Abstract
The force generation capacities during a single as well as repetitive maximal knee extensions were investigated in speed skaters in relation to the cross-sectional area (CSA) of quadriceps femoris muscles. The subjects were 15 male and 12 female speed skaters, and an age-matched untrained group (20 men and 21 women). An isokinetic dynamometer was used to determine force output at three constant velocities of 1.05, 3.14 and 5.24 rad · s−1 and to perform 50 repetitive maximal contractions at 3.14 rad · s−1. The CSA was measured by using a B-mode ultrasound technique at the midpoint of the thigh length. The isokinetic force produced at each test velocity was significantly correlated to CSA in all the subjects (r = 0.867–0.920, P < 0.05). There was no significant difference in force (F) per unit CSA (F · CSA−1) at the three test velocities between the speed skaters and untrained subjects within the same sex. In both the speed skaters and untrained subjects, the women showed significantly lower F · CSA−1 at 3.14 and 5.24 rad · s−1 than the men. The means of force output (\(\bar F\)) of every five consecutive and all trials during the repetitive maximal bout were significantly correlated to CSA in all the subjects (r = 0.889–0.934, P < 0.05). Compared to the untrained subjects, the speed skaters showed significantly higher (\(\bar F\)) for every five consecutive contractions even when calculated per unit of CSA (\(\bar F\)· CSA−1), and had lower percentage of decline of F during a trial span between the 6th–10th and 41th–45th trials. For the untrained subjects, \(\bar F\)· CSA−1 for every five consecutive contractions was significantly lower in the women than in the men. For the speed skaters, the men showed significantly higher \(\bar F\)· CSA−1 than the women during a trial span from the 1st–5th trial to the 31th–35th trial, although there was no significant sex difference in the ratio on and after the 36th–40th trial. From these results, it is concluded that the speed skaters show a higher muscle performance in a repetitive maximal contraction task rather than in a single contraction compared to the untrained subjects. In addition, judging from the results for the speed skaters, the women might be less trainable than the men in the \(\bar F\)· CSA−1 during a single contraction at a fast velocity as well as repetitive maximal contractions.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alway SE, Stray-Gunderson J, Grumbt WH, Gonyea J (1990) Muscle cross-sectional area and torque in resistance-trained subjects. Eur J Appl Physiol 60:86–90
Behn DG, Sale DG (1993) Velocity specificity of resistance training. Sports Med 15:374–388
Bell DG, Jacobs I (1986) Electro-mechanical response times and rate of force development in males and females. Med Sci Sports Exerc 18:31–36
Bland JM, Altman DG (1986) Statistical methods for assessing agreement between two methods of clinical measurement. Lancet 1:307–310
Cadefau J, Casademont J, Gran JM, Fernandez J, Balaguer A, Vernet M, Cusso R, Urbano-Marques A (1990) Biomechanical and histochemical adaptation to sprint training in young athletes. Acta Physiol Scand 140:341–351
Cheetham ME, Williams C (1987) High intensity training and treadmill sprint performance. Brit J Sports Med 21:14–17
Davies BN, Greenwood J, Jones SR (1988) Gender difference in the relationship of performance in the handgrip and standing long jump tests to lean limb volume in young adults. Eur J Appl Physiol 58:315–320
de Boer RW, Ettema GJC, Faessen BGM, Krekels H, Hollander AP, de Groot G, Ingen Schenau GJ van (1987) Specific characteristics of speed skating: implications for summer training. Med Sci Sports Exerc 19:504–510
de Koning JJ, de Groot G, Ingen Schenau GJ van (1991) Coordination of leg muscles during speed skating. J Biomechanics 24:137–146
DeLome CT (1945) Restoration of muscle power by heavy-resistance exercises. J Bone Joint Surg 27:645–667
Dudley GA, Djamil R (1985) Incompatibility of endurance and strength-training modes of exercise. J Appl Physiol 59:1446–1451
Fox LE (1979) Sports physiology, Saunders College, Philadelphia
Green HJ, Fraser IG, Ranney DA (1984) Male and female differences in enzyme activities of energy metabolism in vastus lateralis muscle. J Neurol Sci 65:323–331
Ingen Schenau GJ van, de Groot G (1983) Differences in oxygen consumption and external power between male and female skaters during supra-maximal cycling. Eur J Appl Physiol 51:337–345
