Effects of sprint interval training on sloping surfaces on aerobic and anaerobic power

1. Astrand I., Astrand P.O., Christensen E.H., Hedman R. (1960) Intermittent musculer work. Acta Physiol. (Oxf)., (4)8: 448-453.10.1111/j.1748-1716.1960.tb01879.xSearch in Google Scholar

2. Baron B., Deruelle F., Moullan F., Dalleau G., Verkindt C., Noakes T.D. (2009) The eccentric muscle loading influences the pacing strategies during repeated downhill sprint intervals. Eur. J. Appl. Physiol., 105: 749-57. DOI: 10.1007/s00421-008-0957-6.10.1007/s00421-008-0957-6Search in Google Scholar

3. Bilgin G., Hindistan I.E., Özkaya Y.G., Köklükaya E., Polat Ö., Çolak Ö.H. (2015) Determination of fatigue following maximal loaded treadmill exercise by using wavelet packet transform analysis and MLPNN from MMG-EMG data combinations. J. Med. Syst., (39)10: 108.10.1007/s10916-015-0304-5Search in Google Scholar

4. Bruce R.A. (1974) Methods of exercise testing: step test, bicycle, treadmill, isometrics. Am. J. Cardiol., (33)6: 715-720.10.1016/0002-9149(74)90211-2Search in Google Scholar

5. Burgomaster K.A., Heigenhauser G.J., Gibala M.J. (2006) Effect of short-term sprint interval training on human skeletal muscle carbohydrate metabolism during exercise and time-trial performance. J. Appl. Physiol., (100)6: 2041-2047.10.1152/japplphysiol.01220.200516469933Search in Google Scholar

6. Burgomaster K.A., Hughes S.C., Heigenhauser G.J.F., Bradwell S.N., Gibala M.J. (2005) Six sessions of sprint interval training increases muscle oxidative potential. J. Appl. Physiol., 98(6): 1985-1990.10.1152/japplphysiol.01095.200415705728Search in Google Scholar

7. Cetin E., Hindistan I.E., Ozkaya Y.G. (2018) Effect of different training methods on stride parameters in speed maintenance phase of 100-m sprint running. J. Strength Cond. Res., 32(5): 1263-1272.10.1519/JSC.000000000000197728459793Search in Google Scholar

8. Chittibabu B. (2014b) Effect of high intensity interval training on aerobic power and anaerobic power of male handball players. Indian J. Res., (3)11: 89-90.10.26524/1443Search in Google Scholar

9. Chittibabu B. (2014a) Effect of high intensity interval training on and anaerobic capacity and fatigue index of male handball players. Int. J. Phys. Educ., Fitness Sports, (3)4: 18-23.10.26524/1443Search in Google Scholar

10. Dawson B., Fitzsimons M., Gree S., Goodman C., Carey M., Cole K. (1998) Changes in performance, muscle metabolites, enzymes and fibre types after short sprint training. Eur. J. Appl. Physiol., (78)2: 163-169.10.1007/s0042100504029694316Search in Google Scholar

11. Ebben W.P., Daves J.A., Clewien R.W. (2008) Effects of degree of hill slope on acute downhill running velocity and acceleration. J. Strength Cond. Res., (22)3: 898-902.10.1519/JSC.0b013e31816a414918438224Search in Google Scholar

12. Ebben W.P. (2008) The optimal downhill slope for acute overspeed running. Int. J. Sports Physiol. Perform. (3)1: 88-93.10.1123/ijspp.3.1.8819193956Search in Google Scholar

13. Esfandiari S., Sasson Z., Goodman J.M. (2014) Short-term high-intensity interval and continuous moderate intensity training improve maximal aerobic power and diastolic filling during exercise. Eur. J. Appl. Physiol., (114)2: 331-343. DOI: 10.1007/s00421-013-2773-x.10.1007/s00421-013-2773-x24281825Search in Google Scholar

14. Esfarjani F., Laursen P.B. (2007) Manipulating high-intensity interval training: effects on VO₂max, the lactate threshold and 3000m running performance in moderately trained males. J. Sci. Med. Sport, (10)1: 27-35. DOI: 10.1016/j.jsams.2006.05.014.10.1016/j.jsams.2006.05.01416876479Search in Google Scholar

