IGF-LR3 – 1mg
$75.00
IGF-LR3 (Insulin-Like Growth Factor Long R3)
IGF-LR3 is a modified form of Insulin-Like Growth Factor 1 (IGF-1) that has been altered to increase its half-life and enhance its effects on growth. This peptide is commonly studied for its potential to stimulate growth, increase muscle mass, and improve recovery by enhancing the effects of growth hormone. IGF-LR3 is of particular interest in research for its ability to promote cellular growth, tissue repair, and anabolic processes.
Potential Research Applications
IGF-LR3 is currently being explored in research settings for its role in:
- Muscle Growth & Hypertrophy: Investigated for its ability to stimulate muscle growth, increase protein synthesis, and support muscle recovery following exercise or injury.
- Tissue Repair & Regeneration: Studied for its potential to enhance tissue repair and regeneration, especially in muscle and cartilage.
- Fat Loss: Researched for its possible effects on fat metabolism and the reduction of adipose tissue, contributing to body composition improvements.
- Cellular Growth & Regeneration: Explored for its role in promoting cellular growth and supporting regeneration in various tissues throughout the body.
✔ High-Quality Research Peptide – Produced under stringent quality control standards.
✔ Lab-Tested for Purity – Ensures consistency for scientific studies.
✔ Research Use Only – Not for human consumption or medical applications.
✔ Peptides – Will arrive in a lyophilized (powder) form for maximum stability.
The peptides are available for research and laboratory purposes only. Please review and ahere to our Terms and Conditions before ordering.
- Description
- Certificate of Analysis
IGF-LR3 is a synthetic variant of IGF-1 that promotes cell growth, proliferation, and differentiation. Moreover, it has a longer half-life and stronger effect. Unlike IGF-1, IGF-LR3 resists binding proteins that limit its activity. Consequently, it provides prolonged growth signals.
Firstly, researchers study its ability to stimulate muscle growth and repair. IGF-LR3 boosts protein synthesis and muscle cell division. Additionally, it aids fat metabolism by promoting fat breakdown and energy use. Therefore, it is relevant to body composition and weight management studies.
Furthermore, IGF-LR3 plays a role in tissue regeneration. It accelerates healing in muscles, tendons, ligaments, and bones. Moreover, researchers examine its effects on aging. As a result, IGF-LR3 may help restore growth signals and improve overall longevity and recovery.
In conclusion, IGF-LR3 remains a significant focus in regenerative medicine, muscle recovery, and metabolic research.
For Research Use Only
No Certificate of Analysis images available for this product.
