1. bookVolume 60 (2020): Edition 1 (May 2020)
Détails du magazine
License
Format
Magazine
eISSN
2585-8777
Première parution
16 Apr 2015
Périodicité
2 fois par an
Langues
Anglais
Accès libre

Physiological Response to Non-Traditional High-Intensity Interval Training

Publié en ligne: 04 May 2020
Volume & Edition: Volume 60 (2020) - Edition 1 (May 2020)
Pages: 1 - 14
Détails du magazine
License
Format
Magazine
eISSN
2585-8777
Première parution
16 Apr 2015
Périodicité
2 fois par an
Langues
Anglais

1. AMERICAN COLLEGE OF SPORTS MEDICINE, 2009. American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Medicine and Science in Sports and Exercise.41, pp. 687-708.10.1249/MSS.0b013e318191567019204579Search in Google Scholar

2. BATACAN, R.B., M.J. DUNCAN, V.J. DALBO, P.S. TUCKER & A.S. FENNING, 2017. Effects of high-intensity interval training on cardiometabolic health: A systematic review and meta-analysis of intervention studies. British Journal of Sports Medicine.51, pp. 494-503.10.1136/bjsports-2015-09584127797726Search in Google Scholar

3. BROCHERIE, F., G.P. MILLET & O. GIRARD, 2015. Neuro-mechanical and metabolic adjustments to the repeated anaerobic sprint test in professional football players. European Journal of Applied Physiology.115, pp. 891-903.10.1007/s00421-014-3070-z25481506Search in Google Scholar

4. CASSIDY, S., C. THOMA, D. HOUGHTON & M.I. TRENELL, 2017. High-intensity interval training: A review of its impact on glucose control and cardiometabolic health. Diabetologia. 60, pp. 7-23.10.1007/s00125-016-4106-1651809627681241Search in Google Scholar

5. CRUM, E. M., O’CONNOR, W. J., VAN LOO, L., VALCKX, M., & S. R. STANNARD, 2017. Validity and reliability of the Moxy oxygen monitor during incremental cycling exercise. European Journal of Sport Science.17, pp. 1037–1043.10.1080/17461391.2017.133089928557670Search in Google Scholar

6. ENGEL, F. A., A. ACKERMANN, H. CHTOUROU & B. SPERLICH, 2018. High-Intensity Interval Training Performed by Young Athletes: A Systematic Review and Meta-Analysis. Frontiers in Physiology. 9, pp. 1012.10.3389/fphys.2018.01012607287330100881Search in Google Scholar

7. FAISS, R., S. WILLIS, D.P. BORN, B. SPERLICH, J.M. VESIN, H.C. HOLMBERG & G.P. MILLET, 2015. Repeated double-poling sprint training in hypoxia by competitive cross-country skiers. Medicine and Science in Sports and Exercise.47, pp. 809-17.10.1249/MSS.000000000000046425083727Search in Google Scholar

8. FEITO, Y., K.M. HEINRICH, S.J. BUTCHER & W.S.C. POSTON, 2018. High-Intensity Functional Training (HIFT): Definition and Research Implications for Improved Fitness. Sport.6, E76.10.3390/sports6030076616241030087252Search in Google Scholar

9. GIBALA, M.J. & A.M. JONES, 2013. Physiological and performance adaptations to high-intensity interval training. Nestle Nutrition Institute Workshop Series,76, pp. 51-60.10.1159/00035025623899754Search in Google Scholar

10. GIST, N.H., E.C. FREESE, T.E. RYAN & K.J. Cureton, 2015. Effects of Low-Volume, High-Intensity Whole-Body Calisthenics on Army ROTC Cadets. Military Medicine.180, pp. 492-498.10.7205/MILMED-D-14-0027725939101Search in Google Scholar

11. GRASSI, B. & V. QUARESIMA, 2016. Near-infrared spectroscopy and skeletal muscle oxidative function in vivo in health and disease: A review from an exercise physiology perspective. Journal of Biomedical Optics. 21, 091313.10.1117/1.JBO.21.9.09131327443955Search in Google Scholar

12. GUIO DE PRADA, V., J.F. ORTEGA, M- RAMIREZ-JIMENEZ, F. MORALESPALOMO, J.G. PALLARES & R. MORA-RODRIGUEZ, 2019. Training intensity relative to ventilatory thresholds determines cardiorespiratory fitness improvements in sedentary adults with obesity. European Journal of Sport Science.19, pp. 549-556.10.1080/17461391.2018.154065930381027Search in Google Scholar

13. HO, S.S., S.S. DHALIWAL, A.P. HILLS & S. PAL, 2012. The effect of 12 weeks of aerobic, resistance or combination exercise training on cardiovascular risk factors in the overweight and obese in a randomized trial. BMC Public Health.12, pp. 704.10.1186/1471-2458-12-704348779423006411Search in Google Scholar

14. JERNEJ, K, 2013. Effects of inspiratory muscle training on inspiratory muscle strength and sprint swimming performance in young male and female swimmers. Kinesiologia Slovenica.19, pp. 53-61.Search in Google Scholar

