Central European Journal of Sport Sciences and Medicine

ISSN: 2300-9705     eISSN: 2353-2807    OAI    DOI: 10.18276/cej.2017.1-01
CC BY-SA   Open Access   DOAJ  DOAJ

Lista wydań / Vol. 17, No. 1/2017
The Effects of Warm-up Duration on Cycling Time Trial Performance in Trained Cyclists

Autorzy: Jennifer A. Bunn
Department of Physical Therapy, Campbell University, Buies Creek, NC, USA

L. Chris Eschbach
Valencell Inc. Raleigh, NC, USA

Meir Magal
Mathematics and Sciences Division, North Carolina Wesleyan College, Rocky Mount, NC, USA

Elizabeth K. Wells
Department of Physical Therapy, Campbell University, Buies Creek, NC, USA
Słowa kluczowe: Maximal oxygen consumption aerobic endurance training lactate oxygen kinetics
Rok wydania:2017
Liczba stron:9 (5-13)
Cited-by (Crossref) ?:


. The purpose of this study was to assess the effects of three different warm-up condi-tions on a 5K cycling time trial (TT). Sixteen trained cyclists completed the study. At the first testing session, participants completed a maximal graded exercise test to assess maximal oxygen consumption (VO2max) and a familiarization of the TT. At three subse-quent visits, the participants completed the TT after no warm up, short warm-up of three minutes at 60% VO2max, or long warm-up of ten minutes at 60% VO2max. The warm-up was assigned in randomized order. VO2, heart rate (HR), lactate, power, and speed were assessed after the warm-up, 1K, and completion of the 5K TT. There was no dif-ference between type of warm-up for time, power, cadence, speed, VO2, HR, or lactate levels at the end of the TT. There was no significant difference between type of warm-up for time, VO2 or HR at the end of the 1K split. Warm-up length was not impactful on 5K TT performance or during the first km of the TT in trained cyclists. These results con-flict with previous evidence indicating that a warm-up in endurance events primarily improved VO2 kinetics at the onset of the exercise.
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1.Andzel, W.D. (1978). The effects of moderate prior exercise and varied rest intervals upon cardiorespiratory endurance performance. J Sports Med Phys Fitness, 18 (3), 245–252.
2.Andzel, W.D. (1982). One mile run performance as a function of prior exercise. J Sports Med Phys Fitness, 22 (1), 80–84.
3.Andzel, W.D., Busuttil, C. (1982). Metabolic and physiological responses of college females to prior exercise, varied rest intervals and a strenuous endurance task. J Sports Med Phys Fitness, 22 (1), 113–119.
4.Andzel, W.D., Gutin, B. (1976). Prior exercise and endurance performance: a test of the mobilization hypothesis. Res Q, 47 (2), 269–276.
5.Bearden, S.E., Moffatt, R.J. (2001). VO2 and heart rate kinetics in cycling: transitions from an elevated baseline. J Appl Physiol (1985), 90 (6), 2081–2087.
6.Bergstrom, J., Hermansen, L., Hultman, E., Saltin, B. (1967). Diet, muscle glycogen and physical performance. Acta Physiol Scand, 71 (2), 140–150.
7.Bishop, D. (2003a). Warm up I: potential mechanisms and the effects of passive warm up on exercise performance. Sports Med, 33 (6), 439–454.
8.Bishop, D. (2003b). Warm up II: performance changes following active warm up and how to structure the warm up. Sports Med, 33 (7), 483–498.
9.Burnley, M., Jones, A.M., Carter, H., Doust, J.H. (2000). Effects of prior heavy exercise on phase II pulmonary oxygen uptake kinetics during heavy exercise. J Appl Physiol (1985), 89 (4), 1387–1396.
10.Carter, H., Grice, Y., Dekerle, J., Brickley, G., Hammond, A.J., Pringle, J.S. (2005). Effect of prior exercise above and below critical power on exercise to exhaustion. Med Sci Sports Exerc, 37 (5), 775–781.
11.Chwalbinska-Moneta, J., Hanninen, O. (1989). Effect of active warming-up on thermoregulatory, circulatory, and metabolic responses to incremental exercise in endurance-trained athletes. Int J Sports Med, 10 (1), 25–29.
12.Genovely, H., Stamford, B.A. (1982). Effects of prolonged warm-up exercise above and below anaerobic threshold on maximal performance. Eur J Appl Physiol Occup Physiol, 48 (3), 323–330.
13.Gerbino, A., Ward, S.A., Whipp, B.J. (1996). Effects of prior exercise on pulmonary gas-exchange kinetics during high-intensity exercise in humans. J Appl Physiol (1985), 80 (1), 99–107.
14.Gray, S., Nimmo, M. (2001). Effects of active, passive or no warm-up on metabolism and performance during high-intensity exercise. J Sports Sci, 19 (9), 693–700.
15.Gregson, W.A., Drust, B., Batterham, A., Cable, N.T. (2002). The effects of pre-warming on the metabolic and thermoregulatory responses to prolonged submaximal exercise in moderate ambient temperatures. Eur J Appl Physiol, 86 (6), 526–533.
16.Grodjinovsky, A., Magel, J.R. (1970). Effect of warm-up on running performance. Res Q, 41 (1), 116–119.
17.Hajoglou, A., Foster, C., De Koning, J.J., Lucia, A., Kernozek, T.W., Porcari, J.P. (2005). Effect of warm-up on cycle time trial performance. Med Sci Sports Exerc, 37 (9), 1608–1614.
18.Johnson, M.A., Gregson, I.R., Mills, D.E., Gonzalez, J.T., Sharpe, G.R. (2014). Inspiratory muscle warm-up does not improve cycling time-trial performance. Eur J Appl Physiol, 114 (9), 1821–1830.
19.Jones, A.M., Koppo, K., Burnley, M. (2003). Effects of prior exercise on metabolic and gas exchange responses to exercise. Sports Med, 33 (13), 949–971.
20.Kozlowski, S., Brzezinska, Z., Kruk, B., Kaciuba-Uscilko, H., Greenleaf, J.E., Nazar, K. (1985). Exercise hyperthermia as a factor limiting physical performance: temperature effect on muscle metabolism. J Appl Physiol (1985), 59 (3), 766–773.
21.Martin, B.J., Robinson, S., Wiegman, D.L., Aulick, L.H. (1975). Effect of warm-up on metabolic responses to strenuous exercise. Med Sci Sports, 7 (2), 146–149.
22.Mujika, I., de Txabarri, R.G., Maldonado-Martin, S., Pyne, D.B. (2012). Warm-up intensity and duration’s effect on traditional rowing time-trial performance. Int J Sports Physiol Perform, 7 (2), 186–188.
23.Ng, G., Cheng, C., Fung, M., Ngai, N., Wong, E., Yeung, A. (2007). Comparison of the time to perceived exertion in cycling with different warm-up procedures. Hong Kong Physiotherapy Journal, 25 (1), 10–13.
24.Tomaras, E.K., MacIntosh, B.R. (2011). Less is more: standard warm-up causes fatigue and less warm-up permits greater cycling power output. J Appl Physiol (1985), 111 (1), 228–235.
25.Wittekind, A.L., Beneke, R. (2009). Effect of warm-up on run time to exhaustion. J Sci Med Sport, 12 (4), 480–484.