Creatinol Phosphate: Enhancing Muscle Energy Metabolism for Athletes and Neuroprotection Research
Unlock peak physical performance and explore novel neurological treatments with this advanced biochemical compound.
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Creatinol Phosphate
Creatinol phosphate is a vital synthetic compound for cellular energy metabolism, especially within muscle tissues. It functions as a phosphagen, playing a critical role in ATP regeneration, which is essential for high-intensity physical activities.
- Its ability to delay muscle fatigue and improve endurance during high-intensity exercise makes it a key compound for athletes and fitness enthusiasts looking to boost their performance.
- In neuroscience research, creatinol phosphate shows promise for neuroprotective effects, particularly in conditions like ischemia, where it may aid in preserving brain function and recovery.
- The compound is also extensively used in biochemical studies to investigate metabolic pathways, focusing on energy production and the intricate processes of phosphate metabolism within cells.
- Researchers are exploring its potential therapeutic applications for muscle-related disorders, offering innovative approaches to treatment and recovery strategies.
Advantages Provided by the Product
Enhanced Athletic Performance
Leverage creatinol phosphate to improve athletic performance by optimizing energy metabolism in muscles, contributing to better endurance and reduced fatigue during intense workouts.
Neuroprotection Potential
Investigate the neuroprotective capabilities of creatinol phosphate, offering potential benefits in conditions related to neurological stress or damage, such as ischemic events.
Advanced Biochemical Research
Utilize this compound in your biochemical assays to delve deeper into cellular energy production and phosphate metabolism, advancing your research in fundamental biological processes.
Key Applications
Sports Nutrition
As a high-end supplement for athletes, creatinol phosphate enhances energy delivery to muscles, aiding in increased power output and faster recovery.
Neuroscience Research
Its role in cellular energy homeostasis makes it valuable for studying and potentially treating neurological conditions where energy supply to the brain is compromised.
Biochemistry Studies
Serves as a crucial substrate for investigating energy metabolism pathways and the mechanisms of phosphate transfer in various biological systems.
Pharmaceutical Development
Explored for its therapeutic potential in treating muscle disorders and improving overall muscle health and function.
Related Technical Articles & Resources
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