Artículos de revistas
Correlations Between Anaerobic Threshold Determination Protocols And Aerobic Performance In Adolescent Swimmers [correlações Entre Protocolos De Determinação Do Limiar Anaeróbio E O Desempenho Aeróbio Em Nadadores Adolescentes]
Registro en:
Revista Brasileira De Medicina Do Esporte. , v. 13, n. 4, p. 221e - 226e+245-250, 2007.
15178692
10.1590/S1517-86922007000400007
2-s2.0-40549134962
Autor
Altimari J.M.
Altimari L.R.
Gulak A.
Chacon-Mikahil M.P.T.
Institución
Resumen
The purpose of this study was to correlate the anaerobic threshold speeds (ATS) obtained from fixed lactate blood concentration (ATS 4 e ATS 3.5 mM), lactate minimum speed (LacminS) and the critical speed (CS) determined from different distances and number of coordinates: CS1 (50/100/200 m), CS2 (100/200/400 m), CS3 (50/100/200/400 m) and CS4 (200/400 m) with the performance in 400 meters (s) in adolescent swimmers. The sample was constituted by 15 swimmers (10 boys and five girls = 14.7 ± 0.7 years; 61.9 ± 8.5 kg; 171.1 ± 8.8 cm) of national level, with five to seven years of experience in competitive swimming. The correlation between the indexes and the performance in 400 m (s) was made using Pearson correlation coefficients. Significance was set at p < 0.01. The correlations between ATS 4 mM, ATS 3.5 mM, LacminS and the performance in 400 m (s) were: r = -0.63, r = -0.90 e r = -0.91, respectively (p < 0.01). The correlations between CS1 (50/100/200 m), CS2 (100/200/400 m), CS3 (50/100/200/400 m), CS4 (200/400 m) and the performance in 400 m (s) were: r = -0.62, r = -0.97, r = -0.98 e r = -0.94, respectively (p < 0.01). We suggest that ATS obtained from fixed lactate blood concentration of 3.5 mM, as well as LacminS and the CS obtained through larger distances seem to be the most fitted indexes of prediction of the aerobic performance in the studied adolescent swimmers. Additionally, the number of coordinates seems no influencing the relation between CS and aerobic performance. 13 4 221e 226e+245-250 Basset Jr, D.R., Howley, E.T., Limiting factors for maximum oxygen uptake and determinants of endurance performance (2000) Med Sci Sports Exerc, 32, pp. 70-84 Ribeiro, J.P., Sadavid, E., Baena, J., Monsalvet, E., Barna, A., De Rose, E.H., Metabolic predictions of middle-distance swimming performance (1990) Br J Sports Med, 24, pp. 196-200 Wakayoshi, K., Ilkuta, K., Yoshida, T., Udo, M., Moritani, T., Mutoh, Y., Determination and validity of critical velocity speed as an index of swimming performance in the competitive swimmer (1992) Eur J Appl Physiol, 64, pp. 153-157 Wakayoshi, K., Yoshida, T., Udo, M., Kasai, T., Moritani, T., Mutoh, Y., A simple method for determining critical speed as swimming fatigue threshold in competitive swimming (1992) Int J Sports Med, 13, pp. 367-371 Wakayoshi, K., Yoshida, T., Udo, M., Harada, T., Moritani, T., Mutoh, Y., Does critical swimming velocity represent exercise intensity at maximal lactate steady state? (1993) Eur J Appl Physiol, 66, pp. 90-95 Cyrino, E.S., Okano, A.H., Silva, K.E.S., Altimari, L.R., Dórea, V.R., Zucas, S.M., Aptidão aeróbia e sua relação com os processos de crescimento e maturação (2002) Revista de Educação Física da Uem, 13, pp. 17-26 Tomkinson, G.R., Leger, L.A., Olds, T.S., Cazorla, G., Secular trends in the performance of children and adolescents (1980-2000): An analysis of 55 studies of the 20 m shuttle run test in 11 countries (2003) Sports Med, 33, pp. 285-300 Saltin, B., Strange, S., Maximal oxygen uptake: Old and new arguments for a cardiovascular limitation (1992) Med Sci Sports Exerc, 24, pp. 30-37 Klissouras, V., Heritability of adaptive variation (1971) J Appl Physiol, 31, pp. 338-344 Klissouras, V., Pirnay, F., Petit, J.M., Adaptation to maximal effort: Genetics and age (1973) J Appl Physiol, 35, pp. 288-293 Svedahl, K., Macintosh, B.R., Anaerobic threshold: The concept and methods of measurement (2003) Can J Appl Physiol, 28, pp. 299-323 Mader, A., Liesen, H., Heck, H., Philippi, H., Schürch, P.M., Hollmann, W., Zur Beurteilung der sportartspezifischen Ausdauerleistungsfähigkeit (1976) Sportarzt Sportmed, 27, pp. 80-88 Kinderman, W., Simon, G., Keul, J., The significance of the aerobic-anaerobic transitions for determination of workload intensities during endurance training (1979) Eur J Appl Physiol, 42, pp. 25-34 Sjodin, B., Jacobs, I., Onset of blood lactate accumulation and marathon running performance (1981) Int J Sports Med, 2, pp. 23-26 Heck, H., Mader, A., Hess, G., Mücke, S., Müller, R., Hollmann, W., Justification of the 4-mmol/l lactate threshold (1985) Int J Sports Med, 6, pp. 117-130 Stegmann, H., Kindermann, W., Schinabel, A., Lactate kinetics and individual anaerobic threshold (1981) Int J Sports Med, 2, pp. 160-165 Tegtbur, U., Busse, M.W., Braumann, K.M., Estimation of an individual equilibrium between lactate production and catabolism during exercise (1993) Med Sci Sports Exerc, 25, pp. 620-627 Simões, H.G., Campbell, C.S.G., Tango, M.L.L., Mello, F., Maziero, D.C., Baldissera, V., Lactate minimum test in swimming: Relationship to performance and maximal lactate steady state (2000) Med Sci Sports Exerc, 32 (SUPPL. 