Sage Journals: Discover world-class research

Abstract

Body composition, isometric quadriceps muscle force output, EMG activity during isometric and SSC activity, and flexibility were assessed in female dancers (n = 11) and physically active controls (n = 11) to investigate quadriceps muscle strength and electromyographic (EMG) activity during isometric and stretch-shortening cycle (SSC) activity in dancers. The dancers had less body fat (21.4% ± 2.8 vs 25.6% ± 3.7, p < 0.01) and were more flexible in the straight-leg raise, ankle plantar flexion and dorsiflexion, elbow flexion and extension and sit-and-reach tests (all p < 0.01) than the controls. The dancers generated greater quadriceps muscle force output during a 5 second maximal voluntary isometric contraction (peak force: 458.9N ± 91.4 vs 327.9N ± 78.2, p < 0.01), but did not jump significantly higher than the controls (37.6 ± 5.5 vs 35.9 ± 3.9 cm, respectively). The dancers generated similar force output to the controls, but with less relative EMG activity, during the squat (p < 0.01), counter-movement (p < 0.05), and drop (p < 0.05) SSC jumps. The dancers had greater quadriceps muscle strength than the controls, but did not jump significantly higher. They used less of their maximum EMG during the jump tests, and hence less of their maximal possible muscle recruitment when jumping than the controls. This may be due to the dancers subconsciously sacrificing their jump height for aesthetics, to training-induced differences in whole limb muscle recruitment patterns, or to training-induced or genetic differences in the elastic components of the dancers’ compared to the controls’ lower limb musculotendinous tissue.

Get full access to this article

View all access options for this article.

References

Horita

, Komi

, Nicol

, Kyröläinen

: Stretch shortening cycle fatigue: Interactions among joint stiffness, reflex, and muscle mechanical performance in the drop jump. J Appl Physiol 73:393–403, 1996.

Komi

: The stretch-shortening cycle and human power output. In: Jones

, McCartney

, McComas

(eds): Human Muscle Power. Champaign, IL: Human Kinetics Publishers, Inc., 1986, pp. 27–39.

Komi

: Stretch shortening cycle. In: Komi

(ed): Strength and Power in Sports. Oxford: Blackwell, 1992, pp. 169–179.

Asmussen

, Bonde-Peterson

: Apparent efficiency and storage of elastic energy in human muscles during exercise. Acta Physiol Scand 92:537–545, 1974.

Cavagna

, Dusman

, Margaria

: Positive work done by a previously stretched muscle. J Appl Physiol 24(1):21–32, 1968.

Helgeson

, Gajdosik

: The stretch shortening cycle of the quadriceps femoris muscle group measured by isokinetic dynamometry. J Sport Phys Ther 17(1):17–23, 1993.

Bosco

, Viitasalo

, Komi

, Luhtanen

: Combined effect of elastic energy and myoelectrical potential during stretch shortening cycle exercise. Acta Physiol Scand 114:557–565, 1982.

Fukashiro

, Komi

: Joint moment and mechanical power flow of lower limb during vertical jump. Int J Sports Med 8(Suppl): 15–21, 1987.

Häkkinen

, Komi

, Kauhanen

: Electromyographic and force production characteristics of leg extensor muscles of elite weight lifters during isometric, concentric, and various stretch-shortening cycle exercises. Int J Sports Med 7:144–151, 1986.

10.

Aura

, Komi

: Effects of prestretch intensity on mechanical efficiency of positive work and on elastic behavior of skeletal muscle in stretch-shortening cycle exercise. Int J Sports Med 7:137–143, 1986.

11.

Blanpied

, Levins

, Murphy

: The effects of different stretch velocities on the average force of the shortening phase in the stretch-shorten cycle. J Sport Phys Ther 21(6):345–353, 1995.

12.

Blattner

, Noble

: Relative effects of isokinetic and plyometric training on vertical jumping performance. Res Quart 50:583–588, 1979.

13.

Clutch

, Wilton

, McGown

, Bryce

: The effects of drop jumps and weight training on leg strength and vertical jump. Res Q 54:5–10, 1983.

14.

