Abstract
AbstractCarbohydrate and fat are the predominant sources of energy during exercise in mammals. Carbohydrates, such as muscle glycogen and plasma glucose, and fats from adipose tissue and intramuscular triglycerides are oxidized during exercise in amounts and proportions that vary depending on the exercise intensity, level of fitness and nutritional status. In horses, muscle glycogen, and to a lesser extent plasma glucose, are oxidized in substantial amounts during low-, moderate- and high-intensity exercise. Carbohydrate availability to skeletal muscle affects exercise performance in humans, however this relationship is not well outlined in horses. Glucose supplementation by intravenous administration during exercise in horses increases duration of moderate-intensity exercise. However, the effect of glucose supplementation by ingestion of a soluble carbohydrate-rich meal prior to exercise on athletic performance has not been established in horses. Low muscle glycogen concentrations prior to exercise in horses are associated with decreased time to exhaustion at moderate- and high-intensity exercise. Nutritional interventions intended to enhance muscle glycogen resynthesis have proved less successful in horses than in other species. Replenishment of muscle glycogen after strenuous exercise in horses is not complete until 48–72 h after exercise, whereas in humans and laboratory animals it is complete by 24 h. The slower rate of muscle glycogen replenishment after exercise in horses may be related to an inherent lower ability to digest starch and other sources of glucose, a lower ability to synthesize muscle glycogen, or both. The aim of this review is to describe the present understanding of carbohydrate metabolism in the exercising horse, its implications on nutrition and athletic performance, and to contrast it with that in other species.
Highlights
The athletic horse has a large capacity to perform muscular work compared with many other mammals, including humans
Fibre in forages is fermented in the hindgut and the volatile fatty acids (VFAs) produced used for synthesis of fatty acids, and from propionate, glucose
Muscle glycogen constitutes over 90% of the carbohydrates in the body (Table 1) and the amount of glycogen is muscle fibre type-dependent
Summary
The athletic horse has a large capacity to perform muscular work compared with many other mammals, including humans. Energy to perform work is obtained from oxidation of carbohydrate and fat and, to a minimal extent, protein. The energy requirements of athletic horses are met by ingestion of these nutrients. While metabolism and energy transduction in muscle fibres of mammalian species are similar, the energy requirements of different athletic species are met by ingestion of very different diets. Energy intake of horses is primarily from carbohydrates in forages and grains. Fibre in forages is fermented in the hindgut and the VFAs produced used for synthesis of fatty acids, and from propionate, glucose. Glucose is stored as glycogen in liver and muscle. Fast-twitch muscle fibres (Type-II) have greater glycogen content qCAB International 2004. 24 Table 1 Fuel stores, distribution within the body and energy storage in a 450 kg horse[29]
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