Glucose dynamics during exercise: dietary energy sources affect minimal model parameters in trained Arabian geldings during endurance exercise.
Abstract: Glucose regulation is critical for health and exercise performance. Objective: To quantify the effects of exercise and diet on insulin sensitivity (SI), glucose effectiveness (Sg), acute insulin response to glucose (AIRg) and disposition index (DI) in horses. Methods: This study applied the minimal model of glucose and insulin dynamics to exercise-trained Arabian geldings during rest or constant moderate-intensity exercise after 8 weeks adaptation to feeds high in sugar and starch (SS, n = 6) or fat and fibre (FF, n = 6). Horses underwent 2 frequently sampled i.v. glucose tolerance tests (FSIGT). For both tests, a resting basal sample was collected, followed by an i.v. dose of 600 mg/kg bwt glucose defining 0 min of the test. Insulin (0.01 iu/kg bwt) was administered 20 min post glucose for each test. Resting horses were sampled for 240 min. The exercise FSIGT began after each horse had warmed-up for 25 min on the treadmill at which point they had reached the speed representing 60% of their predetermined lactate breakpoint maintained for the rest of the FSIGT. Exercising horses were sampled identically to rest, but for only 150 min post glucose. Results: Exercise increased (P<0.008) SI, Sg and DI and decreased AIRg in all horses. Overall, horses adapted to FF tended to have higher SI (P = 0.070) and DI (P = 0.058). During exercise, FF horses tended to have higher (P< or =0.085) SI and DI, than SS horses and these variables tended to be increased more (P< or =0.075) by exercise in FF horses than SS horses. Conclusions: Insulin and glucose dynamics adjust during exercise, increasing plasma glucose uptake, presumably to meet demand by contracting skeletal muscle. Trained horses adapted to a high fat diet showed greater metabolic adjustment during exercise than trained horses adapted to a high starch and sugar diet, potentially allowing them to better meet energy demands. Conclusions: Nutrition and exercise impact glucose and insulin dynamics, potentially influencing health and performance.
Publication Date: 2007-04-04 PubMed ID: 17402496DOI: 10.1111/j.2042-3306.2006.tb05617.xGoogle Scholar: Lookup
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- Journal Article
Summary
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The study focuses on how exercise and diet affect glucose regulation and metabolism in horses, specifically Arabian geldings. The research found that horses trained and adapted to a high fat diet show better metabolic adjustment during exercise than those adapted to a high starch and sugar diet.
Methodology
- Two groups of six Arabian geldings who regularly undergo exercise were assembled. One group were adapted over eight weeks to feed high in sugar and starch (SS), and the other group adapted to feeds high in fat and fibre (FF).
- Each horse’s insulin sensitivity (SI), glucose effectiveness (Sg), acute insulin response to glucose (AIRg) and disposition index (DI) were measured at rest and during exercise.
- The measurements were taken using two frequently sampled intravenous glucose tolerance tests (FSIGT).
- Horses at rest were sampled for a period of 240 minutes, and exercising horses were only sampled for 150 minutes after glucose was administered.
Results
- The results showed an increase in SI, Sg and DI, and decrease in AIRg during exercise in all horses, which indicates that the horses’ insulin and glucose dynamics adjust during the exercise, presumably to meet the energy demand by the contracting skeletal muscles.
- Horses on the high fat and fibre (FF) diet showed a tendency towards having higher SI and DI, both at rest and during exercise.
- During exercising, horses on the FF diet adapted better with higher metabolic adjustments than those on the high sugar and starch (SS) diet, suggesting that they can meet energy demands more effectively.
Conclusions
- The study concludes that diet and exercise significantly impact glucose and insulin dynamics in horses.
- The findings could be used for better management of dietary programs for horses to enhance their health and exercise performance.
Cite This Article
APA
Treiber KH, Hess TM, Kronfeld DS, Boston RC, Geor RJ, Friere M, Silva AM, Harris PA.
(2007).
Glucose dynamics during exercise: dietary energy sources affect minimal model parameters in trained Arabian geldings during endurance exercise.
Equine Vet J Suppl(36), 631-636.
https://doi.org/10.1111/j.2042-3306.2006.tb05617.x Publication
Researcher Affiliations
- Department of Animal and Poultry Sciences, Virginia Polytechnic Institute and State University, Blacksburg, Virginia 24061-0306, USA.
MeSH Terms
- Animal Feed
- Animal Nutritional Physiological Phenomena
- Animals
- Blood Glucose / metabolism
- Dietary Carbohydrates / administration & dosage
- Dietary Fats / administration & dosage
- Dietary Fiber / administration & dosage
- Glucose Tolerance Test / veterinary
- Horses / metabolism
- Horses / physiology
- Insulin / metabolism
- Male
- Nutritional Requirements
- Physical Conditioning, Animal / physiology
- Physical Endurance / physiology
- Starch / administration & dosage
Citations
This article has been cited 4 times.- Clark BL, Bamford NJ, Stewart AJ, McCue ME, Rendahl A, Bailey SR, Bertin FR, Norton EM. Evaluation of an HMGA2 variant contribution to height and basal insulin concentrations in ponies.. J Vet Intern Med 2023 May-Jun;37(3):1186-1192.
- Park JW, Kim KH, Kim S, So JR, Cho BW, Song KD. Comparative metabolomic analysis in horses and functional analysis of branched chain (alpha) keto acid dehydrogenase complex in equine myoblasts under exercise stress.. J Anim Sci Technol 2022 Jul;64(4):800-811.
- Le Moyec L, Robert C, Triba MN, Billat VL, Mata X, Schibler L, Barrey E. Protein catabolism and high lipid metabolism associated with long-distance exercise are revealed by plasma NMR metabolomics in endurance horses.. PLoS One 2014;9(3):e90730.
- Li G, Lee P, Mori N, Yamamoto I, Arai T. Long term intensive exercise training leads to a higher plasma malate/lactate dehydrogenase (M/L) ratio and increased level of lipid mobilization in horses.. Vet Res Commun 2012 Jun;36(2):149-55.
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