Saris et al., 1993 - Google Patents
Exogenous carbohydrate oxidation from different carbohydrate sources during exerciseSaris et al., 1993
View PDF- Document ID
- 9457686615562754530
- Author
- Saris W
- Goodpaster B
- Jeukendrup A
- Brouns F
- Halliday D
- Wagenmakers A
- Publication year
- Publication venue
- Journal of Applied Physiology
External Links
Snippet
The exogenous carbohydrate (CHO) oxidation of naturally enriched [13C] CHO sources with different solubilities was studied during cycling exercise (150 min, 60% maximum work output). Moreover, the effect of adding a 13C tracer with different physical properties than the …
- 230000003647 oxidation 0 title abstract description 69
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL, OR TOILET PURPOSES
- A61K31/00—Medicinal preparations containing organic active ingredients
- A61K31/70—Carbohydrates; Sugars; Derivatives thereof
- A61K31/7004—Monosaccharide having only carbon, hydrogen and oxygen atoms
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Saris et al. | Exogenous carbohydrate oxidation from different carbohydrate sources during exercise | |
| US4312856A (en) | Beverage product | |
| Massicotte et al. | Oxidation of a glucose polymer during exercise: comparison with glucose and fructose | |
| Costill et al. | Glucose ingestion at rest and during prolonged exercise. | |
| Jeukendrup et al. | Metabolic availability of medium-chain triglycerides coingested with carbohydrates during prolonged exercise | |
| Truswell et al. | Incomplete absorption of pure fructose in healthy subjects and the facilitating effect of glucose | |
| US6296892B1 (en) | Beverages for enhanced physical performance | |
| COGGAN et al. | Metabolism and performance following carbohydrate ingestion late in exercise | |
| Jeukendrup et al. | Effects of carbohydrate (CHO) and fat supplementation on CHO metabolism during prolonged exercise | |
| Weston et al. | Does exogenous coenzyme Q10 affect aerobic capacity in endurance athletes? | |
| Costill et al. | The role of dietary carbohydrates in muscle glycogen resynthesis after strenuous running | |
| Riddell et al. | Substrate utilization during exercise with glucose and glucose plus fructose ingestion in boys ages 10–14 yr | |
| Gleeson et al. | Comparison of the effects of pre-exercise feeding of glucose, glycerol and placebo on endurance and fuel homeostasis in man | |
| Williams et al. | Influence of fluid intake on endurance running performance: a comparison between water, glucose and fructose solutions | |
| Chryssanthopoulos et al. | The effect of a high carbohydrate meal on endurance running capacity | |
| Goodpaster et al. | The effects of pre-exercise starch ingestion on endurance performance | |
| Niles et al. | Carbohydrate-protein drink improves time to exhaustion after recovery from endurance exercise. | |
| Wagenmakers et al. | Breath 13CO2 background enrichment during exercise: diet-related differences between Europe and America | |
| Guezennec et al. | The role of type and structure of complex carbohydrates response to physical exercise | |
| Massicotte et al. | Oxidation of exogenous carbohydrate during prolonged exercise in fed and fasted conditions | |
| Rowlands et al. | Glucose polymer molecular weight does not affect exogenous carbohydrate oxidation | |
| Tsai et al. | Effects of locust bean gum on glucose tolerance, sugar digestion, and gastric motility in rats | |
| Pimay et al. | Exogenous glucose oxidation during exercise in relation to the power output | |
| Guggenheim | Rudolf Schoenheimer and the concept of the dynamic state of body constituents | |
| JPS61128876A (en) | Beverage |