13(1):11228.
Alghannam AF, Ghaith MM, Alhussain MH. Regulation of energy substrate metabolism in endurance exercise. International Journal of Environmental Research and Public Health. 2021;18(9):4963.
Lin Z, Zhang X, Wu M, Ming Y, Wang X, Li H, et al. High-fiber diet and rope-skipping benefit cardiometabolic health and modulate gut microbiota in young adults: a randomized controlled trail. Food Research International. 2023:113421.
