Soccer half-time strategy influences thermoregulation and endurance performance

Lovell, R. J.; Kirke, I.; Siegler, J.; McNaughton, L. R.; Greig, M. P.

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Journal Article

Soccer half-time strategy influences thermoregulation and endurance performance
Citation	Lovell RJ, Kirke I, Siegler J, McNaughton LR, Greig MP. J. Sports Med. Phys. Fitness 2007; 47(3): 263-269.
Affiliation	Department of Sport, Health and Exercise Science, University of Hull, Hull, UK. r.j.lovell@hull.ac.uk
Copyright	(Copyright © 2007, Edizioni Minerva Medica)
DOI	unavailable
PMID	17641591
Abstract	AIM: In the first 15 min of the second half in professional soccer, there is a reduction of high intensity distance covered and a high incidence of injuries sustained, possibly due to a reduction in body temperature during the half-time (HT). The aim of this study was to investigate the effect of active and passive re-warm-up strategies on cardiovascular (heart rate, HR) and thermoregulatory stress, and second-half soccer-specific endurance performance (SSEP). METHODS: Seven professional players performed two intermittent field tests of 16.5 min duration, with a 15 min HT. On separate, randomised occasions, 4 trials were completed during which different HT strategies were undertaken between minutes 7 and 14 of the HT interval. Two passive trials were completed: rest control trial (CON), or players were immersed to the gluteal fold in a hot bath (approximately 40 degrees C-passive heating, PH); in the active trials, players performed at 70% maximum HR, either steady-state non-specific active heating (cycling, NSAH) or intermittent soccer-specific active heating (sprinting repeatedly, SSAH). HR and core temperature (Tc) were measured every 5 min, and body weight was recorded pre and post each trial. RESULTS: Active re-warm-up strategies maintained SSEP in the second period with respect to CON (P<0.01), whereas PH did not reduce the decrement in performance (P>0.05). Active heating strategies increased HR during HT in comparison to CON, whereas PH did not. During the HT period in the CON trial, T(c) decreased by 0.97+/-0.29 degrees C, PH and SSAH trials did not attenuate this decrease (P>0.01), whereas NSAH increased T(c) in respect to CON (P<0.01). These differences in HR and T(c) between re-warm-up strategies during HT were not apparent at the end of the trials. CONCLUSION: Active re-warm-up strategies during HT attenuated the decrement in second-half SSEP that was observed during passive trials. Language: en