Intramyocellular lipid stores increase markedly in athletes after 1.5 days lipid supplementation and are utilized during exercise in proportion to their content

Intramyocellular lipids (IMCL) and muscle glycogen provide local energy during exercise (EX). The objective of this study was to clarify the role of high versus low IMCL levels at equal initial muscle glycogen on fuel selection during EX. After 3 h of depleting exercise, 11 endurance-trained males c...

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Published in:European journal of applied physiology 2006-11, Vol.98 (4), p.341-354
Main Authors: Zehnder, Monica, Christ, Emanuel R, Ith, Michael, Acheson, Kevin J, Pouteau, Etienne, Kreis, Roland, Trepp, Roman, Diem, Peter, Boesch, Chris, DĂ©combaz, Jacques
Format: Article
Language:English
Subjects:
Adult
Anaerobic Threshold - physiology
Bicycling - physiology
Body Composition - physiology
Cross-Over Studies
Diet
Dietary Carbohydrates - metabolism
Dietary Fats - metabolism
Dietary Fats - pharmacology
Dietary Proteins - metabolism
Double-Blind Method
Energy Metabolism - physiology
Exercise - physiology
Glycogen - metabolism
Humans
Kinetics
Lipid Metabolism - physiology
Magnetic Resonance Spectroscopy
Male
Muscle Fibers, Skeletal - metabolism
Oxidation-Reduction
Oxygen - blood
Palmitates - blood
Physical Endurance - physiology
Physical Fitness - physiology
Pulmonary Gas Exchange - physiology
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Summary:Intramyocellular lipids (IMCL) and muscle glycogen provide local energy during exercise (EX). The objective of this study was to clarify the role of high versus low IMCL levels at equal initial muscle glycogen on fuel selection during EX. After 3 h of depleting exercise, 11 endurance-trained males consumed in a crossover design a high-carbohydrate (7 g kg(-1) day(-1)) low-fat (0.5 g kg(-1) day(-1)) diet (HC) for 2.5 days or the same diet with 3 g kg(-1) day(-1) more fat provided during the last 1.5 days of diet (four meals; HCF). Respiratory exchange, thigh muscle substrate breakdown by magnetic resonance spectroscopy, and plasma FFA oxidation ([1-(13)C]palmitate) were measured during EX (3 h, 50% W (max)). Pre-EX IMCL concentrations were 55% higher after HCF. IMCL utilization during EX in HCF was threefold greater compared with HC (P < 0.001) and was correlated with aerobic power and highly correlated (P < 0.001) with initial content. Glycogen values and decrements during EX were similar. Whole-body fat oxidation (Fat(ox)) was similar overall and plasma FFA oxidation smaller (P < 0.05) during the first EX hour after HCF. Myocellular fuels contributed 8% more to whole-body energy demands after HCF (P < 0.05) due to IMCL breakdown (27% Fat(ox)). After EX, when both IMCL and glycogen concentrations were again similar across trials, a simulated 20-km time-trial showed no difference in performance between diets. In conclusion, IMCL concentrations can be increased during a glycogen loading diet by consuming additional fat for the last 1.5 days. During subsequent exercise, IMCL decrease in proportion to their initial content, partly in exchange for peripheral fatty acids.
ISSN:1439-6319
1439-6327
DOI:10.1007/s00421-006-0279-5