Introduction: Knowing which physiological variables predict running performance could help coaches to optimize training prescription to improve running performance. Objective: The present study investigated which physiological respiratory responses could predict 3000-m running performance. Methods: Seventeen amateur runners (29.82±7.1years; 173.12±9.0cm; 64.59±9.3kg) performed a maximal graded running test on a treadmill. The ventilatory threshold (VT), respiratory compensation point (RCP), and maximal oxygen consumption (VO2max) were assessed, as well as the respective velocities (vVT, vRCP, vVO2max). After 72 to 96 hours the runners performed the 3000-m running field test. The relationships between variables were performed using Pearson product momentum correlations. Thereafter, simple and multiple regression models were applied. The significance level adopted was 5% (p<0.05). Results: The majority of physiological responses were positive and well related to each other (r≥0.70; p<0.05). Despite vVT, vRCP, and vVO2max demonstrating a higher and inverse relationship with 3000-m time (r=-0.92; r =-0.96; r =-0.89; p<0.05), the multiple regression model indicated that vRCP and vVO2max are the best variables to predict 3000-m performance in experienced amateur road runners (R2=0.94). The equation proposed by the model was: 3000-m(s)=1399.21–[31.65*vRCP(km.h-1)]–[12.06*vVO2max (km.h-1)]. Conclusion: The vRCP and vVO2max may be used to predict 3000-m performance using only a maximal running test on a treadmill. In practical terms, coaches and physical conditioners can use performance in the 3000-m to select different exercise running intensities to prescribe exercise training intensities.

Running, Athletes, Exercise, Athletic Performance

Amann, M., Venturelli, M., Ives, S. J., McDaniel, J., Layec, G., Rossman, M. J., & Richardson, R. S. (2013). Peripheral fatigue limits endurance exercise via a sensory feedback-mediated reduction in spinal motoneuronal output. Journal of Applied Physiology, 115(3), 355–364. https://doi.org/10.1152/japplphysiol.00049.2013

Arrese, A. L., Izquierdo, D. M., & Serveto Galindo, J. (2006). Physiological measures associated with marathon running performance in high-level male and female homogeneous groups. International Journal of Sports Medicine, 27(4), 289–95.

Atletismo, F. P. de. (2016). Estatística 2016. Retrieved January 1, 2017, from http://www.atletismofpa.org.br/estatistica-2016.html,67

Beaver, W. L., Wasserman, K., & Whipp, B. J. (1986). A new method for detecting anaerobic threshold by gas exchange. Journal of Applied Physiology, 60(6), 2020–7.

Bellar, D., & Judge, L. (2012). Modeling and relationship of respiratory exchange ratio to athletic performance. Journal of Strength & Conditioning and Research, 26(9), 2484–9.

Bentley, D. J., Newell, J., & Bishop, D. (2007). Incremental exercise test design and analysis: implications for performance diagnostics in endurance athletes. Sports Medicine, 37(7), 575–86.

Bhambhani, Y., Malik, R., & Mookerjee, S. (2007). Cerebral oxygenation declines at exercise intensities above the respiratory compensation threshold. Respiratory Physiology and Neurobiology, 156(2), 196–202. https://doi.org/10.1016/j.resp.2006.08.009

Billat, V., Binsse, V., Petit, B., & Koralsztein, J. (1998). High level runners are able to maintain a VO2 steady-state below VO2peak in an all-out run over their critical velocity. Archieves of Physiology and Biochemistry, 38–45(106), 1.

Billat, V., Renoux, J. C., Pinoteau, J., Petit, B., & Koralsztein, J. P. (1994). Reproducibility of running time to exhaustion at VO2peak in subelite runners. Medicine and Science in Sports and Exercise, 26(2), 254–257.

Bragada, J., Santos, P. J., Maia, J. A., Colaço, P. J., Lopes, V. P., & Barbosa, T. M. (2010). Longitudinal study in 3,000m male runners: relationship between performance and selected physiological parameters. Journal of Sports Science and Medicine, 9, 439–444.

Bunc, V., Heller, J., Leso, J., Šprynarová, Š., & Zdanowicz, R. (1987). Ventilatory threshold in various groups of highly trained athletes. International Journal of Sports Medicine1, 8(4), 275–280.

Duffield, R., Bishop, D., & Dawson, B. (2006). Comparison of the VO2 response to 800-m, 1500-m and 3000-m track running events. Journal of Sports Medicine and Physical Fitness, 46(3), 353–60.

Esfarjani, F., & Laursen, P. B. (2007). Manipulating high-intensity interval training: Effects on, the lactate threshold and 3000-m running performance in moderately trained males. Journal of Science and Medicine in Sport, 10(1), 27–35.