15. Farzad B., Gharakhanlou R., Agha-Alinejad H., Curby D.G., Bayati M., Bahraminejad M., Mäestu J. (2011) Physiological and performance changes from the addition of a sprint interval program to wrestling training. J. Strength Cond. Res., (25)9: 2392-2399.10.1519/JSC.0b013e3181fb4a3321849912Search in Google Scholar

16. Finn C. (2001) Effects of high-intensity intermittent training on endurance performance. Sport Sci., (5)1: 1-3.Search in Google Scholar

17. Fleck J.F., Kraemer W.J. (2014) Designing resistance training programs. 4th ed. USA: Hum. Kinet.Search in Google Scholar

18. Foster C., Farland C.V., Guidotti F., Harbin M., Robersts B., Schuette J., Tuuri A., Doberstein S.T., Porcari J.P. (2015) The effects of high intensity interval training vs steady state training on aerobic and anaerobic performance. J. Sports Sci. Med., (14)4: 747-755.Search in Google Scholar

19. Fox E.L., Bowers R.W., Foss M.L. (1993) The physiological basis for exercise and sport. 5th Ed. USA: Brown & Benchmark.Search in Google Scholar

20. Frohlich C. (1985) Effect of wind and altitude on record performance in foot races, pole vault, and long jump. Am. J. Phys., (53): 726-730.10.1119/1.14302Search in Google Scholar

21. Gibala M.J., Ballantyne C. (2007) High-intensity interval training: New insights. Sports Sci. Exchange, (20)2: 1-5.Search in Google Scholar

22. Gist N.H., Fedewa M.V., Dishman R.D., Cureton K.J. (2014) Sprint interval training effects on aerobic capacity: a systematic review and meta-analysis. Sports Med., (44)2: 269-279. DOI: 10.1007/s40279-013-0115-0.10.1007/s40279-013-0115-024129784Search in Google Scholar

23. Gist N.H., Freese E.C., Cureton K.J. (2014b) Comparison of responses to two high-intensity intermittent exercise protocols. J. Strength Cond. Res., (28)11: 3033-3040.10.1519/JSC.000000000000052224832968Search in Google Scholar

24. Hao L., Kim J.J. (2009) Immigration and the American obesity epidemic. Int. Migr. Rev., (43)2: 237-262.10.1111/j.1747-7379.2009.00764.x485760927158177Search in Google Scholar

25. Heyward V., Gibson A. (2014) Advanced fitness assessment and exercise prescription. 7th edition. USA: Hum. Kinet.Search in Google Scholar

26. Kaynak K., Eryılmaz S.K., Aydoğan S., Mihailov D. (2017) The effects of 20-m repeated sprint training on aerobic capacity in college volleyball players. Biomed. Hum. Kinet., (9)1: 43-50.10.1515/bhk-2017-0007Search in Google Scholar

27. Kemia O.J., Harama P.M., Loennechen J.P., Osnesc J.B., Skomedal T., Wisløff U., Ellingsen Ø. (2005) Moderate vs. high exercise intensity: differential effects on aerobic fitness, cardiomyocyte contractility, and endothelial function. Cardiovasc. Res., (67): 161-72.10.1016/j.cardiores.2005.03.010Search in Google Scholar

28. Kunz H., Kaufmann D. (1981) Biomechanics of hill sprinting. Track Technique, (82): 2603-2605.Search in Google Scholar

29. Laursen P.B. (2010) Training for intense exercise performance: high-intensity or high-volume training? Scand. J. Med. Sci. Sports, (20)2: 1-10.10.1111/j.1600-0838.2010.01184.x20840557Search in Google Scholar

30. Leyva D.W., Wong M.A., Brown L.E. (2017) Resisted and assisted training for sprint speed: a brief review. J. Phys. Fit. Treatment & Sports, (1)1: 1-6.Search in Google Scholar

31. Muratlı S., Kalyoncu O., Şahin G. (2007) Training and competition. 2. ed. Istanbul: Ladin yayınevi.Search in Google Scholar

32. Nalcakan G.R. (2014) The Effects of sprint interval vs. continuous endurance training on physiological and metabolic adaptations in young healthy adults. J. Hum. Kinet. (44)1: 97-109. DOI: 10.2478/hukin-2014-0115.10.2478/hukin-2014-0115Search in Google Scholar

33. Nikolaidis P.T. (2011) Familial aggregation and maximal heritability of exercise participation: A cross-sectional study in schoolchildren and their nuclear families. Sci. Sports, 26(3): 157-165.10.1016/j.scispo.2010.09.010Search in Google Scholar

