Clinical Trial: Chronic Versus Acute Dosing of Sodium Citrate for Swimming 200m

Study Status: Completed
Recruit Status: Completed
Study Type: Interventional

Official Title: Chronic vs. Acute Ingestion of Sodium Citrate: a Randomised Placebo Controlled Cross-over Trial for Swimming a 200 Metres in Well-trained Swimmers Age 13-17

Brief Summary: Ingestion of sodium citrate (Na-Cit), an alkalizing agent, increases extracellular pH via liver oxidation by decreasing [H+] and increasing bicarbonate concentration (HCO3-). Studies have confirmed that increasing extracellular pH promotes the efflux of La- and H+ from active muscles. This is due to an increase in activity of the pH sensitive monocarboxylate transporter as the gradient of intracellular versus extracellular H+ increases. Therefore, artificially inducing alkalosis prior to anaerobic exercise may reduce intracellular acidosis and increase the time to fatigue - defined as a decrease in force production with an increased perception of effort. The investigators will test the null hypothesis that sodium citrate ingestion (chronic and acute) will not have an effect on exercise performance compared to placebo.

Detailed Summary:

Anaerobic glycolysis quickly provides adenosine triphosphate (ATP) for muscular contraction during high intensity, short duration exercise. The fast rate of glycolysis during anaerobic exercise results in pyruvate formation exceeding pyruvate oxidation resulting in a build up of lactic acid. Lactic acid dissociates quickly to lactate (La-) and hydrogen ion (H+) which causes a decrease in muscle and blood pH. The increase in H+ causes impaired release of calcium from the sarcoplasmic reticulum and calcium ion binding which inhibits the coupling of actin and myosin.

Ingestion of sodium citrate (Na-Cit), an alkalizing agent, increases extracellular pH via liver oxidation by decreasing [H+] and increasing bicarbonate concentration (HCO3-). Studies have confirmed that increasing extracellular pH promotes the efflux of La- and H+ from active muscles. This is due to an increase in activity of the pH sensitive monocarboxylate transporter as the gradient of intracellular versus extracellular H+ increases. Therefore, artificially inducing alkalosis prior to anaerobic exercise may reduce intracellular acidosis and increase the time to fatigue - defined as a decrease in force production with an increased perception of effort. Furthermore, Cit- enters the cell through the Plasma Membrane Citrate Transporter and in the cell Cit- is involved in a number of processes: i) intermediary in the Krebs Cycle, ii) transports acetyl-Co-enzyme A (CoA)from the mitochondria to the cytosol for fatty-acid synthesis, iii) negative allosteric effector of phosphofructokinase, iv) anionic effect on membrane potential can cause a reduction in the contraction threshold.

Researchers have studied sodium bicarbonate and Na-Cit as potential alkalizing agents. Na-Cit has been studied in few sports over a broad array of doses, times, and distances with inconclusi
Sponsor: Brock University

Current Primary Outcome: Time [ Time Frame: once each 200m performance ]

Original Primary Outcome: Time [ Time Frame: once each 200m performance ]

Current Secondary Outcome: Lactate [ Time Frame: 3 min post performance ]

Original Secondary Outcome: Lactate [ Time Frame: 3 times; 0min, 100min, 3min post perfromance (basal, pre-performance, post-performance) ]

Information By: Brock University

Dates:
Date Received: April 10, 2013
Date Started: September 2012
Date Completion:
Last Updated: July 23, 2014
Last Verified: July 2014