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Clinical Trial Summary

It is also noteworthy that the imbalance between the production, supply and elimination of especially α-amino acids may contribute to the intensification of the inflammatory response and the subsequent burden of the renal tubules, which may result in damage and developing chronic renal failure. Among the many amino acids used in sports, arginine and its metabolites deserve special attention. The role of arginine appears to increase in specific physiological states associated with disease, injury or significant strain on the body, leading to an increase in the rate of catabolic transformation. Arginine plays a significant role in protein biosynthesis and detoxification processes related to ammonia removal and urea formation .


Clinical Trial Description

Subject and purpose of the project. Both in sport and medicine, methods are constantly being sought that can significantly contribute to improving the ability of tissues to perform their functions. A wide range of interests include various supplementation and training protocols. In a significant way, they are to contribute to the reduction of negative post-workout changes, protecting the athlete's tissues and organs from the debilitating effect of efforts of very long duration and high intensity. Commonly, in sports with a long duration of effort, supplementation with amino acid complexes is used, the purpose of which is to support both the metabolism of working muscles and provide building materials necessary for the functioning of muscle fibers. It was found that maintaining a proper supply of amino acids is one of the important factors protecting the human body against excessive intensification of catabolic processes. It is also noteworthy that the imbalance between the production, supply and elimination of especially α-amino acids may contribute to the intensification of the inflammatory response and the subsequent burden of the renal tubules, which may result in damage and developing chronic renal failure. Among the many amino acids used in sports, arginine and its metabolites deserve special attention. The role of arginine appears to increase in specific physiological states associated with disease, injury or significant strain on the body, leading to an increase in the rate of catabolic transformation Arginine plays a significant role in protein biosynthesis and detoxification processes related to ammonia removal and urea formation In addition, it was found that arginine is involved in the synthesis of proline, and may have a special effect on the body of athletes: creatine, nitric oxide, agmatine, ornithine, citrulline and glutamate. Attention is also drawn to the possible relationship between arginine and the secretion of endogenous growth hormone, insulin and glucagon . It is noteworthy that as a result of digestion, only 50% of arginine consumed with the diet after its release from proteins enters the blood, while 40% is broken down in the small intestine as a result of arginase . Part of the arginine pool in the blood plasma may come from the conversion of citrulline found in food. In cells, arginine transport takes place via specific membrane conveyors and is competently inhibited by selected NOS inhibitors (nitric oxide synthesis) and lysine, ornithine and canvaaine. In the liver, it participates in important detoxification processes, taking part in the urea cycle, while in vascular endothelial cells it stimulates the synthesis of nitric oxide. The dietary supply of arginine, unfortunately, is not effective. A much greater increase in its content in blood plasma is observed in the case of the use of an increased arginine precursor - citrulline. This means that thanks to the correct content of citrulline in the diet, it is possible to normalize the concentration of arginine in the body. In the case of physical activity itself, however, it seems more important that the high supply of citrulline in the diet may translate into an increase in oxygen consumption by tissues, improvement of strength capabilities, but what is very important, it may have a positive effect on bicarbonate reuptake, which is an exponent of normal kidney function. In addition, by limiting muscle damage and the breakdown of muscle fibers, the myoglobin content in the urine is reduced. In turn, its high concentration (>35 ng / ml or above 17 μg / g creatinine) is considered an important factor responsible for post-workout kidney damage. Suplementacjand citrulline in the case of ultramarathoners in terms of kidney function seems to be a very beneficial solution. The transformation of citrulline into arginine may translate into an increase in the concentration of nitrous oxide in the musculature of the renal vessels, which reduces the risk of ischemic changes developing in the kidney structure itself. Summing up the above properties of citrulline and the achievable benefits of its use, the subject of a smaller research project is to determine the effect of citrulline supplementation on the level of generalized inflammatory reaction induced by ultralong physical exertion. The aim of the entire research project is to try to show the phenomenon of post-workout kidney damage occurring in ultralong runners, as well as to illustrate the need to take (supplementation) actions aimed at protecting the kidneys, especially against toxic imbalance in the turnover of amino acids and the intensification of the harmful inflammatory response. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05510440
Study type Interventional
Source Medical University of Gdansk
Contact Jedrzej Antosiewicz
Phone 0048513046412
Email jant@gumed.edu.pl
Status Not yet recruiting
Phase N/A
Start date March 1, 2023
Completion date November 30, 2023

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