Ingen Schenau GJ van, de Boer RW, Geysel JSM, de Groot G (1988) Supramaximal test results of male and female speed skaters with particular reference to methodological problems. Eur J Appl Physiol 57:6–9
Ivy JL, Sherman WM, Maxwell BD, Costill DL (1982) Relationship between muscle QO2 and fatigue during repeated isokinetic contractions. J Appl Physiol Respir Environ Physiol 53:470–474
Kandou TWA, Houtman ILD, Bol E vd, de Boer RW, de Groot G (1987) Comparison of physiology and biomechanics of speed skating with cycling and with skateboard exercise. Can J Sport Sci 12:31:36
Kanehisa H, Ikegawa S, Tsunoda N, Fukunaga T (1994a) Strength and cross-sectional area of knee extensor muscles in children. Eur J Appl Physiol 68:402–405
Kanehisa H, Ikegawa S, Tsunoda N, Fukunaga T (1994b) Crosssectional areas in limbs during growth and middle age. Int J Sports Med 15:420–425
Komi PV, Karlsson J (1978) Skeletal muscle fiber types, enzyme activities and physical performance in young males and females. Acta Physiol Scand 103:210–218
Komi PV, Rusko H, Vos J, Vihko V (1977) Anaerobic performance capacity in athletes. Acta Physiol Scand 100:107–114
Maksud MG, Wiley RL, Hamilton LH, Lockhart B (1970) Maximal VO2 ventilation, and heart rate of Olympic speed skating candidates. J Appl Physiol 29:186–190
Maughan RJ, Watson JS, Weir J (1983) Relationships between muscle strength and muscle cross-sectional area in male sprinters and endurance runners. Eur J Appl Physiol 50:309–318
Mayhew JL, Salm PC (1990) Gender differences in anaerobic power tests. Fur J Appl Physiol 60:133–138
Medbø I, Burgers S (1990) Effect of training on the anaerobic capacity. Med Sci Sports 22:501–507
Nemoto I, Iwaoka K, Funato K, Yoshioka N, Miyashita M (1988) Aerobic threshold, anaerobic threshold, and maximal oxygen uptake of Japanese speed-skaters. Int J Sport Med 9:433–437
Nilsson J, Tesch P, Thorstensson A (1977) Fatigue and EMG of repeated fast voluntary contractions in man. Acta Physiol Scand 101:194–198
Nygaard E (1981) Skeletal muscle fiber characteristics in young women. Acta Physiol Scand 112:299–304
Pollock ML, Foster C, Anholm J, Hare J, Farrell P, Maksud M, Jacson AS (1982) Body composition of Olympic speed skating candidates. Res Q Exerc Sport 53:150–155
Saavedra C, Lagasse P, Bouchard C, Simoneau J-A (1991) Maximal anaerobic performance of the knee extensor muscles during growth. Med Sci Sports Exerc 23:1083–1089
Sale DG, Norman PW (1982) Testing strength and power. In: Physiological testing of the elite athlete. MacDougall JD, Wenger HA, Green HJ (eds) The Canadian Association Sports Sciences, pp 7–37
Sale DG, MacDougall JD, Alway SE, Sutton JR (1987) Voluntary strength and muscle characteristics in untrained men and women and male bodybuilders. J Appl Physiol 62:1786–1793
Saltin B, Åstrand P-O (1967) Maximal oxygen uptake in athletes. J Appl Physiol 23:353–358
Serresse O, Lortie G, Bouchard C, Bouley MR (1988) Estimation of the contribution of the various energy systems during maximal work of short duration. Int J Sports Med 9:456–460
Serrese O, Ama PFM, Simoneau JA, Lortie G, Bouchard C, Boulay MR (1989) Anaerobic performances of sedentary and trained subjects. Can J Sport Sci 14:46–52
Simoneau JA, Lortie G, Boulay MR, Thibault MC, Theriault G, Bouchard C (1985) Skeletal muscle histochemical and biochemical characteristics in sedentary male and female subjects. Can J Physiol Pharmacol 63:30–35
Tesch P, Sjodin B, Thorstensson A, Karlsson J (1978) Muscle fatigue and its relation to lactate accumulation and LDH activity in man. Acta Physiol Scand 103:413–420
Thorstensson A, Karlsson J (1976) Fatiguability and fiber composition of human skeletal muscle. Acta Physiol Scand 98: 318–322
Weltman A, Moffatt RJ, Stamford BA (1978) Supramaximal training in females: effects on anaerobic power output, anaerobic capacity, and aerobic power. J Sports Med Phys Fitness 18: 237–244
Withers RT, Sherman WM, Clark DG, Esselbach PC, Nolan SR, Mackay MH, Brinkman M (1991) Muscle metabolism during 30, 60 and 90 s of maximal cycling on an air-braked ergometer. Eur J Appl Physiol 63:354–362
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kanehisa, H., Nemoto, I., Okuyama, H. et al. Force generation capacity of knee extensor muscles in speed skaters. Eur J Appl Physiol 73, 544–551 (1996). https://doi.org/10.1007/BF00357677
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00357677