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Fizička kultura
2006, vol. 60, br. 1, str. 84-97
jezik rada: srpski
vrsta rada: stručni članak
objavljeno: 02/06/2007
Neuromišićni aspekti zamora
Univerzitet u Beogradu, Fakultet sporta i fizičkog vaspitanja

e-adresa: milidif@yahoo.com

Sažetak

U radu je predstavljen fenomen zamora, neizbežne i nedovoljno izučene pojave u treningu. Pored najpoznatijih i najčešće korišćenih teorija koje objašnjavaju ovaj fenomen, razmatrani su faktori koji dovode do zamora, metode i tehnike kojima se utvrđuje postojanje zamora na raznim nivoima ljudskog funkcionisanja. Analizom informacionih izvora dobijen je uvid o tome koji je nivo postignut u izučavanju ovog fenomena. Većina nivoa na kojima se javlja je identifikovana u istraživanjima. Međutim, ukazano je na veliki broj mogućih faktora zamora koji još više komplikuju projektovanje jednog savršenog modela, po kojem bi se pojava zamora mogla tumačiti. Za razliku od toga, analiza je pokazala da je sigurnije razmatranje o faktorima koji dovode do zamora. Konačno, analiza je doprinela prepoznavanju daljih pravaca praćenja i istraživanja ovog fenomena.