15. JONES, B., D.K. HAMILTON & C.E. COOPER, 2015. Muscle oxygen changes following Sprint Interval Cycling training in elite field hockey players. PloS One.10, e0120338.10.1371/journal.pone.0120338437393125807517Search in Google Scholar

16. KEATING, S.E., N.A. JOHNSON, G.I. MIELKE & J.S. COOMBES, 2017. A systematic review and meta-analysis of interval training versus moderate-intensity continuous training on body adiposity. Obesity Reviews: An Official Journal of the International Association for the Study of Obesity.18, pp. 943-964.10.1111/obr.1253628513103Search in Google Scholar

17. MACHADO, A.F., J.S. BAKER, A.J. FIGUEIRA JUNIOR & D.S. BOCALINI, 2017. High-intensity interval training using whole-body exercises: Training recommendations and methodological overview. Clinical Physiology and Functional Imaging.6, pp. 378-383.10.1111/cpf.1243328471050Search in Google Scholar

18. MACHADO, A.F., A.L. EVANGELISTA, J.M.Q. MIRANDA, C.V.L.S. TEIXEIRA, R.L. RICA & C.R. LOPES & D.S. BOCALINI, 2018. Description of training loads using whole-body exercise during high-intensity interval training. Clinics.73, e516.10.6061/clinics/2018/e516620113830379227Search in Google Scholar

19. MCRAE, G,, A. PAYNE, J.G.E. ZELT, T.D. SCRIBBANS, M.E. JUNG, J.P. LITTLE & B.J. GURD, 2012. Extremely low volume, whole-body aerobic-resistance training improves aerobic fitness and muscular endurance in females. Applied Physiology, Nutrition, and Metabolism = Physiologie Appliquee, Nutrition Et Metabolisme.37, pp. 1124-1131.10.1139/h2012-09322994393Search in Google Scholar

20. MURAWSKA-CIALOWICZ, E., J. WOJNA & J. ZUWALA-JAGIELLO, 2015. Crossfit training changes brain-derived neurotrophic factor and irisin levels at rest, after Wingate and progressive tests, and improves aerobic capacity and body composition of young physically active men and women. Journal of Physiology and Pharmacology: An Official Journal of the Polish Physiological Society.66, pp. 811-821.Search in Google Scholar

21. MYERS, T.R., M.G. SCHNEIDER, M.S. SCHMALE & T.J. HAZELL, 2015. Whole-body aerobic resistance training circuit improves aerobic fitness and muscle strength in sedentary young females. Journal of Strength and Conditioning Research.29, pp. 1592-1600.10.1519/JSC.000000000000079025486302Search in Google Scholar

22. NORTON, K., L. NORTON & D. SADGROVE, 2010. Position statement on physical activity and exercise intensity terminology. Journal of Science and Medicine in Sport.13, pp. 496-502.10.1016/j.jsams.2009.09.00820005170Search in Google Scholar

23. PERREY, S. & M. FERRAR, 2018. Muscle Oximetry in Sports Science: A Systematic Review. Sports Medicine.48, pp. 597-616.10.1007/s40279-017-0820-129177977Search in Google Scholar

24. RE, R., I. PIROVANO, D. CONTINI, L. SPINELLI & A. TORRICELLI, 2018. Time Domain Near Infrared Spectroscopy Device for Monitoring Muscle Oxidative Metabolism: Custom Probe and In Vivo Applications. Sensors.18, E264.10.3390/s18010264579592729342097Search in Google Scholar

25. SABAG, A., A. NAJAFI, S. MICHAEL, T. ESGIN, M. HALAKI & D. HACKETT, 2018. The compatibility of concurrent high intensity interval training and resistance training for muscular strength and hypertrophy: A systematic review and meta-analysis. Journal of Sports Science.36, pp. 2472-2483.10.1080/02640414.2018.146463629658408Search in Google Scholar

26. SCHAUN, G.Z., S.S. PINTO, M.R. SILVA, D.B. DOLINSKI & C.L. ALBERTON, 2018. Whole-Body High-Intensity Interval Training Induce Similar Cardiorespiratory Adaptations Compared with Traditional High-Intensity Interval Training and Moderate-Intensity Continuous Training in Healthy Men. Journal of Strength and Conditioning Research.32, pp. 2730-2742.10.1519/JSC.000000000000259429746386Search in Google Scholar

27. SLOTH, M., D. SLOTH, K. OVERGAARD & U. DALGAS, 2013. Effects of sprint interval training on VO2max and aerobic exercise performance: A systematic review and meta-analysis. Scandinavian Journal of Medicine & Science in Sports.23, e341-352.10.1111/sms.1209223889316Search in Google Scholar

28. TABATA, I, 2019. Tabata training: one of the most energetically effective high-intensity intermittent training methods. The Journal of Physiological Sciences.69, pp. 559-72.10.1007/s12576-019-00676-731004287Search in Google Scholar

Articles recommandés par Trend MD

Planifiez votre conférence à distance avec Sciendo