Esteve-Lanao, J., Foster, C., Seiler, S., & Lucia, A. (2007). Impact of training intensity distribution on performance in endurance athletes. The Journal of Strength & Conditioning Research, 21(3), 943–949.

Esteve-Lanao, J., Juan, A. F. S., Earnest, C. P., Foster, C., & Lucia, A. (2005). How do endurance runners actually train? Relationship with competition performance. Medicine & Science in Sports & Exercise, 496–504(37), 3.

Faude, O., Kindermann, W., & Meyer, T. (2009). Lactate threshold concepts: how valid are they? Sports Medicine, 39(6), 469–90.

Hopkins, W., Marshall, S., Batterham, A., & Hanin, J. (2009). Progressive statistics for studies in sports medicine and exercise science. Medicine & Science in Sports & Exercise, 41(1), 3–13.

Hryvniak, D., Dicharry, J., & Wilder, R. (2014). Barefoot running survey: Evidence from the field. Journal of Sport and Health Science, 3(2), 131–136.

IAAF. (2017). Calendar 2017. Retrieved January 1, 2017, from https://www.iaaf.org/competition/calendar

Jones, A. M. (1998). A five year physiological case study of an Olympic runner. British Journal of Sports Medicine, 32(1), 39–43.

Juel, C. (2008). Regulation of pH in human skeletal muscle: Adaptations to physical activity. Acta Physiologica, 193(1), 17–24. https://doi.org/10.1111/j.1748-1716.2008.01840.x

Lima-Silva, A. E., Bertuzzi, R. C. M., Pires, F. O., Barros, R. V., Gagliardi, J. F., Hammond, J., … Bishop, D. J. (2010). Effect of performance level on pacing strategy during a 10-km running race. European Journal of Applied Physiology, 108(5), 1045–1053. https://doi.org/10.1007/s00421-009-1300-6

Lourenço, T. F., Martins, L. E., Tesutti, L. S., Brenzikofer, R., & Macedo, D. V. De. (2011). Reproducibility of an incremental treadmill VO(2)max test with gas exchange analysis for runners. Journal of Strength and Conditioning Research, 25(7), 1994–9.

Maron, B., Douglas, P., Graham, T., Nishimura, R., & Thompson, P. (2005). Task Force 1: preparticipation screening and diagnosis of cardiovascular disease in athletes. J Am Coll Cardiol, 45, 1322–1326.

McLaughlin, J. E., Howley, E. T., Bassett, D. R., Thompson, D. L., & Fitzhugh, E. C. (2010). Test of the classic model for predicting endurance running performance. Medicine & Science in Sports & Exercise, 42(5), 991–7.

Muñoz, I., Seiler, S., Bautista, J., España, J., Larumbe, E., & Esteve-Lanao, J. (2014). Does polarized training improve performance in recreational runners? International Journal of Sports Physiology and Performance, 9(2), 265–272.

Murphy, N., Lane, A., & Bauman, A. (2015). Leveraging mass participation events for sustainable health legacy. Leisure Studies, 34(6), 758–766.

Noakes, T. D., Myburgh, K. H., & Schall, R. (1990). Peak treadmill running velocity during the VO2 max test predicts running performance. Journal of Sports Sciences, 8(1), 35–45.

Poole, D. C., Wilkerson, D. P., & Jones, A. M. (2008). Validity of criteria for establishing maximal O2 uptake during ramp exercise tests. European Journal of Applied Physiology, 102(4), 403–10.

Robergs, R. A., Dwyer, D., & Astorino, T. (2010). Recommendations for improved data processing from expired gas analysis indirect calorimetry. Sports Medicine, 40(2), 95–111.

S, G., Craig, I., Wilson, J., & Aitchison, T. (1997). The relationship between 3 km running performance and selected physiological variables. Journal of Sports Sciences, 15(4), 403–410.

Starkoff, B. E., Eneli, I. U., Bonny, A. E., Hoffman, R. P., & Devor, S. T. (2014). Estimated Aerobic Capacity Changes in Adolescents with Obesity Following High Intensity Interval Exercise. International Journal of Kinesiology & Sports Science, 2(3), 1–8.

Stevens, C. J., & Dascombe, B. J. (2015). The Reliability and Validity of Protocols for the Assessment of Endurance Sports Performance: An Updated Review. Measurement in Physical Education and Exercise Science, 19(4), 177–185.

Wasserman, K., Beaver, W. L., Sun, X. G., & Stringer, W. W. (2011). Arterial H+ regulation during exercise in humans. Respiratory Physiology and Neurobiology, 178(2), 191–195. https://doi.org/10.1016/j.resp.2011.05.018

Yoshida, T., Udo, M., Iwai, K., & Yamaguchi, T. (1993). Physiological characteristics related to endurance running performance in female distance runners. Journal of Sports Sciences, 11(1), 57–62.