Description
CJC 1295 with DAC 5mg
CJC 1295 with DAC (Drug Affinity Complex) is a cutting-edge peptide widely used in scientific research to explore its potential in stimulating growth hormone secretion. This synthetic peptide has gained significant attention due to its long-lasting effects, made possible by the inclusion of DAC, which prolongs its half-life and enhances its bioavailability.
Mechanism of Action
CJC 1295 with DAC works by stimulating the pituitary gland to release more growth hormone (GH). It achieves this by mimicking the action of naturally occurring Growth Hormone-Releasing Hormones (GHRHs). The DAC component binds to albumin, allowing the peptide to remain active in the body for extended periods, often up to two weeks per dose, making it more convenient and effective for sustained research applications.
Potential Benefits
- Muscle Growth: Increased GH levels may lead to enhanced muscle mass development.
- Fat Loss: Stimulates lipolysis, supporting fat reduction in targeted research models.
- Recovery: Promotes faster recovery from cellular damage and oxidative stress.
- Anti-Aging: Potential to improve skin elasticity, bone density, and overall vitality.
Applications in Research
CJC 1295 with DAC is primarily used in research to study its effects on growth hormone release, metabolic processes, and regenerative properties. It is commonly investigated for its role in anti-aging therapies, athletic performance enhancement, and fat metabolism.
Quality Assurance
Our CJC 1295 with DAC 5mg is manufactured to the highest standards of purity and quality. Each batch undergoes rigorous third-party testing to ensure it meets research-grade specifications.
Storage and Usage
- Storage: Store in a cool, dry place. Reconstituted solutions should be stored at 2–8°C and used within a designated timeframe.
- For Research Only: Not for human use. Intended strictly for laboratory research purposes.
CJC 1295 with DAC 5mg offers a reliable and effective solution for advancing research in growth hormone-related fields. Its extended half-life and potent mechanism make it a valuable asset for studies focused on physical performance, recovery, and age-related conditions.