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Journal Abstract Search

945 related items for PubMed ID: 23889316

  • 21. Effect of High-Intensity Interval Training Versus Sprint Interval Training on Time-Trial Performance: A Systematic Review and Meta-analysis.
    Rosenblat MA, Perrotta AS, Thomas SG.
    Sports Med; 2020 Jun; 50(6):1145-1161. PubMed ID: 32034701
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  • 22. Contribution of central and peripheral adaptations to changes in maximal oxygen uptake following 4 weeks of sprint interval training.
    Raleigh JP, Giles MD, Islam H, Nelms M, Bentley RF, Jones JH, Neder JA, Boonstra K, Quadrilatero J, Simpson CA, Tschakovsky ME, Gurd BJ.
    Appl Physiol Nutr Metab; 2018 Oct; 43(10):1059-1068. PubMed ID: 29733694
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  • 23. The effect of detraining and reduced training on the physiological adaptations to aerobic exercise training.
    Neufer PD.
    Sports Med; 1989 Nov; 8(5):302-20. PubMed ID: 2692122
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  • 24. Sprint Interval Running and Continuous Running Produce Training Specific Adaptations, Despite a Similar Improvement of Aerobic Endurance Capacity-A Randomized Trial of Healthy Adults.
    Litleskare S, Enoksen E, Sandvei M, Støen L, Stensrud T, Johansen E, Jensen J.
    Int J Environ Res Public Health; 2020 May 29; 17(11):. PubMed ID: 32485945
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  • 25. Aerobic high-intensity intervals are superior to improve V̇O2max compared with sprint intervals in well-trained men.
    Hov H, Wang E, Lim YR, Trane G, Hemmingsen M, Hoff J, Helgerud J.
    Scand J Med Sci Sports; 2023 Feb 29; 33(2):146-159. PubMed ID: 36314990
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  • 26. Cardiovascular response of postmenopausal women to 8 weeks of sprint interval training.
    Zhang D, Janjgava T, Boutcher SH, Boutcher YN.
    Eur J Appl Physiol; 2019 Apr 29; 119(4):981-989. PubMed ID: 30739167
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  • 27. Modified sprint interval training protocols: physiological and psychological responses to 4 weeks of training.
    McKie GL, Islam H, Townsend LK, Robertson-Wilson J, Eys M, Hazell TJ.
    Appl Physiol Nutr Metab; 2018 Jun 29; 43(6):595-601. PubMed ID: 29268031
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  • 28. Effects of low-volume high-intensity interval training (HIT) on fitness in adults: a meta-analysis of controlled and non-controlled trials.
    Weston M, Taylor KL, Batterham AM, Hopkins WG.
    Sports Med; 2014 Jul 29; 44(7):1005-17. PubMed ID: 24743927
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  • 29. Divergent serum metabolomic, skeletal muscle signaling, transcriptomic, and performance adaptations to fasted versus whey protein-fed sprint interval training.
    Aird TP, Farquharson AJ, Bermingham KM, O'Sulllivan A, Drew JE, Carson BP.
    Am J Physiol Endocrinol Metab; 2021 Dec 01; 321(6):E802-E820. PubMed ID: 34747202
    [Abstract] [Full Text] [Related]

  • 30. Effect of increased and maintained frequency of speed endurance training on performance and muscle adaptations in runners.
    Skovgaard C, Almquist NW, Bangsbo J.
    J Appl Physiol (1985); 2017 Jan 01; 122(1):48-59. PubMed ID: 27856713
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  • 31. Simulated hypoxia does not further improve aerobic capacity during sprint interval training.
    Richardson AJ, Gibson OR.
    J Sports Med Phys Fitness; 2015 Oct 01; 55(10):1099-106. PubMed ID: 25028984
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  • 32. Dose-response relationship of cardiorespiratory fitness adaptation to controlled endurance training in sedentary older adults.
    Huang G, Wang R, Chen P, Huang SC, Donnelly JE, Mehlferber JP.
    Eur J Prev Cardiol; 2016 Mar 01; 23(5):518-29. PubMed ID: 25901000
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  • 33. Decreasing sprint duration from 20 to 10 s during reduced-exertion high-intensity interval training (REHIT) attenuates the increase in maximal aerobic capacity but has no effect on affective and perceptual responses.
    Nalçakan GR, Songsorn P, Fitzpatrick BL, Yüzbasioglu Y, Brick NE, Metcalfe RS, Vollaard NBJ.
    Appl Physiol Nutr Metab; 2018 Apr 01; 43(4):338-344. PubMed ID: 29172029
    [Abstract] [Full Text] [Related]

  • 34. Effects of Sprint Interval Training With Active Recovery vs. Endurance Training on Aerobic and Anaerobic Power, Muscular Strength, and Sprint Ability.
    Sökmen B, Witchey RL, Adams GM, Beam WC.
    J Strength Cond Res; 2018 Mar 01; 32(3):624-631. PubMed ID: 29466267
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  • 35. Aerobic and anaerobic changes with high-intensity interval training in active college-aged men.
    Ziemann E, Grzywacz T, Łuszczyk M, Laskowski R, Olek RA, Gibson AL.
    J Strength Cond Res; 2011 Apr 01; 25(4):1104-12. PubMed ID: 20661160
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  • 36. The effects of dietary nitrate supplementation on the adaptations to sprint interval training in previously untrained males.
    Muggeridge DJ, Sculthorpe N, James PE, Easton C.
    J Sci Med Sport; 2017 Jan 01; 20(1):92-97. PubMed ID: 27260004
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  • 37. Similar metabolic adaptations during exercise after low volume sprint interval and traditional endurance training in humans.
    Burgomaster KA, Howarth KR, Phillips SM, Rakobowchuk M, Macdonald MJ, McGee SL, Gibala MJ.
    J Physiol; 2008 Jan 01; 586(1):151-60. PubMed ID: 17991697
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  • 38. Effect of Interval Training on the Factors Influencing Maximal Oxygen Consumption: A Systematic Review and Meta-Analysis.
    Rosenblat MA, Granata C, Thomas SG.
    Sports Med; 2022 Jun 01; 52(6):1329-1352. PubMed ID: 35041180
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  • 39. Physiological adaptations to soccer specific endurance training in professional youth soccer players.
    McMillan K, Helgerud J, Macdonald R, Hoff J.
    Br J Sports Med; 2005 May 01; 39(5):273-7. PubMed ID: 15849290
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  • 40. Dissimilar Physiological and Perceptual Responses Between Sprint Interval Training and High-Intensity Interval Training.
    Wood KM, Olive B, LaValle K, Thompson H, Greer K, Astorino TA.
    J Strength Cond Res; 2016 Jan 01; 30(1):244-50. PubMed ID: 26691413
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