Plasma aldosterone concentration and renal sodium excretion are altered during the first days of training.
Abstract: The purpose of the present study was to determine whether the training-induced hypervolaemic response seen in the horse is associated with aldosterone-mediated renal mechanisms affecting sodium conservation during the first days of training. Five healthy, Standardbred mares (weight 450-500 kg, age 4-8 years) that were unfit, but accustomed to running on the treadmill, were used to test the hypothesis that repeated submaximal exercise would alter plasma aldosterone (ALDO) concentration and renal excretion of electrolytes in horses within the first 3 days of training. The experiment consisted of a 2 week housing equilibration period followed by a 1 week control period and a 3 day exercise training period (30 min/day at 60% VO2max). During control, ALDO and renal fluid and electrolyte losses were measured for 24 h on 3 separate days. Renal function (urine volume [UV], 24 h excretion of Na+, K+ and Cl- [UNA+ V, UK+ V, UCl- V], clearance of Na+ [CNa+], K+ [CK+] and Cl- [CCl-], creatinine [CCr], osmotic substances [Cosm], and solute-free water [FWC], and the fractional excretion of Na+, K+ and Cl-) and ALDO were measured for an additional 3 consecutive days during the training period. There were no differences (P>0.05) in any variable during the control period. Plasma volume increased (+18.7%, P<0.05) after 3 days of training. During training, there were no significant changes in plasma osmolality, electrolyte concentrations or CCr. Training caused decreases (P<0.05) in UV (-30%), UNA+ V (-73%), UK+ V, (-55%) and UCl- V (-70%). Training also caused decreases (P<0.05) in Cosm (-30%), through decreases in CNa+ (-60%), CK+ (-60%), and CCl- (-66%). Interestingly, FWC increased (+30%, P<0.05), whereas, there were significant decreases in the fractional excretion of Na+ (-59%), K+ (-48%) and Cl- (-60%). Training caused substantial elevations in both pre-exercise (967%, P<0.05) and postexercise (+3013%, P<0.05) plasma ALDO concentrations suggesting an increase in both basal levels and the responsiveness to acute exercise. Together, these observations suggest that mechanisms affecting tubular conservation of electrolytes contribute to the early response to training. However, it is also concluded that renal mechanisms appear to be only part of the mechanism for conserving sodium and water intake as well as training-induced changes in gastrointestinal mechanisms affecting electrolyte and water balance.
Publication Date: 2002-10-31 PubMed ID: 12405745DOI: 10.1111/j.2042-3306.2002.tb05477.xGoogle Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research paper investigates the effect of early days of training on the secretion of the hormone aldosterone and the renal excretion of electrolytes in horses. It concludes that physical training triggers changes in renal mechanisms, specifically affecting the composition of urine and the levels of aldosterone.
Objective of Research
- The research aimed to determine if a hypervoleamic response – an increase in the volume of blood plasma – seen in horses during the early period of training is connected with aldosterone-mediated mechanisms in the kidneys which affect how sodium is conserved.
Experimental Design
- The research used five healthy Standardbred mares that were unfit but accustomed to running on a treadmill.
- The experimental procedure consisted of housing the horses in a stable condition for two weeks, followed by a control period for one week, and a three-day exercise training period that involved 30 minutes of daily exercise at 60% of VO2 maximum – a measure of the maximum volume of oxygen an individual can use during intense exercise.
Measurements and Findings
- Specific parameters related to kidney function and aldosterone were measured before, during, and after the training period.
- These parameters included urine volume, 24-hour excretion of different electrolytes (sodium, potassium, chloride), clearance of these electrolytes, and the concentration of aldosterone in plasma.
- After three days of training, the volume of plasma in the blood increased by 18.7% compared with the control period.
- The urine volume and rates of excretion for sodium, potassium, and chloride all decreased with training.
- Contrarily, the level of the hormone aldosterone in the blood increased substantially – pre-exercise levels increased by 967% and post-exercise levels increased by 3013%.
Conclusions
- The study concludes that adaptations in the kidney that conserve electrolytes contribute to the early training response in horses.
- This includes lower urine volume and excretion rates of electrolytes, and a higher concentration of aldosterone.
- Nevertheless, the researchers also conclude that the renal mechanisms appear to be just a part of the overall mechanism for conserving sodium and water intake, indicating that changes in gastrointestinal mechanisms are also likely involved in response to training.
Cite This Article
APA
McKeever KH, Scali R, Geiser S, Kearns CF.
(2002).
Plasma aldosterone concentration and renal sodium excretion are altered during the first days of training.
Equine Vet J Suppl(34), 524-531.
https://doi.org/10.1111/j.2042-3306.2002.tb05477.x Publication
Researcher Affiliations
- Equine Science Center, Department of Animal Sciences, Cook College, Rutgers, The State University of New Jersey, New Brunswicky 08901-8525, USA.
MeSH Terms
- Aldosterone / blood
- Animals
- Body Water
- Electrolytes / blood
- Electrolytes / metabolism
- Electrolytes / urine
- Exercise Test / veterinary
- Female
- Horses / blood
- Horses / physiology
- Kidney / physiology
- Kidney Function Tests / veterinary
- Osmolar Concentration
- Physical Conditioning, Animal / physiology
- Sodium / metabolism
Citations
This article has been cited 1 times.- Saucedo Rodrigo P, Abellán Alemán J, Gómez Jara P, Leal Hernández M, Ortega Toro E, Colado JC, Sáinz de Baranda Andújar P. [Effects of a structured exercise programme on cardiovascular risk programmes in post-menopausal women. CLIDERICA study]. Aten Primaria 2008 Jul;40(7):351-6.
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