Carbohydrate ingestion does not influence the change in energy cost during a 2-h run in well-trained triathletes

6533b86dfe1ef96bd12caa8b

RESEARCH PRODUCT

Carbohydrate ingestion does not influence the change in energy cost during a 2-h run in well-trained triathletes

Jean-marc Vallier Maya Collardeau Romuald Lepers Christophe Hausswirth C. Goubault Jeanick Brisswalter Fabrice Vercruyssen

subject

Adult Time Factors Physiology Carbohydrates [SHS.SPORT.PS]Humanities and Social Sciences/Sport/Sport physiology Administration Oral Differential Threshold Energy cost of running 030204 cardiovascular system & hematology Placebo Triathlon [ SHS.SPORT ] Humanities and Social Sciences/Sport Running 03 medical and health sciences 0302 clinical medicine Animal science Oxygen Consumption Respiration Ingestion Humans Treadmill Respiratory exchange ratio ComputingMilieux_MISCELLANEOUS Fatigue [SHS.SPORT]Humanities and Social Sciences/Sport Physical Education and Training Chemistry Respiration Public Health Environmental and Occupational Health [ SHS.SPORT.PS ] Humanities and Social Sciences/Sport/Sport physiology VO2 max 030229 sport sciences Solutions Carbohydrate feeding Breathing Physical Endurance Ventilatory threshold Energy Metabolism Sports

description

The aim of this study was to examine whether the increase in the energy cost of running (C(r)), previously reported to occur at the end of a prolonged run, could be influenced by the ingestion of either an artificially sweetened placebo (Pl) or a 5.5% carbohydrate (CHO) solution. Ten well-trained triathletes completed three testing sessions within a 3-week period. The aim of the first session was to determine maximal oxygen uptake (VO(2)(max)) and the velocity associated with ventilatory threshold (nu(VT)). The second and the third sessions were composed of two submaximal treadmill runs (20 min long, 0% grade, performed at nu(VT)), before and after an 80-min overground run, also conducted at nu(VT). During these submaximal tests, the subjects ingested (in a random order) either a Pl or CHO solution prior to the first submaximal run and every 20 min after that. During the first session, ventilatory threshold (VT) occurred at [mean (SD)] 81.2 (2.5)% VO(2)(max) and 16.5 (0.6) km. h(-1). A significant effect of exercise duration was found on C(r) (DeltaC(r)) at the end of the run, whatever the solution ingested (DeltaC(r) = 5.7% and 7.01% for CHO and Pl, respectively). A reduction in the respiratory exchange ratio (from 0.98 to 0.90) was observed only at the end of the Pl trial. In this study, C(r) seems to be affected only to a minor extent by substrate turnover. Moreover, the increase in the demand for oxygen, estimated from the increase in ventilation, accounted for only a minor proportion of the increase in C(r) (11% and 17% for CHO and Pl, respectively). No correlation was found between the changes in C(r) and the changes in the other physiological parameters recorded. These results suggest, indirectly, that C(r) increases during a 2-h run at 80% VO(2)(max) in well-trained subjects can be explained mainly by alterations in neuromuscular performance, which lead to a decrease in muscle efficiency.

year	journal	country	edition	language
1999-11-07

https://hal-insep.archives-ouvertes.fr/hal-01781430/document