34. Numela A., Mero A., Rusko H. (1996) Effect of sprint training on anaerobic performance characteristics determined by MART. Int. J. Sports. Med., (17)2: 114-119.10.1055/s-2007-972911Search in Google Scholar

35. Özer K. (2016) Physical fitness. 6th ed. Ankara: Nobel Yayın Dağıtım.Search in Google Scholar

36. Padulo J., Ardigò L.P., Attene G., Cava C., Wong D.P., Chamari K., et al. (2016) The effect of slope on repeated sprint ability in young soccer players. Res. Sports Med., (24)4: 320-30.10.1080/15438627.2016.1222276Search in Google Scholar

37. Paradisis G.P., Bissas A., Cooke C.B. (2009) Combined uphill and downhill sprint running training is more efficacious than horizontal. Int. J. Sports Physiol. Perform., (4)2: 229-243.10.1123/ijspp.4.2.229Search in Google Scholar

38. Paradisis G.P., Cooke C.B. (2001) Kinematic and postural characteristics of sprint running on sloping surfaces. J. Sports Sci., (19)2: 149-159.10.1080/026404101300036370Search in Google Scholar

39. Paradisis G.P., Cooke C.B. (2006) The effects of sprint running training on sloping surfaces. J. Strength Cond. Res., (20)4: 767-777.10.1519/00124278-200611000-00008Search in Google Scholar

40. Paton C.D., Hopkins W.G. (2004) Effects of high-intensity training of performance and physiology of endurance athletes. Sports Sci., (8): 25-41.Search in Google Scholar

41. Sheikh-Jafari M.R., Alinejad H.A., Piri M. (2014) Effects of progressive high intensity interval training (hit) on aerobic and anaerobic performance of male in-line speed skating. Int. J. Sport Studies, (4)3: 297-303.Search in Google Scholar

42. Skinner J.S. (2005) Exercise testing and exercise prescription of special cases. Theorical and Clinical Application. 3rd ed. USA: Lippincott Willliams&Wilkins.Search in Google Scholar

43. Slawinski J., Dorel S., Hug F., Couturier A., Fournel V., Morin J-B., Hanon C. (2008) Elite long sprint running: a comparison between incline and level training sessions. Med. Sci. Sports Exerc., 40(6): 1155-1162.10.1249/MSS.0b013e3181676681Search in Google Scholar

44. Sloth M., Sloth D., Overgaard K., Dalgas U. (2013) Effects of sprint interval training on VO₂max and aerobic exercise performance: a systematic review and meta-analysis. Scand. J. Med. Sci. Sports, (23)6: e341-52. DOI: 10.1111/sms.12092.10.1111/sms.12092Search in Google Scholar

45. Sökmen B., Witchey R.L., Adams G.M., Beam W.C. (2018) The effects of sprint interval training with active recovery vs. endurance training on aerobic and anaerobic power, muscular strength, and sprint ability. J. Strength Cond. Res., (32)3: 624-631.10.1519/JSC.0000000000002215Search in Google Scholar

46. Ward-Smith A.J. (1985) A Mathematical analysis of the influence of adverse and favorable winds on sprinting. J. Biomech., (18)5: 351-357.10.1016/0021-9290(85)90290-8Search in Google Scholar

47. Wibowo R., Sidik D.Z., Hendrayana Y. (2017) The impact of assisted sprinting training (as) and resisted sprinting training (rs) in repetition method on improving sprint acceleration capabilities. Jurnal Pendidikan Jasmani dan Olahraga, (9)1: 79-86.10.17509/jpjo.v2i1.7971Search in Google Scholar

eISSN:: 2080-2234
Language:: English

Publication timeframe:: Volume Open
Journal Subjects:: Medicine, Basic Medical Science, other, Clinical Medicine, Public Health, Sports and Recreation, Physical Education

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Effects of sprint interval training on sloping surfaces on aerobic and anaerobic power

Published Online: Feb 10, 2020

Page range: 41 - 50

Received: Nov 01, 2019

Accepted: Jan 18, 2020

DOI: https://doi.org/10.2478/bhk-2020-0006

KeywordsOxygen consumption, Anaerobic power, Uphill running, Sloping surface, Combined training

© 2020 I. Ethem Hindistan et al., published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Keywords
Oxygen consumption, Anaerobic power, Uphill running, Sloping surface, Combined training