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780 related items for PubMed ID: 28177737

  • 1. Peak oxygen uptake in a sprint interval testing protocol vs. maximal oxygen uptake in an incremental testing protocol and their relationship with cross-country mountain biking performance.
    Hebisz R, Hebisz P, Zatoń M, Michalik K.
    Appl Physiol Nutr Metab; 2017 Apr; 42(4):371-376. PubMed ID: 28177737
    [Abstract] [Full Text] [Related]

  • 2. Changes in exercise capacity and serum BDNF following long-term sprint interval training in well-trained cyclists.
    Hebisz P, Hebisz R, Murawska-Ciałowicz E, Zatoń M.
    Appl Physiol Nutr Metab; 2019 May; 44(5):499-506. PubMed ID: 30286300
    [Abstract] [Full Text] [Related]

  • 3. Time of VO(2)max plateau and post-exercise oxygen consumption during incremental exercise testing in young mountain bike and road cyclists.
    Hebisz P, Hebisz R, Borkowski J, Zatoń M.
    Physiol Res; 2018 Nov 14; 67(5):711-719. PubMed ID: 30044113
    [Abstract] [Full Text] [Related]

  • 4. Concomitant application of sprint and high-intensity interval training on maximal oxygen uptake and work output in well-trained cyclists.
    Hebisz P, Hebisz R, Zatoń M, Ochmann B, Mielnik N.
    Eur J Appl Physiol; 2016 Aug 14; 116(8):1495-502. PubMed ID: 27262887
    [Abstract] [Full Text] [Related]

  • 5. Acute Effects of Sprint Interval Training and Chronic Effects of Polarized Training (Sprint Interval Training, High Intensity Interval Training, and Endurance Training) on Choice Reaction Time in Mountain Bike Cyclists.
    Hebisz P, Cortis C, Hebisz R.
    Int J Environ Res Public Health; 2022 Nov 13; 19(22):. PubMed ID: 36429672
    [Abstract] [Full Text] [Related]

  • 6. The effects of block training on pacing during 20-km cycling time trial.
    Costa VP, Guglielmo LG, Paton CD.
    Appl Physiol Nutr Metab; 2017 Apr 13; 42(4):391-398. PubMed ID: 28177733
    [Abstract] [Full Text] [Related]

  • 7. Predicting Changes in Maximal Oxygen Uptake in Response to Polarized Training (Sprint Interval Training, High-Intensity Interval Training, and Endurance Training) in Mountain Bike Cyclists.
    Hebisz R, Hebisz P, Danek N, Michalik K, Zatoń M.
    J Strength Cond Res; 2022 Jun 01; 36(6):1726-1730. PubMed ID: 32341248
    [Abstract] [Full Text] [Related]

  • 8. Modified sprint interval training protocols. Part I. Physiological responses.
    Islam H, Townsend LK, Hazell TJ.
    Appl Physiol Nutr Metab; 2017 Apr 01; 42(4):339-346. PubMed ID: 28177740
    [Abstract] [Full Text] [Related]

  • 9. Relationship Between the Skin Surface Temperature Changes During Sprint Interval Testing Protocol and the Aerobic Capacity in Well-Trained Cyclists.
    Hebisz R, Hebisz P, Borkowski J, Wierzbicka-Damska I, Zatoń M.
    Physiol Res; 2019 Dec 30; 68(6):981-989. PubMed ID: 31647289
    [Abstract] [Full Text] [Related]

  • 10. Similar maximal oxygen uptake assessment from a step cycling incremental test and verification tests on the same or different day.
    Possamai LT, Campos FS, Salvador PCDN, de Aguiar RA, Guglielmo LGA, de Lucas RD, Caputo F, Turnes T.
    Appl Physiol Nutr Metab; 2020 Apr 30; 45(4):357-361. PubMed ID: 31491339
    [Abstract] [Full Text] [Related]

  • 11. Physiological profile of elite Bicycle Motocross cyclists and physiological-perceptual demands of a Bicycle Motocross race simulation.
    Petruolo A, Connolly DR, Bosio A, Induni M, Rampinini E.
    J Sports Med Phys Fitness; 2020 Sep 30; 60(9):1173-1184. PubMed ID: 32406391
    [Abstract] [Full Text] [Related]

  • 12. Influence of test duration and event specificity on maximal accumulated oxygen deficit of high performance track cyclists.
    Craig NP, Norton KI, Conyers RA, Woolford SM, Bourdon PC, Stanef T, Walsh CB.
    Int J Sports Med; 1995 Nov 30; 16(8):534-40. PubMed ID: 8776208
    [Abstract] [Full Text] [Related]

  • 13. Reliability of time-to-exhaustion and selected psycho-physiological variables during constant-load cycling at the maximal lactate steady-state.
    Faude O, Hecksteden A, Hammes D, Schumacher F, Besenius E, Sperlich B, Meyer T.
    Appl Physiol Nutr Metab; 2017 Feb 30; 42(2):142-147. PubMed ID: 28128633
    [Abstract] [Full Text] [Related]

  • 14. Effects of hydrogen rich water on prolonged intermittent exercise.
    Da Ponte A, Giovanelli N, Nigris D, Lazzer S.
    J Sports Med Phys Fitness; 2018 May 30; 58(5):612-621. PubMed ID: 28474871
    [Abstract] [Full Text] [Related]

  • 15. Reliability of a high-intensity endurance cycling test.
    O'Hara JP, Thomas A, Seims A, Cooke CB, King RF.
    Int J Sports Med; 2012 Jan 30; 33(1):18-25. PubMed ID: 22095324
    [Abstract] [Full Text] [Related]

  • 16. Effects of hyperoxia during recovery from 5×30-s bouts of maximal-intensity exercise.
    Sperlich B, Zinner C, Krueger M, Wegrzyk J, Achtzehn S, Holmberg HC.
    J Sports Sci; 2012 May 30; 30(9):851-8. PubMed ID: 22468755
    [Abstract] [Full Text] [Related]

  • 17. 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 30; 43(10):1059-1068. PubMed ID: 29733694
    [Abstract] [Full Text] [Related]

  • 18. The science of cycling: physiology and training - part 1.
    Faria EW, Parker DL, Faria IE.
    Sports Med; 2005 Oct 30; 35(4):285-312. PubMed ID: 15831059
    [Abstract] [Full Text] [Related]

  • 19. Warm-up strategy and high-intensity endurance performance in trained cyclists.
    Christensen PM, Bangsbo J.
    Int J Sports Physiol Perform; 2015 Apr 30; 10(3):353-60. PubMed ID: 25229657
    [Abstract] [Full Text] [Related]

  • 20. Work efficiency in repeated sets of sprint interval exercise in cyclists.
    Hebisz R, Hebisz P, Zatoń M.
    J Sports Med Phys Fitness; 2017 Mar 30; 57(3):195-201. PubMed ID: 26853240
    [Abstract] [Full Text] [Related]

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