Methods for determining critical speed corridors

Authors

  • Miller Pereira-Guimaraes Universidad Pedro de Valdivia, sede Chillán, programa de Magister en Ciencias de la Motricidad Humana, Panamericana Norte 3651, Chillán, Chile.
  • Claudio Marcelo Hernández-Mosqueira Universidad de los Lagos, Departamento Ciencias de la Actividad Física, Campus Chinquihue, km 6, Puerto Montt, Chile. http://orcid.org/0000-0001-9392-2319
  • José Fernandes-Filho Universidade Federal de Río de Janeiro, Escuela Educación Física, Av. Pedro Calmon núm. 550, Prédio da Reitoria 2º andar, Cidade Universitária, Río de Janeiro, Brasil.
  • Sandro Fernandes-da-Silva Universidade Federal de Lavras, Departamento de Educação Física, Câmpus Universitário, CEP 37200-000, Lavras, Minas Gerais, Brasil, Caixa Postal 3037.

DOI:

https://doi.org/10.29059/cienciauat.v11i2.821

Keywords:

critical velocity, critical power, anaerobic threshold, runners.

Abstract

The growing interest in running as an exercise, and particularly as a sport of competition, demands the study of runner’s metabolic efficiency. The estimate of the critical velocity (CV) has been used in different studies to since it is a method of simple applicability to determine the anaerobic threshold of runners, taking into consideration the intensity of effort and the execution time. The objective of the present work was to identify and compare the efficiency of methods that are currently being used for the estimation of runner’s CV. A bibliographic review of scientific articles published during the period 2011 to 2016 was carried out. The analysis of the literature showed the estimation of CV is determined by different strategies such as: maximal and submaximal tests, continuous and intermittent, in athletics track, tradmill and asphalt; with different groups of runners. The determination of critical velocity enabled an efficient establishment of the anaerobic threshold of runners, regardless of the group of individuals analyzed in a simpler, less costly, and equally reliable as other more sophisticated methods of anaerobic threshold estimation that require laboratory tests.

Author Biography

Claudio Marcelo Hernández-Mosqueira, Universidad de los Lagos, Departamento Ciencias de la Actividad Física, Campus Chinquihue, km 6, Puerto Montt, Chile.

Director carrrera Pedagogia en Educación Física

Universidad Pedro de Valdivia, sede Chillán

References

Abadia, S., Medina, F. X., Sánchez, R., Bantulà, J., Fornons, D., Bastida, N., . . . y Pujadas, X. (2014). Entre el boom atlético y la cooperación social: Las carreras solidarias y el ejemplo de la Trailwalker España 2013. Península. 9(1): 105-124.

Araujo-Contreras, J. M., Rivas-Avila, E., Avila-Rodríguez, A., Avila-Rodríguez, E. H., Vargas-Chávez, N., Reyes-Romero, M. A. y Camacho-Luis, A. (2015). Relación entre hipertensión arterial y obesidad central en madres de familia. CienciaUAT. 9(2): 53-58.

Ari, E., Cihan, H., Deliceoglu, G., Sozen, H., and Can, I. (2013). The Evaluation of Athletic organizations of International Association of Athletic Federations and Olympic Games according to Critical Velocity Concept. International Journal of Academic Research. 5(4): 134-138.

Barker, A. R., Bond, B., Toman, C., Williams, C. A., and Armstrong, N. (2012). Critical power in adolescents: physiological bases and assessment using all-out exercise. European journal of applied physiology. 112(4): 1359-1370.

Bassett, D. and Howley, E. T. (2000). Limiting factors for maximum oxygen uptake and determinants of endurance performance. Medicine and science in sports and exercise. 32(1): 70-84.

Bertuzzi, R., Nascimento, E. M. F., Urso, R. P., Damasceno, M., and Lima-Silva, A. E. (2013). Energy system contributions during incremental exercise Test. Journal of Sports Science and Medicine. 12(3): 454-460.

Bezares-Sarmiento, V. R., Márquez-Rosa, S., Molinero-González, O., Jiménez-Cruz, A. y Bacardi-Gascón, M. (2014). Estilos de vida de las mujeres de Ocuilapa de Juárez, Ocozocoautla, Chiapas. CienciaUAT. 8(2): 54-61.