1), p. 161 Ribeiro, L., Balakian, P., Malachias, P., Baldissera, V., Stage length, spline function and lactate minimum swimming speed (2003) J Sports Med Phys Fitness, 43, pp. 312-318 Kokubun, E., Velocidade crítica como estimador do limiar anaeróbio na natação. (1996) Rev Paul Educ Fís, 10, pp. 5-20 Rodriguez, F.A., Moreno, D., Keskinen, K.L., Validity of a two-distance simplified testing method for determining critical swimming velocity (2003) Biomechanics and medicine in swimming IX, pp. 385-390. , Chatard JC, editor, Saint-Etienne: University of Saint Etienne Hill, D.W., Steward, R.P., Lane, C.J., Application of the critical power concept to young swimmers (1995) Pediatr Exerc Sci, 7, pp. 281-293 Denadai BS, Greco CC. Correlação entre a velocidade crítica e a velocidade de limiar anaeróbio com as performances nos 50, 100, 200 metros, em nadadores de 10 a 12 anos. Revista da Associação dos Professores de Educação Física de Londrina. 1997;12:33-41Denadai, B.S., Greco, C.C., Donega, M.R., Comparação entre a velocidade de limiar anaeróbio e a velocidade crítica em nadadores com idade de 10 a 15 anos. (1997) Rev Paul Educ Fis, 11, pp. 128-133 Denadai, B.S., Greco, C.C., Teixeira, M., Blood lactate response and critical speed in swimmers aged 10-12 years of different standards (2000) J Sports Sci, 18, pp. 779-784 Barsa, E., Bianco, A., Greco, C.C., (2001) Velocidade crítica, capacidade de trabalho anaeróbio e performance em nadadores de 10 a 15 anos, 1, pp. 164-173. , Claretiano, Revista do Centro Universitário Freitas, A.D.E., Greco, C.C., Gomide, E.B.G.G., Souza, W., (2002) Comportamento de variáveis técnicas e metabólicas e correlação com a performance em nadadores de 10 a 12 anos, 2, pp. 171-179. , Claretiano, Revista do Centro Universitário Greco, C.C., Bianco, A., Gomide, E., Denadai, B.S., Validity of the critical speed to determine blood lactate response and aerobic performance in swimmers aged 10-15 years (2002) Sci Sports, 17, pp. 306-308 Greco, C.C., Denadai, B.S., Peligrinotti, I.L., Freitas, A.D.B., Gomide, E., Anaerobic threshold and critical speed determined with different distances in swimmers aged 10 to 15 years: Relationship with the performance and blood lactate response during endurance tests (2003) Rev Bras Med Esporte, 9, pp. 1-7 Greco, C.C., Denadai, B.S., Critical speed and endurance capacity in young swimmers: Effects of gender and age (2005) Pediatr Exerc Sci, 17, pp. 353-363 Housh, D.J., Housh, T.J., Bauge, S.M., A methodological consideration for the determination of critical power and anaerobic work capacity (1990) Res Q Exerc Sport, 61, pp. 406-409 Fontes, E.B., Borges, T.O., Altimari, L.R., Melo, J.C., Okano, A.H., Cyrino, E.S., Influência do número de coordenadas e da seleção de distâncias na determinação da velocidade crítica na canoagem de velocidade. (2002) Rev Bras Ciên e Mov, 10 (SUPPL. 1), p. 161 Melo, J.C., Altimari, L.R., Gulak, A., Machado, M.V., Cyrino, E.S., Chacon-Mikahil, M.P.T., Comparação entre protocolos de determinação do limiar anaeróbio em nadadores adolescentes (2006) Anais do I Congresso Brasileiro de Metabolismo, Nutrição e Exercício, p. 28. , Londrina, Brasil Verkhoshansky YV. Entrenamiento deportivo - Planificacion y programacion. Barcelona: Ed. Martinez Roca 1990Bonifazi, M., Martelli, G., Marudo, L., Sardella, F., Carli, G., Blood lactate accumulation in top level swimmers following competition (1993) J Sports Med Phys Fitness, 33, pp. 13-18 Guglielmo, L.G.A., Denadai, B.S., Validade do ergômetro de braço para a determinação do limiar anaeróbio e da performance aeróbia de nadadores. (2001) Rev Port Cien Desp, 1, pp. 7-13 Melo JC, Altimari LR, Machado MV, Chacon-Mikahil MPT, Cyrino ES. Velocidade crítica, limiar anaeróbio e intensidade de nado na máxima fase estável de lactato sanguíneo em nadadores juvenis. Lect Educ Fís Deportes. 2005;10:on-lineReilly, T., Woodbridge, V., Effects of moderate dietary manipulations on swim performance and on blood lactate-swimming velocity curves (1998) Int J Sports Med, 20, pp. 93-97 Santos, I.L.G., Papoti, M., Gobatto, C.A., Zagatto, A.M., Relações entre o lactato mínimo e performance de nado crawl. (2005) Rev Bras Ci Mov, 13 (SUPL 1), p. 72 Bartholomeu-Neto, J.B., Pellegrinotti, I.L., Cielo, F.M.B.L., Luchiari, R., Correlação entre os tempos obtidos na distância de 100, 200 e 400 metros e a velocidade crítica em nadadores de 13 a 16 anos. (2005) Rev Bras Ci Mov, 13 (SUPL 1), p. 96 Stone, M.H., Sands, W.A., Stone, M.E., The downfall of sports science in the United States (2004) Strength Cond J, 26, pp. 72-75