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2010 | 17 | 4 |
Tytuł artykułu

Relationship between maximal rate of force development and maximal voluntary contraction

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Wydawca
-
Rocznik
Tom
17
Numer
4
Opis fizyczny
p.301-306,fig.,ref.
Twórcy
autor
  • University School of Physical Education in Poznan, Branch Faculty of Physical Culture, Estkowskiego 13, 66-400 Gorzow Wlkp., Poland
autor
  • University School of Physical Education in Poznan, Branch Faculty of Physical Culture, Estkowskiego 13, 66-400 Gorzow Wlkp., Poland
  • University School of Physical Education in Poznan, Branch Faculty of Physical Culture, Estkowskiego 13, 66-400 Gorzow Wlkp., Poland
autor
  • University School of Physical Education in Poznan, Branch Faculty of Physical Culture, Estkowskiego 13, 66-400 Gorzow Wlkp., Poland
autor
  • University School of Physical Education in Poznan, Branch Faculty of Physical Culture, Estkowskiego 13, 66-400 Gorzow Wlkp., Poland
Bibliografia
  • [1] Aagaard P., Andersen J.L., Correlation between contractile strength and myosin heavy chain isoform composition in human skeletal muscle, Medicine & Science in Sports & Exercise, 1998, 30, 8: 1217-1222.
  • [2] Aagaard P., Thorstensson A., Neuromuscular aspects of exercise adaptive responses evoked by strength training, (in:) M. Kjœr eds., Textbook of sport medicine. Blackwell, London, 2003, 70-106.
  • [3] Aagaard P., Simonsen E.B., Andersen J.L., Magnusson P., Dyhre-Poulsen P., Increased rate of force development and neural drive of human skeletal muscle following resistance training, Journal of Applied Physiology, 2002, 93, 4: 1318¬-1326.
  • [4] Andersen L.L., Aagaard P., Influence of maximal muscle strength and intrinsic muscle contractile properties on contractile rate of force development, European Journal of Applied Physiology, 2006, 96: 46-52.
  • [5] Bazett-Jones D.M., Effect of Potentiation and Stretching on Maximal Force, Rate of Force Development, and Range of Motion, Journal of Undergraduate Research, 2003, 6: 1-7.
  • [6] Burke R.E., Motor units anatomy, physiology, and functional organization, (in:) L.D. Peachy ed., Handbook of Physiology. Sec. 10. Skeletal muscle, The American Physiological Society, Bethesda 1983, 345-422.
  • [7] Chang S.H., Mercer VS., Giuliani C.A., Sloane P.D., Relationship between hip abductor rate of force development and mediolateral stability in older adults, Archives of Physical Medicine and Rehabilitation, 2005, 86, 9: 1843-1850.
  • [8] De Ruiter C.J., Kooistra R.D., Paalman M.I., de Haan A., Initial phase of maximal voluntary and electrically stimulated knee extension torque development at different knee angles, Journal of Applied Physiology, 2004, 97, 5: 1693-1701.
  • [9] Demura S., Yamaji S., Nagasawa Y., Minami M., Kita I., Examination of force-production properties during static explosive grip based on force-time curve parameters, Perceptual and Motor Skills, 2000, 91, 3 Pt 2: 1209-1220.
  • [10] Grimby L., Hannerz J., Hedman B., The fatigue and voluntary discharge properties of single motor units in man, The Journal of Physiology, 1981, 316: 545-554.
  • [11] Haff G.G., Carlock J.M., Hartman M.J., Kilgore J.L., Kawamori N., Jackson J.R., et al, Force-time curve characteristics of dynamic and isometric muscle actions of elite women Olympic weightlifters, The Journal of Strength & Conditioning Research, 2005, 4: 741-748.
  • [12] Häkkinen K., Alen M., Komi P.V., Changes in isometric force- and relaxation-time, electro- myographic and muscle fibre characteristics of human skeletal muscle during strength training and detraining, Acta Physiologica Scandinavica, 1985, 125: 573-585.
  • [13] Harridge S.D.R., The muscle contractile system and its adaptation to training. Medicine and Sport Science, 1996, 41: 82-94.
  • [14] Izquierdo M., Ibanez J., Gorostiaga E., Garrues M., Zuniga A., Anton A., et al., Maximal strength and power characteristics in isometric and dynamic actions of the upper and lower extremities in middle-aged and older men. Acta Physiologica Scandinavica, 1999, 167: 57-68.
  • [15] Jaskólska A. (1998) Przebieg zmian narastania siły i relaksacji u ludzi po wysiłkach o różnej cha¬rakterystyce (Changes of force development and relaxation in humans after exercise of different characteristics). Monografia nr 326, AWF Poznań.
  • [16] Jaskólska A., Kisiel-Sajewicz K., Brzenczek W., Marusiak J., Kawczyński A., Jaskólski A., Speed of force development of knee flexors and extensors in the ovulatory and luteal phases of the menstrual cycle. Human Movement, 2004, 5, 135-141.
  • [17] Jaskólska A., Naczk M., Adach Z., Kisiel K., Brzenczek W., Jaskólski A. The influence of muscle contractile properties on force development and relaxation during maximal voluntary contraction. Physical Education and Sport, 2003, 1: 45-56.
  • [18] Kędzior K., Kotwicki E., Niwiński W. Testing module for static and dynamic measurements of muscle group characteristic, (in:) B. Jonsson, ed., Biomechanics X-B, Human Kinetics, 1987 Champaign, pp. 1127-1130.
  • [19] Mirkov D.M., Nedeljkovic A., Milanovic S., Jaric S., Muscle strength testing: evaluation of tests of explosive force production, European Journal of Applied Physiology, 2004, 91, 2-3: 147-154.
  • [20] Naczk M., Adach Z., Brzenczek-Owczarzak W., Comparison of rate of force development of elbow and knee flexors, Human Movement, 2007 8, 2: 120-123.
  • [21] Paasuke M., Ereline J., Gapeyeva H., Knee extension strength and vertical jumping performance in Nordic combined athletes. Journal of Sports Medicine and Physical Fitness, 2001, 41, 3: 354-361.
  • [22] Runnels E.D., Bemben D.A., Anderson M.A., Bemben M.G., Influence of age on isometric, isotonic, and isokinetic force production characteristics in men, Journal of Geriatric Physical Therapy, 2005, 28, 3: 74-84.
  • [23] Stone M.H., Sands W.A., Carlock J., Callan S., Dickie D., Daigle K., Cotton J., Smith S.L., Hartman M., The importance of isometric maximum strength and peak rate-of-force development in sprint cycling, Journal of Strength and Conditioning Research, 2004, 18, 4: 878-884.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-cc7b148b-ce82-479d-844f-7b84936c6b5e
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