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(-)-Epicatechin Supplementation Inhibits Aerobic Adaptations to Cycling Exercise in Humans
Ist Teil von
Frontiers in nutrition (Lausanne), 2018-12, Vol.5, p.132-132
Ort / Verlag
Switzerland: Frontiers Media S.A
Erscheinungsjahr
2018
Quelle
EZB Electronic Journals Library
Beschreibungen/Notizen
The purpose of the study was to determine if cycling exercise combined with (-)-epicatechin supplementation was more effective at increasing training adaptations than cycling combined with a placebo. Blood and muscle samples were obtained at rest before and after training to determine the effects of (-)-epicatechin supplementation on total serum antioxidant capacity, skeletal muscle mitochondrial protein content, and skeletal muscle myostatin gene expression. Participants (
= 20) completed two testing sessions separated by 4 weeks of cycle training, with supplementation of 100 mg (200 mg total daily) of (-)-epicatechin or a placebo, twice daily. Data were analyzed using a two-way mixed model ANOVA for each variable and the alpha level was set at
≤ 0.05. A significant increase was observed for time for relative peak anaerobic power (
< 0.01), relative anaerobic capacity (
< 0.01), and fatigue index (
< 0.01). A significant increase was observed for time for absolute peak VO
(
< 0.01) and peak power output obtained during the peak VO
test (
< 0.01). A significant interaction between group and time for relative peak VO
was observed (
= 0.04). Relative peak VO
significantly increased over time in the placebo group (
< 0.01), but not in the (-)-epicatechin group (
= 0.21). A significant increase was observed for time for total serum antioxidant capacity (
= 0.01). No interaction or main effect of time was observed for myostatin (
> 0.05). Likewise, no interaction or main effect of time was observed for cytochrome C or citrate synthase (
> 0.05). A significant interaction effect was observed for succinate dehydrogenase (SDH;
= 0.02). SDH content increased significantly for the placebo group (
= 0.03, partial η
= 0.59), but not for the (-)-epicatechin group (
= 0.81). Further, whereas no difference existed between the groups for SDH at baseline (
= 0.23), SDH content was significantly greater in the placebo group at the post time point (
= 0.01). Results indicate that (-)-epicatechin supplementation does not affect myostatin gene expression or anaerobic training adaptations but inhibits aerobic and mitochondrial SDH adaptations to cycle exercise training.