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DOI: 10.1055/s-2007-965128
© Georg Thieme Verlag KG Stuttgart · New York
Coordination Specificity in Strength and Power Training
Publication History
accepted after revision January 1, 2007
Publication Date:
05 July 2007 (online)
Abstract
In this study, we tested the hypothesis that specificity of inter-joint coordination in power training improves training effects. We compared two different training regimes, one with and one without the possibility to exploit the coordination between knee and ankle, on performance and coordination in maximal vertical jumping and explosive squat movements. 22 subjects were divided into two groups for a 5-week training study. One group (Tsingle) trained squats (SQ) and plantar flexions (PL) in separate activities and the other group (Tmulti) trained squats ending with plantar flexion in one movement (SQPL), three times a week.
Both groups increased their peak power during training movements between 2 - 15 % (depending on the training movement) but there were no group effects. There were no effects on vertical jumping performance. However, our data indicate different coordinative changes between groups in the vertical jump after the training period. The group specific training movements resulted in an increased power potential that is shown in the training movements themselves but did not transfer to an increased vertical jump performance in either group. However, some training movement specific coordination effects were seen during vertical jumping. In this study, these coordinative changes are specific to the training groups and may be a forerunner to improvements in vertical jumping.
Key words
strength and power training - coordination - movement specificity - biarticular muscles
References
- 1 Aagaard P, Simonsen E B, Andersen J L, Magnuson S P, Halkjær-Kristensen J, Dyhre Poulsen P. Neural inhibition during maximal eccentric and concentric quadriceps contraction: effects of resistance training. J Appl Physiol. 2000; 89 2249-2257
- 2 Baker D, Nance S, Moore M. The load that maximizes the average mechanical power output during jump squats in power-trained athletes. J Strength Condit Res. 2001; 15 92-97
- 3 Behm D G, Sale D G. Intended rather than actual movement velocity determines velocity-specificity training response. J Appl Physiol. 1993; 74 359-368
- 4 Berger R A. Effects of dynamic and static training on vertical jumping ability. Res Q Exerc Sport. 1963; 34 419-424
- 5 Bobbert M F, Huijing P A, Van Ingen Schenau G J. An estimation of power output and work done by the human triceps surae muscle-tendon complex in jumping. J Biomech. 1986; 18 899-906
- 6 Bobbert M F, Van Ingen Schenau G J. Coordination in vertical jumping. J Biomech. 1988; 21 249-262
- 7 Bobbert M F, Van Ingen Schenau G J. Mechanical output about the ankle joint in isokinetic plantar flexion and jumping. Med Sci Sports Exerc. 1990; 22 660-668
- 8 Bobbert M F, Van Soest A J. Effects of muscle strengthening on vertical jump height: a simulation study. Med Sci Sports Exerc. 1994; 26 1012-1020
- 9 Delecluse C. Influence of strength training on sprint running performance: current findings and implications for training. Sports Med. 1997; 24 147-156
- 10 Gregoire L, Veeger H E, Huijing P A, Van Ingen Schenau G J. Role of mono- and bi-articular muscles in explosive movements. Int J Sports Med. 1984; 5 301-305
- 11 Hermens (ed) H J, Freriks B, Stegemann D, Blok J, Rau G, Disselhorst-Klug C, Hägg G. European Recommendations for Surface Electromyography. Enschede; Roessingh Research and Development BV 1999
- 12 Hodges P W, Bui B H. A comparison of computer-based methods for determination of onset of muscle contraction using electromyography. Electroencephalogr Clin Neurophysiol. 1996; 101 511-519
- 13 Jacobs R, Bobbert M F, Van Ingen Schenau G J. Mechanical output from individual muscles during explosive leg extensions: the role of biarticular muscles. J Biomech. 1996; 29 513-523
- 14 Kraemer W J, Newton R U. Training for muscular power. Phys Phys Med Rehabil Clin N Am. 2000; 11 341-369
- 15 Marcora S, Miller M K. The effect of knee angle on the external validity of isometric measures of lower body neuromuscular function. J Sport Sci. 2000; 18 313-319
- 16 McMillan G SS, Board W, Rasmussen M, Heneghan J M. Sources of error in determining countermovement jump height with the impulse method. J Appl Biomech. 2001; 17 43-54
- 17 Morrissey M C, Harman E A, Johnson M J. Resistance training modes: specificity and effectiveness. Med Sci Sports Exerc. 1995; 27 648-660
- 18 Nagano A, Gerritsen K GM. Effects of neuromuscular strength training on vertical jumping performance - a computer simulation study. J Appl Biomech. 2001; 17 113-128
- 19 O'Shea K L. Functional isometric weight training: its effects on dynamic and its effects on dynamic and static strength. J Appl Sport Sci Res. 1988; 2 39-41
- 20 Van Ingen Schenau G J. From rotation to translations: constraints on multi-joint movements and the unique action of biarticular muscles. Hum Mov Sci. 1989; 8 301-337
- 21 Van Ingen Schenau G J. On the action of biarticular muscles, a review. Neth J Zoo. 1990; 40 521-540
-
22 Van Ingen Schenau G J, Bobbert M F, Van Soest A J.
The unique action of bi-articular muscles in leg extensions. Winters JM, Woo SL‐Y Multiple Muscle Systems: Biomechanics and Organization. New York; Springer-Verlag 1990: 639-652 (Chapter 41) - 23 Van Soest A J, Schwab A L, Bobbert M F, Van Ingen Schenau G J. The influence of the biarticularity of the gastrocnemius muscle on vertical-jumping achievement. J Biomech. 1993; 26 1-8
MD Stig Leirdal
Human Movement Science
NTNU
Dragvoll Idrettssenter, 3 etg
7491 Trondheim
Norway
Phone: + 47 73 59 17 80
Fax: + 47 73 59 17 70
Email: stig.leirdal@svt.ntnu.no