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  • Title: Liver and muscle glycogen oxidation and performance with dose variation of glucose-fructose ingestion during prolonged (3 h) exercise.
    Author: King AJ, O'Hara JP, Arjomandkhah NC, Rowe J, Morrison DJ, Preston T, King RFGJ.
    Journal: Eur J Appl Physiol; 2019 May; 119(5):1157-1169. PubMed ID: 30840136.
    Abstract:
    PURPOSE: This study investigated the effect of small manipulations in carbohydrate (CHO) dose on exogenous and endogenous (liver and muscle) fuel selection during exercise. METHOD: Eleven trained males cycled in a double-blind randomised order on 4 occasions at 60% [Formula: see text] for 3 h, followed by a 30-min time-trial whilst ingesting either 80 g h-1 or 90 g h-1 or 100 g h-1 13C-glucose-13C-fructose [2:1] or placebo. CHO doses met, were marginally lower, or above previously reported intestinal saturation for glucose-fructose (90 g h-1). Indirect calorimetry and stable mass isotope [13C] techniques were utilised to determine fuel use. RESULT: Time-trial performance was 86.5 to 93%, 'likely, probable' improved with 90 g h-1 compared 80 and 100 g h-1. Exogenous CHO oxidation in the final hour was 9.8-10.0% higher with 100 g h-1 compared with 80 and 90 g h-1 (ES = 0.64-0.70, 95% CI 9.6, 1.4 to 17.7 and 8.2, 2.1 to 18.6). However, increasing CHO dose (100 g h-1) increased muscle glycogen use (101.6 ± 16.6 g, ES = 0.60, 16.1, 0.9 to 31.4) and its relative contribution to energy expenditure (5.6 ± 8.4%, ES = 0.72, 5.6, 1.5 to 9.8 g) compared with 90 g h-1. Absolute and relative muscle glycogen oxidation between 80 and 90 g h-1 were similar (ES = 0.23 and 0.38) though a small absolute (85.4 ± 29.3 g, 6.2, - 23.5 to 11.1) and relative (34.9 ± 9.1 g, - 3.5, - 9.6 to 2.6) reduction was seen in 90 g h-1 compared with 100 g h-1. Liver glycogen oxidation was not significantly different between conditions (ES < 0.42). Total fat oxidation during the 3-h ride was similar in CHO conditions (ES < 0.28) but suppressed compared with placebo (ES = 1.05-1.51). CONCLUSION: 'Overdosing' intestinal transport for glucose-fructose appears to increase muscle glycogen reliance and negatively impact subsequent TT performance.
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