Ključne reči

zamor; neuromišićni aspekti; modeli; klasifikacija; nivoi

Reference

Avela, J., Komi, P.V. (1998) Reduced stretch reflex sensitivity and muscle stiffness after long-lasting stretch-shortening cycle exercise in humans. Eur J Appl Physiol Occup Physiol, 78(5): 403-10
Bigland-Ritchie,, Bellemare, B., Woods, J. (1986) Excitation frequencies and sites of fatigue. u: Jones N.L., McCartney N., McComas A.J. [ur.] Human muscle power, Champaign, Ilinois: Human Kinetics, str. 197-213
Bigland-Ritchie, B.R. (1992) Regulation of motoneuron firing rates in fatigue. u: Sargeant A.J., D.Karnell [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, str. 147-156
Bompa, T. (2001) Periodizacija - teorija i metodika treninga. Zagreb: Hrvatski košarkaški savez
de Haan, A. (1992) Muscle metabolism during fatiguing exercise. u: Sargeant A.J., Karnell D. [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, str. 16-24
Enoka, R.M. (1994) Neuromechanical basis of kinesiology. Champaign, IL: Human Kinetics
Faulkner, J.A., Brooks, S.V. (1992) Fatigability of mouse muscles during constant length, shortening and lenghtening contractions: Interaction between fiber types and duty cycles. u: Sargeant A.J., Karnell D. [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, 116-124
Gandevia, S.C. (2001) Spinal and supraspinal factors in human muscle fatigue. Physiological Reviews, 81 (4), 1726-1771
Gandevia, S.C. (1992) Central and peripheral components to human isometric muscle fatigue. u: Sargeant A.J., Karnell D. [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, str. 100-109
Gandevia, S.C. (1998) Neural control in human muscle fatigue: Changes in muscle afferents, motoneurones and motor cortical drive [corrected. Acta Physiol Scand, 162(3): 275-83
Gandevia, S.C., Herbert, R.D., Leeper, J.B. (1998) Voluntary activation of human elbow flexor muscles during maximal concentric contractions. J Physiol, 512 ( Pt 2): 595-602
Gibson, H., Edwards, R.H.T. (1992) Muscular factors in Endurance. u: Shephard R.J., Astrand P.O. [ur.] Endurance in sport, Oxford: Blackwell Scientific Publications, str. 107-115
Green, H.J. (1998) Cation pumps in skeletal muscle: Potential role in muscle fatigue. Acta Physiol Scand, 162(3): 201-13
Horita, T., Komi, P.V., Hamalainen, I., Avela, J. (2003) Exhausting stretch-shortening cycle (SSC) exercise causes greater impairment in SSC performance than in pure concentric performance. Eur J Appl Physiol, 88(6): 527-34
Horita, T., Komi, P.V., Nicol, C., Kyrolainen, H. (1999) Effect of exhausting stretch-shortening cycle exercise on the time course of mechanical behaviour in the drop jump: Possible role of muscle damage. Eur J Appl Physiol Occup Physiol, 79(2): 160-7
Jones, D.A. (1992) How far can experiments in the laboratory explain the fatigue of athletes in the field. u: Sargeant A.J.i Karnell D. [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, str. 100-109
Kalmar, J.M., Cafarelli, E. (1999) Effects of caffeine on neuromuscular function. Journal of Applied Physiology, 87(2): 801-808
Komi, P.V. (2000) Stretch-shortening cycle: A powerful model to study normal and fatigued muscle. J Biomech, 33(10): 1197-206
Koprivica, V.J. (2002) Osnove sportskog treninga. Beograd: Multigraf
Kuitunen, S., Avela, J., Kyrolainen, H., Nicol, C., Komi, P.V. (2002) Acute and prolonged reduction in joint stiffness in humans after exhausting stretch-shortening cycle exercise. Eur J Appl Physiol, 88(1-2): 107-16
Lannergren, J., Westerblad, H., Allen, D.G. (1992) Mechanisms of fatigue as studied in single muscle fibers. u: Sargeant A.J., Karnell D. [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, str. 3-10
Noakes, T.D. (2000) Physiological models to understand exercise fatigue and the adaptations that predict or enhance athletic performance. Scand J Med Sci Sports, 10(3): 123-45
Radovanović, S. (2002) Senzorne informacije, propriocepcija i regulacija pokreta. Beograd: Nauka
Regueme, S.C., Nicol, C., Barthelemy, J., Grelot, L. (2005) Acute and delayed neuromuscular adjustments of the triceps surae muscle group to exhaustive stretch-shortening cycle fatigue. Eur J Appl Physiol, 93(4): 398-410
Sahlin, K., Tonkonogi, M., Soderlund, K. (1998) Energy supply and muscle fatigue in humans. Acta Physiologica Scandinavica, 162(3): 261-266
Sandiford, S.D., Green, H.J., Duhamel, T.A., Perco, J.G., Schertzer, J.D., Ouyang, J. (2004) Inactivation of human muscle Na+-K+-ATPase in vitro during prolonged exercise is increased with hypoxia. J Appl Physiol, 96(5): 1767-75
Sargeant, A.J., Beelen, A. (1992) Human muscle fatigue in dynamic exercise. u: Sargeant A.J.i Karnell D. [ur.] Neuromuscular fatigue, Amsterdam: Royal Netherlands Academy of Arts and Sciences, str. 81-93
Shephard, R.J. (1992) Nature and location of fatigue. u: R.J. Shephard i P.O.Astrand [ur.] Endurance in sport, Oxford: Blackwell Scientific Pubications, 27-34
Siff, M.C. (2000) Supertraining. Denver: Supertraining Institute
Stout, J., Eckerson, J., Ebersole, K., Moore, G., Perry, S., Housh, T., Bull, A., Cramer, J., Batheja, A. (2000) Effect of creatine loading on neuromuscular fatigue threshold. J Appl Physiol, 88(1): 109-12
Strojnik, V., Komi, P.V. (1998) Neuromuscular fatigue after maximal stretch-shortening cycle exercise. J Appl Physiol, 84(1): 344-50
Strojnik, V. (2005) Živčanomišićni aspekti umora i oporavka u sportu. u: D.Milanović, I.Jukić i S.Šimek [ur.] Kondicijska priprema sportaša, Zbornik radova naučnog skupa, Zagreb: Zagrebački sportski savez, 17-27
Walton, C., Kalmar, J.M., Cafarelli, E. (2002) Effect of caffeine on self-sustained firing in human motor units. J Physiol, 545(Pt 2): 671-9
Zatsiorsky, V.M. (1995) Science and practice of strength training. Champaign, IL: Human Kinetics
Željaskov, C. (2004) Kondicioni trening vrhunskih sportista. Beograd: Sportska akademija