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Intervention study into the effect of feeding around exercise on fat oxidation in males

Published online by Cambridge University Press:  22 January 2016

L. Turner ,
J. Over ,
S. Ford  and
A. Collins
L. Turner
Affiliation:
Department of Nutritional Sciences, Faculty of Health and Medical Sciences, University of Surrey, Guildford, Surrey, GU2 7TE
J. Over
Affiliation:
Department of Nutritional Sciences, Faculty of Health and Medical Sciences, University of Surrey, Guildford, Surrey, GU2 7TE
S. Ford
Affiliation:
Department of Nutritional Sciences, Faculty of Health and Medical Sciences, University of Surrey, Guildford, Surrey, GU2 7TE
A. Collins
Affiliation:
Department of Nutritional Sciences, Faculty of Health and Medical Sciences, University of Surrey, Guildford, Surrey, GU2 7TE
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Abstract

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Proceedings of the Nutrition Society , Volume 75 , Issue OCE1: Winter Meeting, 8–9 December 2015, Roles of sleep and circadian rhythms in the origin and nutritional management of obesity and metabolic disease , 2016 , E31
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Copyright © The Authors 2016 

Although much advice is given with regards to the timing of feeding around exercise for the purpose of improving performance( Reference Burke, Castell and Stear 1 ), few studies have compared the effect of carbohydrate (CHO) consumption before or after exercise on changes in metabolic fitness. Studies have suggested that males training with low carbohydrate can experience a higher contraction-induced response to exercise( Reference Hawley, Burke and Phillips 2 ). Acute findings have suggested that males may be able to improve their fat oxidation (FOx) rate by exercising in the post-absorptive state( Reference Honnor, Herdsman and Collins 3 ) however, the chronic effect of this has yet to be investigated. Therefore the aim of this study was to determine the effect of repeatedly exercising or recovering in the post absorptive state on resting, exercise and post-exercise FOx levels. Ten healthy untrained male students aged 18–24yrs were recruited from the University of Surrey and randomly assigned and blinded to either training with CHO ingestion before (CHOPre; n = 5) or after (CHOPost; n = 5) each of six structured high intensity interval training sessions scheduled over two weeks. At baseline and three to four days after the last training session measurements of FOx were assessed in the fasted-rest, post-prandial exercise and the three hour post-exercise period by indirect calorimetry (breath-by-breath during exercise and ventilated hood during rest and recovery). Wilcoxon matched pairs tests, repeated measures two-way ANOVA tests and multiple t-tests were used to identify any significant differences from baseline to post-intervention in each of the intervention arms. This study protocol received a favourable ethical opinion from the University of Surrey (Ethics number EC/2011/41).

No significant differences in fasted basal FOx were seen as a result of training in either group (P > 0·05; data not shown). Similarly, FOx during moderate intensity exercise did not change significantly or show a trend following training in either group (P > 0·05; data not shown). However, during the three hour post-exercise period, FOx significantly decreased following training in the CHOPre group (Fig.1; P = 0·02), with no significant change in the CHOPost group (Fig.2; P = 0·56).

Fig. 1. 3 hour Post-exercise FOx in CHOPre Group.

Fig. 2. 3 hour post-exercise FOx in CHOPost Group.

Overall the results allude to the fact that exercising in the fasted state and consuming CHO in the post-exercise period has little effect on FOx levels. In contrast, ingesting CHO prior to exercise may blunt or even counteract the effects of high intensity interval training to such an extent that FOx decreases as a result of training.

This study supports the notion that, for untrained males, consuming CHO after exercise is likely to be less detrimental to FOx levels than consumption prior to exercise. When advising exercising individuals who are aiming to improve metabolic health, these findings could have a potential public health implication.

References

1. Burke, LM, Castell, LM, Stear, SJ et al. (2010) BJSM 44(5), 389391.Google Scholar
2. Hawley, JA, Burke, LM, Phillips, SM et al. (2011) J Appl Physiol. 110(3), 834845.CrossRefGoogle Scholar
3. Honnor, M, Herdsman, M, Collins, AL. (2012) Proc Nutr Soc. 71(OCE3), E326.Google Scholar
Figure 0

Fig. 1. 3 hour Post-exercise FOx in CHOPre Group.

Figure 1

Fig. 2. 3 hour post-exercise FOx in CHOPost Group.