Steben

, Steben

: The validity of the stretch-shortening cycle in selected jumping events. J Sports Med Phys Fitness 21(1):28–37, 1981.

15.

Wilson

, Elliot

, Wood

: Stretch shorten cycle performance enhancement through flexibility training. Med Sci Sports Exerc 24(1):116–123, 1992.

16.

Gannon

, Bird

: The quantification of joint laxity in dancers and gymnasts. J Sports Sci 17(9):743–750, 1999.

17.

Ross

, Marfell-Jones

: Kinanthropometry. In: MacDougall

, Wegner

, Green

(eds): Physiological Testing of the High-Performance Athlete (2nd ed). Champaign, IL: Human Kinetics Publishers, Inc., 1991, pp. 223–308.

18.

Durnin

, Womersley

: Body fat assessed from the total body density and its estimation from skinfold thickness: Measurements on 481 men and women aged from 16 to 72 years. Br J Nutr 32:77–97, 1974.

19.

Martin

, Spenst

, Drinkwater

, Clarys

: Anthropometric estimation of muscle mass in men. Med Sci Sports Ex 22:729–733, 1990.

20.

Katch

, Katch

: A simple anthropometric method for calculating segmental leg limb volume. Res Quart 45:211–214, 1974.

21.

Maud

, Cortez-Cooper

: Static techniques for the evaluation of joint range of motion. In: Physiological assessment of human fitness. Champaign, IL: Human Kinetics Publishers, Inc., 1995, pp. 221–243.

22.

MacDermid

, Chesworth

, Patterson

, Roth

: In tratester and intertester reliability of goniometric measurement of passive lateral shoulder rotation. J Hand Ther 12(3):187–192, 1999.

23.

Armstrong

, MacDermid

, Chinchalkar

, Stevens

, King

: Reliability of range-of-motion measurement in the elbow and forearm. J Shoulder Elbow Surg 7(6):573–580, 1998.

24.

Finucane

, Rafeei

, Kues

, Lamb

, Mayhew

: Reproducibility of electromyographic readings of submaximal concentric and eccentric muscle contractions in humans. Electroencephalogr Clin Neurophysiol 109(4):290–296, 1998.

25.

Kellis

, Baltzopoulos

: Muscle activation differences between eccentric and concentric isokinetic exercise. Med Sci Sports Exerc 30(11):1616–1623, 1998.

26.

Masuda

, Masuda

, Sadoyama

, Inaki

, Katsuta

: Changes in surface EMG parameters during static and dynamic fatiguing contractions. J Electromyogr Kinesiol 9:39–46, 1999.

27.

St Clair Gibson

, Schabort

, Noakes

: Reduced neuromuscular activity and force generation during prolonged cycling. Am J Physiol Regul Integr Comp Physiol 281(1):R187–196, 2001.

28.

Komi

, Bosco

: Utilization of stored elastic energy in leg extensor muscles by men and women. Med Sci Sports Exerc 10:261–265, 1978.

29.

Wilson

, Wood

, Elliott

: The relationship between stiffness of the musculature and static flexibility: An alternative explanation for the occurrence of muscular injury. Int J Sports Med 12(4):403–407, 1991.

30.

Grahame

, Jenkins

: Joint hypermobility: Asset or liability? Ann Rheum Dis 31:109–111, 1972.

31.

Koceja

, Burke JR Kamen

: Organization of segmental reflexes in trained dancers. Int J Sports Med 12(3):285–289, 1991.

32.

Westblad

, Tsai-Fellander

, Johansson

: Eccentric and concentric knee extensor muscle performance in professional ballet dancers. Clin J Sport Med 5(1):48–52, 1995.

33.

Kuno

, Fukunaga

, Hirano

, Miyashita

: Anthropometric variables and muscle properties of Japanese female ballet dancers. Int J Sports Med 17(2):100–105, 1996.

34.

Dahlstrom

, Liljedahl

, Gierup

, Kaijser

, Jansson

: High proportion of type I fibres in thigh muscle of young dancers. Acta Physiol Scand 160(1):49–55, 1997.

Quadriceps Strength and Jumping Efficiency in Dancers

Abstract

Get full access to this article

References