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2010 | 2 | 1 | 36-42

Article title

Effects of Interval Training of Maximal Effort Intensity

Content

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Languages of publication

EN

Abstracts

EN
Background: The purpose of this study was to determine changes in anaerobic capacity at 100% physical effort intensity in the examined people.Material/Methods: 12 male students from the University of Physical Education in Warsaw were subject to these examinations. The average age was 23.6 years, mean body height 178.7 cm, and body mass 80.6 kg. The experiment was carried out from 7th January to 8th March 2008. The experiment (one group) was carried out in two stages. The first stage had 25 training units on a cycloergometer within 5 weeks. The second stage was connected with controlling the obtained results for 3 consecutive weeks after completing the training. An individual load consisted of 6 efforts (10s work, 60s rest) performed with intensity at 100% of the individual's maximum power in consecutive test trials. All training and test trials were performed by means of the Monark 824E (Sweden) cycloergometer linked with a PC computer, MCE v.4.0 software.Results: The results revealed that effort stimuli made significant changes in mechanical work, maximum power, time of achieving maximum power after a four-week period of exercises on a cycloergometer.Conclusions: The used training loads significantly affected the improvement of the results in terms of mechanical work, maximum power, time of developing and maintaining it.The dynamics of changes of anaerobic capacity parameters, after completing the training, may be used as a factor of reliable steering the training loads in terms of intensity.

Publisher

Year

Volume

2

Issue

1

Pages

36-42

Physical description

Dates

published
1 - 1 - 2010
online
18 - 10 - 2010

Contributors

  • Józef Piłsudski University of Physical Education in Warsaw, Poland
author
  • Józef Piłsudski University of Physical Education in Warsaw, Poland
  • Jedrzej Sniadecki Academy of Physical Education and Sport in Gdansk, Poland
  • Jedrzej Sniadecki Academy of Physical Education and Sport in Gdansk, Poland

