Métodos para determinação do consumo de oxigênio, economia de nado e custo energético em natação
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natação, consumo de oxigênio, métodos, custoResumo
Consumo de oxigênio e suas variantes economia de nado e custo energético, são variáveis fisiológicas e biofísicas determinantes para o desempenho em natação. Há inúmeros métodos desenvolvidos para a mensuração do consumo de oxigênio na modalidade, devido às particularidades do meio. Este artigo busca revisar essas métodos e seus resultados. Pretende trazer à tona da discussão cientíica a necessidade de melhor desenvolver tecnologia na área, que seja acessível não apenas aos laboratórios, mas a equipes competitivas que buscam na avaliação uma ferramenta de apoio ao processo de treinamento.Referências
BARBOSA, T, FERNANDES, R, KESKINEN, KL, COLAÇO, P, CARDOSO, C, SILVA, J, VILAS-BOAS, JP. Evaluation of the energy expenditure in competitive swimming strokes. international Journal of Sports Medicine, v. 27, n. 11, p. 894-899, 2006.
BONEN A, WILSON, BA, YARKONY, M, BELCASTRO, AN. Maximal oxygen uptake during free, tethered, and lume swimming. Journal of Applied Physiology, v. 48, n. 2, p. 232- 235, 1980.
CAPELLI, C, PENDERGAST, D, TERMIN, B. Energetics of swimming at maximal speed in humans. European Journal of Applied Physiology, v. 78, p. 385-93, 1998.
CAPELLI, C. Physiological determinants of best performance in human locomotion. European Journal of Applied Physiology, v. 80, p. 298-307, 1999.
CARDELLI, C, LERDA, R, CHOLLET, D. Analysis of breathing in the crawl as a function of skill and stroke characteristics. Perceptual and Motor Skills, v. 90, p. 979-987, 2000.
CARRÉ, F, DASSONVILLE, J, BEILLOT, J, PRIGENT, JY, ROCHCONGAR, P. Use of oxygen uptake recovery curve to predict peak oxygen uptake in upper body exercise. European Journal of Applied Physiology, v. 69, p. 258-261, 1994.
CHATARD, JC, COLLOMP, C, MAGLISCHO, E, MAGLISCHO, C. Swimming skill and stroking characteristics of front crawl swimmers. International Journal of Sports Medicine, v. 11, p. 156-161, 1990a.
CHATARD, JC, LAVOIE, JM, LACOUR, JR. Energy cost of frontcrawl swimming in women. European Journal of Applied Physiology, v. 63, p. 12-16, 1991a.
DEMARIE, S, SARDELLA, F, BILLAT, V, MAGINI, W, FAINA, M. The VO2 slow component in swimming. European Journal of Applied Physiology, v. 84, p. 95-99, 2001.
FERNANDES, RJ, CARDOSO, CS, SOARES, SM, ASCENÇÃO, A, COLAÇO, PJ, VILAS BOAS, JP. Time Limit and VO2 Slow Component at Intensities Corresponding to VO2 max in Swimmers. International Journal of Sports Medicine, v. 24, p. 576-581, 2003.
GULLSTRAND, L. Swimming as an Endurance Sport. In: SHEPARD, R.; ASTRAND, P. (Org.). endurance in Sport. Oxford: Blackwell Scientiic Publications, 1992. cap. 55, p. 531- 541.
HÓLMÉR, I. Physiology of swimming man. exercise and Sports Science Review, v. 7, p. 87-123, 1979.
KONSTANTAKI, M, SWAINE, IL. Lactate and Cardiopulmonary Responses to Simulate Arm-Pulling and Leg-Kicking in Collegiate and Recreational Swimmers. International Journal of Sports Medicine, v. 20, p. 118-121, 1999.
LÉGER, LA, SELIGER, V, BRASSARD, L. Backward extrapolation of VO2max values from the O2 recovery curve. Medicine and Science in Sports and exercise, v. 12, n. 1, p. 24-27, 1980.
MILLET, GP, CANDAU, R. Facteurs mécaniques du coût énergé- tique dans trois locomotions humaines. Science & Sports, v. 17, p. 166-176, 2002.
MONTPETIT, R, LÉGER, L. LAVOIE, JM, CAZORLA, G. VO2 Peak During Free Swimming Using the Backward Extrapolation of the O2 Recovery Curve. European Journal of Applied Physiology, v. 47, p. 385-391, 1981.
OGITA, F. Energetics in competitive swimming and its application for training. Revista Portuguesa de Ciências do Desporto, v. 6, s. 2, p.117-121, 2006.
PENDERGAST, D, ZAMPARO, P, DIPRAMPERO, PE, CAPELLI, C, CERRETELLI, P TERMIN, A, CRAIG JR, A., BUSHNELL, D, PASCHKE, D, MOLLENDORF, J. Energy balance of human locomotion in water. European Journal of Applied Physiology, v. 90, p. 377-386, 2003.
PRIOUX, J, AYOUB, J, HOUEL, N, BERGER, M, RAMONATXO, M, PRÉFAUT, C. Effets de l’entraînement sur les potentials aérobie et anaérobie de jeunes nageurs. Exercise realize avec les bras. Science & Sports, v. 16, p. 306-14, 2001.
POUJADE, B, HAUTIER, C, ROUARD, A. Influence de la morpholgie, de VO2max et du coût énergetique sur la performance en natation chez de jeunes nageurs. Science & Sports, v. 18, p. 182-187, 2003.
RIBEIRO, JP, CADAVID, E, BAENA, J, MANSALVETE, E, BARNA, A, DE ROSE, EH. Metabolic predictors of middle-distance swimming performance. British Journal of Sports Medicine, v. 24, n. 3, p. 196-206, 1990.
RINEHARDT, KF, KRAEMMER, RR, GORMELY, S, COLAN, S. Comparison of Maximal Oxygen Uptakes from the Tethered, the 183- and 457-Meter Unimpeded Supramaximal Freestyle Swims. International Journal of Sports Medicine, v. 12, p. 6-9, 1991.
SLEIVERT, G, MACKINNON, LT. The validation of backward extrapolation of submaximal oxygen consumption from the oxygen recovery curve. European Journal of Applied Physiology, v. 63, p. 135-139, 1991.
TOUSSAINT, HM, HOLLANDER, AP. Energetics of competitive swimming, Implications for training programmes. Sports Medicine, v. 18, n. 6, p. 384-405, 1994.
WAKAYOSHI, K, D’ACqUISTO, LJ, CAPPAERT, JM, TROUP, JP. Relationship Between Oxygen Uptake, Stroke Rate and Swimming Velocity in Competitive Swimming. International Journal of Sports Medicine, v. 16, p. 19-23, 1995.
ZAMPARO, P, PENDERGAST, DR, MOLLENDORF, J, TERMIN, A, MINETTI, AE. An energy balance of front crawl. European Journal of Applied Physiology, v. 94, p. 134-144, 2005a.
ZAMPARO, P, BONIFAZI, M, FAINA, M, MILAN, A, SARDELLA, F, SCHENA, F, CAPELLI, C. Energy cost of swimming of elite long-distance swimmers. European Journal of Applied Physiology, v. 94, p. 697-704, 2005b.
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