Summary
The purpose of this study was to determine the effect of ingesting fluids of varying carbohydrate content upon sensory response, physiologic function, and exercise performance during 1.25 h of intermittent cycling in a warm environment (T db=33.4°C). Twelve subjects (7 male, 5 female) completed four separate exercise sessions; each session consisted of three 20 min bouts of cycling at 65%\(\dot V_{O_{2\max } } \), with each bout followed by 5 min rest. A timed cycling task (1200 pedal revolutions) completed each exercise session. Immediately prior to the first 20 min cycling bout and during each rest period, subjects consumed 2.5 ml·kg BW−1 of water placebo (WP), or solutions of 6%, 8%, or 10% sucrose with electrolytes (20 mmol·l−1 Na+, 3.2 mmol·l−1 K+). Beverages were administered in double blind, counterbalanced order. Mean (±SE) times for the 1200 cycling task differed significantly: WP=13.62±0.33 min, *6%=13.03±0.24 min, 8%=13.30±0.25 min, 10%=13.57±0.22 min (*=different from WP and 10%,P<0.05). Compared to WP, ingestion of the CHO beverages resulted in higher plasma glucose and insulin concentrations, and higher RER values during the final 20 min of exercise (P<0.05). Markers of physiologic function and sensory perception changed similarly throughout exercise; no differences were observed among subjects in response to beverage treatments for changes in plasma concentrations of lactate, sodium, potassium, for changes in plasma volume, plasma osmolality, rectal temperature, heart rate, oxygen uptake, rating of perceived exertion, or for indices of gastrointestinal distress, perceived thirst, and overall beverage acceptance. Compared to ingestion of a water placebo, consumption of beverages containing 6% to 10% sucrose resulted in similar physiologic and sensory response, while ingestion of the 6% sucrose beverage resulted in significantly improved end-exercise performance following only 60 min of intermittent cycling exercise.
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References
American College of Sports Medicine (1985) The prevention of thermal injuries during distance running. American College of Sports Medicine, Position Stands and Opinion Statements (1975–1985). ACSM, Indianapolis, USA
American Dietetic Association (1987) Position of the American Dietetic Association: Nutrition for physical fitness and athletic performance for adults. J Am Diet Assoc 87:933–939
American Society for Testing and Materials (1968) Manual on Sensory Testing Methods. American Society for Testing and Materials. Philadelphia, PA, USA
Bjorkman O, Sahlin K, Hagenfeldt L, Wahren J (1984) Influence of glucose and fructose ingestion on the capacity for long-term exercise in well-trained men. Clin Physiol 4:483–494
Boulze D, Monstruc P, Cabanao M (1983) Water intake, pleasure and water temperature in humans. Physiol Behav 30:97–102
Candas V, Lipert JP, Brandenberger G, Sagot JC, Amoros C, Kahn JM (1986) Hydration during exercise: effects on thermal and cardiovascular adjustments. Eur J Appl Physiol 55:113–122
Coggan AR, Coyle EF (1987) Reversal of fatigue during prolonged exercise by carbohydrate infusion or ingestion. J Appl Physiol 63:2388–2395
Costill DL (1985) Carbohydrate nutrition before, during, and after exercise. Fed Proc 44:364–368
Costill DL (1988) Carbohydrates for exercise: dietary demands for optimal performance. Int J Sports Med 9:1–18
Costill DL, Saltin S (1974) Factors limiting gastric emptying during rest and exercise. J Appl Physiol 37:679–683
Costill DL, Kammer WF, Fisher A (1970) Fluid ingestion during distance running. Arch Environ Health 21:520–525
