Artículos de revistas
Effect Of Strength Training On Muscular Strength-aerobic Performance Relationship For Competitive Swimmers [efeito Do Treinamento De Força Na Relação Força Musculardesempenho Aeróbio De Nadadores Competitivos]
Registro en:
Revista Brasileira De Cineantropometria E Desempenho Humano. , v. 9, n. 4, p. 380 - 385, 2007.
14158426
2-s2.0-84879921439
Autor
Barbosa A.C.
de Moraes R.C.
Andries Junior O.
Institución
Resumen
The aim of this study was to verify the effects of strength training on the muscular strength-aerobic performance relationship. Sixteen swimmers were assigned to control (CG) or experimental (EG) groups and underwent seventeen weeks of swimming training. Swimmers in the EG also performed dry land strength training (DLST), lasting twelve weeks, and aiming to develop power. A 10 minutes test (T10) was taken before and after the 12 weeks of DLST, in order to evaluate aerobic resistance, one maximum voluntary contraction (1MVC) and maximum repetition in 30s (REM) using 70% of 1MVC, where total weight was calculated. Total weight, T10, and 1MVC were all normalized for body mass. There was no significant correlation between percent changes in T10 and dry land muscle strength, despite significant increases being detected in dry land muscle strength. It can be concluded that nonspecific training does not improve aerobic performance in swimming. 9 4 380 385 Tanaka, H., Costill, D.L., Thomas, R., Fink, W.J., Widrick, J.J., Dry-land resistance training for competitive swimming (1993) Med Sci Sports Exerc, 25 (8), pp. 952-959 Barbosa, A.C., Andries Jr., O., Efeito do treinamento de força no desempenho da natação (2006) Rev Bras Educ Fis Esp, 20 (2), pp. 141-150 Jensen, C.R., Effects of five training combinations of swimming and weight training on swimming the front crawl (1963) Res Quarterly, 34 (4), pp. 471-477 Strass, D., Effects of maximal strength training on sprint performance of competitive swimmers (1986) Swimming Science V-International Series on Sports Science, pp. 149-156. , In: Ungerechts BE, Wilke K, Reischles K, organizadores, Champaign: Human Kinetics Nunney, D.N., Relation to circuit training to swimming (1960) Res Quarterly, 31, pp. 188-198 Miyashita, M., Kanehisa, H., Effects of isokinetic, isotonic and swim training on swimming performance (1983) Biomechanics and Medicine in Swimming, pp. 329-334. , In: Hollander AP, Huijing PA, De Groot G, organizadores, Champaign: Human Kinetics Hoppeler, H., Exercise-induced changes in skeletal muscle (1986) Int J Sports Med, 7, pp. 187-204 Costill, D.L., Flynn, M.G., Kirwan, J.P., Houmard, J.A., Mitchell, J.B., Thomas, R., Effects of repeated days of intensified training on muscle glycogen and swimming performance (1988) Med Sci Sports Exerc, (2-3), pp. 249-254 Maglischo, E.W., (1999) Nadando ainda mais rápido, , São Paulo: Manole Sale, D.G., Jacobs, I., McDougall, J.D., Garner, S., Comparison of two regiments of concurrent strength and endurance training (1990) Med Sci Sports Exerc, 22 (3), pp. 348-356 Bonen, A., Heynen, M., Hatta, H., Distr ibution of monocarboxylate transporters MCT1-MCT8 in rat tissues and human skeletal muscle (2006) Appl Physiol Nutr Metab, 31 (1), pp. 31-39 Hoff, J., Gran, A., Helgerud, J., Maximal strength training improves aerobic endurance performance (2002) Scand J Med Sci Sports, 12, pp. 288-295 Østerås, H., Helgerud, J., Hoff, J., Maximal strength-training effects on force-velocity and force-power relationship explains increases in aerobic performance in humans (2002) Eur J Appl Physiol, 88, pp. 255-263 Gabriel, D.A., Basford, J.R., An, K., Neural Adaptations to Fatigue: Implications for muscle Strength and Training (2001) Med Sci Sports Exerc, 33 (8), pp. 1354-1360 Newton, R.U., Jones, J., Kraemer, W.J., Wardle, H., Strength and power training of Australian Olympic swimmers (2002) Strength Cond J, 24 (3), pp. 7-15 Carnevale, R.V., Lamas, L., Participação da força máxima e da resistência de força rápida no desempenho da natação: Aplicação aos 50 metros livre (2004) Anais do XVVII Simpósio Internacional de Ciências do Esporte, p. 208. , São Paulo: Celafiscs Matsunami, M., Taguchi, M., Taimura, A., Suga, M., Taba, S., Relationship among different performance tests to estimate maximal aerobic swimming speed (1999) Med Sci Sports Exerc, 31 (5), p. 105 Kraemer, W.J., Ratamess, N.A., Fundamentals of resistance training: Progression and exercise prescription (2004) Med Sci Sports Exerc, 36 (4), pp. 674-688 Marcinik, E.J., Potts, J., Schlabach, G., Will, S., Dawson, P., Hurley, B.F., Effects of strength training on lactate threshold and endurance performance (1991) Med Sci Sports Exerc, 23 (6), pp. 739-743 Paavolainen, L., Hakkinen, K., Hamalainen, I., Numela, A., Rusko, H., Explosive-strength training improves 5-km running time by improving running economy and muscle power (1999) J Appl Physiol, 86, pp. 1527-1533 Stone, M., Stone, M., Lamount, H., (2005) Ejercício Explosivo, p. 451. , http://www.sobreentrenamiento.com/PubliCE/Articulo.asp?ida=451&tp=s, PubliCE Standard [periódico on line], Disponível em, [2005 mai 15] Cronin, J.B., McNair, P.J., Marshall, R.N., Is Velocity-Specific Strength Training Important in Improving Functional Performance? (2002) J Sports Med Phys Fitness, 42, pp. 267-273 Olbrecht, J., Clarys, J.P., EMG of Specific Strength Training Exercise for Front Crawl (1983) Biomechanics and Medicine in Swimming, pp. 136-141. , In: Hollander AP, Huijing PA, De Groot G, organizadores, Champaign: Human Kinetics