References

  • Johns RA, Houmard JA, Kobe RW, et al. Effects of taper on swim power, stroke distance and performance. Med Sci Sport Exer 1992;10(24):1141-1146.
  • Bompa TO. Periodization: theory and methodology of training. Champaign, Il: Human Kinetics; 1999.
  • Costill DL, King DS, Thomas R, Hargreaves R. Effects of reduced training on muscular power in swimmers. Physician Sportsmed 1985;13:94-101.
  • Wilmore JH, Costill DL. Physiology of Sport and Exercise. 2nd ed. Champaign, Il: Human Kinetics; 1999.
  • Maglischo EW. Swimming fastest. Champaign Ill.: Human Kinetics; 2003.
  • Balsom PD, Seger JY, Sjodin B, Ekblom B. Maximal-intensity intermittent exercise: effect of recovery duration. Int J Sport Med 1992;13:528-533.
  • Gibala MJ, McGee SL, Garnham AP, Howlett KF, Snow RJ, Hargreaves M. Brief intense interval exercise activates AMPK and p38 MAPK signaling and increases the expression of PGC-1 α in human skeletal muscle. J Appl Physiol 200;106(3):929-34.
  • Norkowski H. Struktura obciążeń wysiłkowych a efekty treningu przerywanego o maksymalnej intensywności [Structure of effort loads vs effects of interval training of maximal intensity]. Studia i Monografie nr 89. Warszawa: AWF; 2003 [in Polish].
  • Sozański H. Wytrzymałość [Endurance]. Trening 1992;1:239-261 [in Polish].
  • Sozański H, editor. Podstawy teorii treningu [Basics of training theory]. Warszawa: RCM- SKFiS, 1993 [in Polish].
  • Wołkow NI. Bioenergetyczne podstawy i ocena wytrzymałości [Bioenergetic basis and an assessment of endurance]. Sport Wyczynowy 1989;7-8:7-18 [in Polish].
  • Balsom PD, Gaitanos GC, Ekblom B, Sjodin B. Reduced oxygen availability during high intensity intermittent exercise impairs performance. Acta Physiol Scand 1999;152:279-285.
  • Norkowski H, Hubner-Wożniak E, Krawczyk K, Zghidi M. Wydolność beztlenowa młodych mężczyzn o różnym poziomie aktywności fizycznej [Anaerobic capacity in young men of a varied level of physical activity]. Roczniki Naukowe AWF w Warszawie 2004;43:119-128 [in Polish].
  • Norkowski H, Kłosowski M, Buśko K. Physiological responses to repeated bouts of anaerobic exercise. Phys Educ Sport 2002;46(supl. 1/1):576-578.
  • Klimek A. Fizjologiczne reakcje układu oddechowego podczas powtarzanych wysiłków fizycznych na tle wydolności aerobowej i anaerobowej dzieci i osób dorosłych [Physiological reactions of the respiratory system during repetitious physical efforts against a background of aerobic and anaerobic capacity in children and adults]. Studia i Monografie nr 28. Kraków: AWF; 2004 [in Polish].
  • Lakomy HKA, Lakomy J, Martin D, Nevill ME. Fatigue and the power-velocity relationship of muscle measured during cycling. J Sport Sci 1994;12:142.
  • Trzaskoma Z, Lipiński P. Maksymalna moc i maksymalna siła mięśni kończyn dolnych 16-18-letnich sportowców [Maximal force and maximal power of lower limbs in 16-18-year-old sportmen]. Biol Sport 1997;14(7):156-161 [in Polish].
  • Fidelus K, Ostrowska E, Tokarski T, Urbanik C. Zmiana siły i mocy mięśni kończyn dolnych pod wpływem treningu na cykloergometrze [Change in power and force of lower limbs under the influence of training on a cycloergometer]. Monografie AWF Poznań 1996;330:177-182 [in Polish].
  • Fidelus K, Mastalarz A, Ostrowska E, Urbanik C, Wychowańska M. Zmiana mocy i siły mięśniowej pod wpływem treningu skocznościowego [Change in power and force of muscles under the influence of jump training]. Monografie AWF Poznań 1996;330:171-176 [in Polish].
  • Fidelus K, Mastalarz A, Tokarski T. Spadek mocy w czasie ćwiczeń na równi pochyłej, ergometrze rowerowym i platformie dynamometrycznej [Drop in force during exercises on an inclined plane, a cycloergometer and a dynamometric platform]. Monografie AWF Poznań 1996;330:151-154 [in Polish].
  • Jaskólski A. Fizjologiczne przystosowanie do wysiłku oraz fizjologiczne podstawy treningu [Physiological adaptation to effort and the physiological basis of training]. In: Jaskólski A, editor. Podstawy fizjologii wysiłku fizycznego z zarysem fizjologii człowieka [Basics of physical effort physiology incl. the outline of human physiology]. Wrocław: AWF; 2002, 228-256 [in Polish].
  • Kubica R. Podstawy fizjologii pracy i wydolności fizycznej [Basics of physiology of work and physical capacity]. Kraków: AWF; 1999 [in Polish].
  • Linossier M, Denis C, Dormois D, Geyssant A, Lacour JR. Ergometric and metabolic adaptation to a 5-s sprint training programme. Eur J Appl Physiol 1993;67:408-414.
  • Stupnicki R, Norkowski H. Index of anaerobic endurance in repeated maximal exercise bouts. Papers Anthropol 2001;10:280-287.
  • Millward DJ, Garlick PJ, James WPT, Nnanyelugo DO, Ryatt JS. Relationship between protein synthesis and RNA content in skeletal muscle. Nature 1973;241:204-205.
  • Seedorf U, Leberer E, Kirchbaum BJ, Pette D. Neural control of gene expression in skeletal muscle. Effects of chronic stimulation on lactate dehydrogenase isoenzymes and citrate synthase. Biochem J 1986;239:115-120.
  • Williams RS, Salmons S, Newsholme EA, Kaufman RE, Mellor J. Regulation of nuclear and mitochondrial gene expression by contractile activity in skeletal muscle. J Biol Chem 1986;261:376-380.
  • Costill DL. Zmiany w mięśniu szkieletowym podczas szybkościowego i wytrzymałościowego treningu pływackiego [Change in a skeletal muscle during speed and endurance training of swimmers]. Sport Wyczynowy 1979;8:43 [in Polish].
  • Roberts AD, Billeter R, Howald H. Anaerobic muscle enzyme changes after interval training. Int J Sport Med 1982;3:18-21.

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_2478_v10131-010-0003-z
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