Coyle EF, Coggan AR (1984) Effectiveness of carbohydrate feeding in delaying fatigue during prolonged exercise. Sports Med 1:446–458
Coyle EF, Coggan AR, Hemmert MK, Ivy JL (1986) Muscle glycogen utilization during prolonged strenuous exercise when fed carbohydrates. J Appl Physiol 61:165–172
Coyle EF, Hagberg JM, Hurley BF, Martin WH, Ehsani AA, Holloszy JO (1983) Carbohydrate feeding during prolonged strenuous exercise can delay fatigue. J Appl Physiol 55:230–235
Davis JM, Lamb DR, Burgess WA, Bartoli WP (1987) Accumulation of deuterium oxide in body fluids after ingestion of D2O-labelled beverages. J Appl Physiol 63:2060–2066
Davis JM, Burgess WA, Slentz CA, Bartoli WP, Pate RR (1988) Effects of ingesting 6% and 12% glucose-electrolyte beverages during prolonged intermittent cycling exercise in the heat. Eur J Appl Physiol 57:563–569
Dill DB, Costill DL (1974) Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. J Appl Physiol 37:247–248
Evans WJ, Hughes VA (1985) Dietary carbohydrates and endurance exercise. Am J Clin Nutr 41:1149–1154
Fielding RA, Costill DL, Fink WJ, King DS, Hargreaves M, Kovaleski JE (1985) Effect of carbohydrate feeding frequencies and dosage on muscle glycogen use during exercise. Med Sci Sports Exerc 17:472–475
Foster C, Costill DL, Fink WJ (1980) Gastric emptying characteristics of glucose and glucose polymers. Res Quart Exerc Sport 51:299–305
Gleser MA, Vogel JA (1971) Endurance exercise: effect of work-rate schedules and repeated testing. J Appl Physiol 31:735–739
Hargreaves M, Costill DL, Coggan AR, Fink WJ, Nishibata I (1984) Effect of carbohydrate feedings on muscle glycogen utilization and exercise performance. Med Sci Sports Exerc 16:219–222
Hubbard RW, Sandick BL, Matthew WT, Francesconi RP, Sampson JB, Durkot MJ, Maller O, Engell DB (1984) Voluntary dehydration and alliesthesia for water. J Appl Physiol 57:868–875
Ivy JL, Costill DL, Fink WJ, Lower RW (1979) Influence of caffeine and carbohydrate feedings on endurance performance. Med Sci Sports Exerc 11:6–11
Ivy JL, Miller W, Dover V, Sherman WM, Farrell S, Williams H (1983) Endurance improved by ingestion of a glucose polymer supplement. Med Sci Sports Exerc 15:466–471
Lamb DR, Brodowicz GR (1986) Optimal use of fluids of varying formulation to minimize exercise-induced disturbances in homeostasis. Sports Med 3:247–274
Mitchell JB, Costill DL, Houmard JA, Flynn MG, Fink WJ, Beltz JD (1988) Effects of carbohydrate ingestion on gastric emptying and exercise performance. Med Sci Sports Exerc 20:110–115
Murray R (1987) The effects of consuming carbohydrate-electrolyte beverages on gastric emptying and fluid absorption during and following exercise. Sports Med 4:322–351
Murray R, Eddy DE, Murray TW, Seifert JG, Paul GL, Halaby GA (1987) The effect of fluid and carbohydrate feedings during intermittent cycling exercise. Med Sci Sports Exerc 19:597–604
Neufer PD, Costill DL, Flynn MG, Kirwan JP, Mitchell JB, Houmard J (1987) Improvements in exercise performance: effects of carbohydrate feedings and diet. J Appl Physiol 62:983–988
Owen MD, Kregel KC, Wall PT, Gisolfi CV (1986) Effects of carbohydrate ingestion on thermoregulation, gastric emptying and plasma volume during exercise in the heat. Med Sci Sports Exerc 18:568–575
Peryam DR, Pilgrim FJ (1957) Hedonic scales of measuring food preferences. Food Technol 9:11
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Murray, R., Seifert, J.G., Eddy, D.E. et al. Carbohydrate feeding and exercise: effect of beverage carbohydrate content. Europ. J. Appl. Physiol. 59, 152–158 (1989). https://doi.org/10.1007/BF02396594
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DOI: https://doi.org/10.1007/BF02396594