Browne, R. A. V., Sales, M. M., Sotero, R. D. C., Asano, R. Y., Moraes, J. F. V. N. d., Barros, J. D. F., . . ., and Simões, H. G. (2015). Critical velocity estimates lactate minimum velocity in youth runners. Motriz: Revista de Educação Física. 21(1): 1-7.

Camic, C. L., Housh, T. J., Johnson, G. O., Hendrix, C. R., Zuniga, J. M., Mielke, M., and Schmidt, R. J. (2010). An EMG frequency-based test for estimating the neuromuscular fatigue threshold during cycle ergometry. European journal of applied physiology. 108(2): 337-345.

Candia-Luján, R. y de Paz-Fernández, J. A. (2014). ¿Son efectivos los antiinflamatorios no esteroides en el tratamiento del dolor muscular tardío?. CienciaUAT. 9(1): 76-83.

Cardoso-Teixeira, A., Motta-Hernandez, T., Saliba, E. F., Almeida-Santos, P. A., Ferreira-Rodrigues, G., Morais, . . ., and Fernandes-Da-Silva, S. (2009). Correlação Entre Três Distâncias Para Identificar a Velocidade Crítica em Teste de Campo. Brazilian Journal of Biomotricity. 3(1): 56-64.

Caritá, R. A. C., Pessôa Filho, D., and Greco, C. (2013). Cinética do VO2 durante o exercício realizado na potência crítica em ciclistas e indivíduos nãotreinados no ciclismo. Rev Motriz. 19(2): 412-422.

Cauas, R. (2008). El boom del running en Chile, desde una perspectiva psicológica. EFDeportes.com. Revista Digital: Educación física y deportes. 13(121).

Chassain, A. P. (1986). Méthode d’appréciation objective de la tolérance de l’organisme à l’effort: application à la mesure des puissances critiques de la fréquence cardiaque et de la lactatémie. Science & Sports. 1(1): 41-48.

de-Barros, C. L. M., Mendes, T. T., Pacheco, D. A. S., and Garcia, E. S. (2013). Efeitos do calor no OBLA: comparação entre ambiente quente e temperado. Motriz: Revista de Educação Física. 19(2): 441-449.

de-Lucas, R. D., Dittrich, N., Junior, R. B., de- Souza, K. M., and Guglielmo, L. G. A. (2012). Is the critical running speed related to the intermittent maximal lactate steady state?. Journal of Sports Science & Medicine. 11(1): 89-94.

Dekerle, J., Brickley, G., Alberty, M., and Pelayo, P. (2010). Characterising the slope of the distance–time relationship in swimming. Journal of Science and Medicine in Sport. 13(3): 365-370.

Denadai, B. S., Ortiz, M. J., and Mello, M. d. (2004). Índices fisiológicos associados com a performance aeróbia em corredores de endurance: efeitos da duração da prova. Rev Bras Med Esporte. 10(5): 401-404.

Faude, O., Kindermann, W., and Meyer, T. (2009). Lactate threshold concepts. Sports medicine. 39(6): 469-490.

Ferreira, C., De-Olivaira, V. M., Cavazzotto, T. G., Queiroga, M. R., Tartaruga, L. A. P., and Tartaruga, M. (2015). Comparação entre velocidade no limiar anaeróbico y velocidade crítica em corredores meio-fundistas. Acta Brasileira do Movimento Humano-bmh. 4(5): 17-31.

Florence, S. l. and Weir, J. P. (1997). Relationship of critical velocity to marathon running performance. European journal of applied physiology and occupational physiology. 75(3): 274-278.

Fraga, C. H. W., Bianco, R., Serrão, J. C., Greco, C. C., Amadio, A. C., and Gonçalves, M. (2014). Comparação de protocolos de corrida para determinação de diferentes limiares. Revista Brasileira de Medicina do Esporte. 20(2): 92-96.

Fukuda, D. H., Smith, A. E., Kendall, K. L., Cramer, J. T., and Stout, J. R. (2012). An alternative approach to the army physical fitness test two-mile run using critical velocity and isoperformance curves. Military medicine. 177(2): 145-151.

Guglielmo, L. G. A., Junior, R. J. B., Arins, F. B., and Dittrich, N. (2012). Índices fisiológicos associados com a performance aeróbia de corredores nas distâncias de 1. 5 km, 3 km e 5 km. Motriz rev. educ. fís. (Impr.). 18(4): 690-698.

