Research has shown that the synergy between creatine and CarnoSyn® beta-alanine amplifies their individual effects, offering a comprehensive solution for enhancing athletic performance. CarnoSyn® beta-alanine addresses the fatigue associated with high-intensity workouts, allowing individuals to push through more repetitions, while creatine provides the energy substrate needed for these extended efforts. Clinical tests show significant increases in strength and stamina when stacking these two powerhouse ingredients.1
CarnoSyn® beta-alanine plays a significant role in enhancing the effectiveness of creatine supplementation, particularly in scenarios where maintaining optimal muscle function and delaying fatigue are crucial. CarnoSyn® supplementation increases the levels of muscle carnosine, which serves as a buffer against acidification during intense exercise. This buffering capacity helps to slow the decline in intramuscular pH that occurs with sustained muscle contraction. By mitigating the decrease in pH, CarnoSyn® supplementation supports the function of the creatine kinase-phosphocreatine (CK-PCr) system.
The CK-PCr system relies on an optimal pH environment for its efficiency in regenerating ATP from ADP. When pH levels drop due to acidification during exercise, the efficiency of the CK-PCr system decreases, leading to reduced muscle power output and eventual fatigue. However, CarnoSyn® beta-alanine supplementation can help maintain a more favorable pH environment, thereby enhancing the ability of the CK-PCr system to regenerate ATP. Therefore, in conjunction with creatine supplementation, CarnoSyn® plays a complementary role in optimizing muscle energy metabolism. By increasing buffering capacity and delaying the onset of fatigue, CarnoSyn® supports the function of the CK-PCr system, leading to improved athletic performance during high-intensity and short-duration activities.
Creatine is a naturally occurring compound found in the body, primarily in the muscles, where it plays a crucial role in energy metabolism. Creatine is involved in the rapid production of ATP (adenosine triphosphate), which is the primary energy currency of cells. When muscles contract, they use ATP for energy, and this ATP is rapidly depleted during intense exercise. Creatine kinase (CK) is an enzyme found in muscles and other tissues that catalyzes the transfer of a phosphate group from phosphocreatine (PCr) to ADP (adenosine diphosphate), forming ATP. This reaction is reversible and occurs rapidly, allowing the regeneration of ATP from ADP, which is essential for maintaining energy levels during high-intensity exercise.
The CK-PCr system refers to the coupled reactions involving creatine kinase and phosphocreatine. Phosphocreatine serves as a readily available high-energy phosphate reservoir that can quickly regenerate ATP from ADP, providing a rapid and immediate source of energy during muscle contraction. However, the efficiency of the CK-PCr system can be compromised under certain conditions, such as decreases in pH (acidification) that occur during intense exercise. This decrease in pH can impair the ability of creatine kinase to regenerate ATP from ADP, leading to a
decrease in muscle power output and eventual fatigue. Supplementation with creatine can increase the levels of phosphocreatine in muscles, thereby enhancing the capacity of the CK-PCr system to regenerate ATP during exercise. Supplementation of creatine and CarnoSyn® beta-alanine has been shown to improve strength, power, and muscle endurance, particularly during high-intensity and short-duration activities.
Overall, creatine and the CK-PCr system play crucial roles in muscle energy metabolism, helping to sustain ATP levels and power output during exercise, and supplementation with CarnoSyn® and creatine can enhance these processes, leading to improved athletic performance. In addition to physical performance benefits, research has shown that CarnoSyn® and creatine contribute to improved cognitive function. By integrating CarnoSyn® and creatine into your formulations, you are providing high-quality supplements and a premium consumer experience with the combined benefits of both cognitive and physical performance.
To learn more, visit: https://www.carnosyn.com/carnosyn-creatine/
1 Hoffman, J et al., 2006. Effect of creatine and beta-alanine supplementation on performance and endocrine responses in strength/power athletes. Int J Sport Nutr and Exercise Metabolism, 16: 430−446.