This carefully designed research peptide bundle combines the potent effects of Tirzepatide, Cagrilintide, and AOD9604, targeting multiple aspects of metabolic health and fat loss. Each peptide offers unique benefits for fat regulation, appetite suppression, and metabolic pathways, making this pack an ideal solution for comprehensive research into body composition and fat metabolism.
Tirzepatide sodium, a peptide for treating type 2 diabetes, functions by mimicking the effects of incretin hormones GLP-1 and GIP. These hormones stimulate insulin release, reduce glucagon secretion, and slow gastric emptying. Used for improving blood sugar control in adults with type 2 diabetes, Tirzepatide also aids in weight loss. Administered via subcutaneous injection, it represents a significant advancement in type 2 diabetes management with its dual-action mechanism.
Cagrilintide is an amylin analogue that targets appetite suppression and fat metabolism. Amylin is a hormone co-secreted with insulin that plays a significant role in regulating satiety and glucose control. Cagrilintide’s effects on reducing appetite and fat accumulation make it a promising peptide for body weight regulation and metabolic research.
AOD9604 is a modified fragment of human growth hormone (HGH) specifically developed to combat obesity and related metabolic issues. AOD9604 works by stimulating the breakdown of fat (lipolysis) and inhibiting the formation of new fat tissue (lipogenesis). Unlike traditional HGH, AOD9604 does not affect insulin levels or growth, making it a targeted peptide for fat loss research.
This pack combines the powerful effects of Tirzepatide, Cagrilintide, and AOD9604 to target various metabolic pathways in weight loss and fat metabolism research. By combining these three peptides, researchers can explore the synergistic benefits of glucose control, appetite suppression, and fat breakdown for a comprehensive approach to body composition studies. Whether you’re investigating fat reduction or metabolic health, this pack offers a robust solution for advanced research.
