The effects of carbohydrate supplementation on highintensity exercise performance
were examined in 5 moderately-trained subjects (age = 28.4 ± 1.5 yr; ht = 171.0 ±
4.3 cm; wt = 66.25 ± 6.32 kg). High-intensity exercise tests (initiated at the power
output (PO) associated with 90 % VO2 peak [mean = 201 ± 21 watts] × 60 min, with dropoff in PO allowed over time) were
completed under the following randomized double blind conditions: 1) pre-exercise
glucose polymer (G)/placebo during exercise (G/P), 2) G pre-exercise and during exercise
(G/G), and 3) placebo pre-exercise and during exercise (P/P). Subjects ingested 300
ml of a sweetened placebo or a similarly flavored 10 % G solution, immediately prior
to and every 15 min during exercise. No differences were observed in PO among the
3 treatments until min 40 - 60 where PO was greater with G. This resulted in significantly
greater total work (and less drop-off in PO) with G (G/P = 619 ± 234 kJ [14.5 % lower
than the value associated with 201 watts maintained for 60 min {724 kJ}], G/G = 599
± 235 kJ [17.3 % lower than the value associated with 201 watts maintained for 60
min]) compared with placebo (P/P = 560 ± 198 kJ [22.7 % drop-off in average PO]) (p
< 0.05). VO2 followed a similar pattern with no differences in VO2 over min 0 - 40 and significantly higher VO2 in G/P and a trend for higher VO2 in G/G during min 40 - 60 compared to placebo. Results of the present study indicate
that, compared to placebo, pre-exercise ingestion of G (30 g in 10 % solution) results
in less drop-off in PO during 1 hour of high-intensity exercise performance, and that
no further benefit is observed when the same amount of G is also ingested every 15
min during exercise.
Key words
Exercise - glucose polymer - ergogenic acids