Hill, D. (1993). The critical power concept. Sports medicine. 16(4): 237-254.

Hill, D. (2001). Aerobic and anaerobic contributions in middle distance running events. Motriz. 7(1): S63-S67.

Hoffman, M. W., Stout, J. R., Hoffman, J. R., Landua, G., Fukuda, D. H., Sharvit, N., . . ., and Ostfeld, I. (2015). Critical velocity is associated with combat Specific performance measures in a Special Forces Unit. Journal of Strength & Conditioning Research. 30(2): 446-453.

Kang, S., Kim, J., Kwon, M., and Eom, H. (2014). Objectivity and validity of EMG method in estimating anaerobic threshold. International journal of sports medicine. 35(9): 737-42.

Kranenburg, K. J. and Smith, D. J. (1996). Comparison of critical speed determined from track running and treadmill tests in elite runners. Medicine and science in sports and exercise. 28(5): 614-618.

Maratón de Santiago (2016). 28 000 corredores dieron vida al Entel Maratón de Santiago 2016, en maratondesantiago.com. [En línea]. Disponible en: http://www.maratondesantiago.com/28-000-corredores-dieron-vida-al-entel-maraton-de-santiago-2016/. Fecha de consulta: 21 de septiembre de 2016.

Messias, L. H., Ferrari, H. G., Reis, I. G., Scariot, P. P., and Manchado-Gobatto, F. B. (2015). Critical velocity and anaerobic paddling capacity determined by different mathematical models and number of predictive trials in canoe slalom. Journal of Sports Science and Medicine 14(1): 188-193.

Messonnier, L. A., Emhoff, C. A. W., Fattor, J. A., Horning, M. A., Carlson, T. J., and Brooks, G. A. (2013). Lactate kinetics at the lactate threshold in trained and untrained men. Journal of Applied Physiology. 114(11): 1593-1602.

Monod, H. and Scherrer, J. (1965). The work capacity of a synergic muscular group. Ergonomics. 8(3): 329-338.

Penteado, R., Salvador, A., Corvino, R., Cruz, R., Lisbôa, F., Caputo, F., and de-Lucas, R. (2014). Physiological responses at critical running speed during continuous and intermittent exhaustion tests. Science & Sports. 29(6): e99-e105.

Pettitt, R., Jamnick, N., and Clark, I. (2012). 3-min all-out exercise test for running. Int J Sports Med. 33(6): 426-431.

Pringle, J. S. and Jones, A. M. (2002). Maximal lactate steady state, critical power and EMG during cycling. European journal of applied physiology. 88(3): 214-226.

Rojo, J. R. (2014). Corridas de rua, sua história e transformações, in VII Congresso Sulbrasileiro de Ciências do Esporte. [En línea]. Disponible en: http://congressos.cbce.org.br/index.php/7csbce/2014/paper/view/5905. Fecha de consulta: 28 de enero de 2016.

Rossi, F., Kalva-Filho, C., de-Araújo, R. G., Neto, J. G., Campos, E., Pastre, C., and Junior, I. F. (2015). Critical velocity determined by a non-exhaustive method in menopausal women. Science & Sports. 30(1): e17-e22.

Santos, T. M., Rodrigues, A. I., Greco, C. C., Marques, A. L., Terra, B. S., and Oliveira, B. R. R. (2012). VO2máx estimado e sua velocidade correspondente predizemo desempenho de corredores amadores. Revista Brasileira de Cineantropometria & Desempenho Humano. 14(2): 192-201.

Simões, H., Denadai, B. S., Baldissera, V., Campbell, C., and Hill, D. (2005). Relationships and significance of lactate minimum, critical velocity, heart rate deflection and 3 000 m track-tests for running. Journal of Sports Medicine and Physical Fitness. 45(4): 441-451.

Svedahl, K. and MacIntosh, B. R. (2003). Anaerobic threshold: the concept and methods of measurement. Canadian Journal of Applied Physiology. 28(2): 299-323.

Published

2017-01-30

How to Cite

Pereira-Guimaraes, M., Hernández-Mosqueira, C. M., Fernandes-Filho, J., & Fernandes-da-Silva, S. (2017). Methods for determining critical speed corridors. CienciaUAT, 11(2), 46–53. https://doi.org/10.29059/cienciauat.v11i2.821

Issue

Section

Medicine and Health Sciences

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