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Explore the scientific research behind peptide compounds. From tissue repair and metabolic pathways to longevity and neuroprotection, browse compounds by research application.
Studies have examined peptide interactions with inflammatory mediators, including effects on cytokine expression in preclinical settings.
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BPC-157In-vitro and animal studies have explored peptide effects on tendon, ligament, and joint tissue regeneration pathways.
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TB-500Research has investigated peptide-stimulated growth hormone release patterns and their downstream effects on IGF-1 signaling in various models.
Preclinical studies have examined the role of growth hormone secretagogues in lean tissue accretion and nitrogen balance.
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IpamorelinResearch models have explored GH-mediated changes in body composition, including fat oxidation and protein synthesis pathways.
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CJC-1295Studies have investigated GLP-1 receptor agonism and its effects on central appetite signaling pathways in research models.
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SemaglutideResearch has explored peptide-mediated effects on glucose metabolism, lipid processing, and energy expenditure in preclinical and clinical settings.
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SemaglutideStudies have examined peptide interactions with insulin receptor signaling and glycemic regulation mechanisms.
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SemaglutideIn-vitro studies have investigated peptide-induced telomerase activation and its effects on chromosomal stability in somatic cell lines.
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EpithalonResearch has explored NAD+-dependent enzyme activity and its role in DNA damage response and repair pathways.
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NAD+Preclinical studies have examined the effects of NAD+ supplementation on mitochondrial biogenesis, oxidative phosphorylation, and cellular energy metabolism.
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NAD+Preclinical research has investigated peptide-mediated neuroprotection, including effects on dopaminergic and serotonergic systems in animal models.
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BPC-157Studies have explored NAD+-dependent sirtuin activation and its potential role in neuronal health and cognitive signaling pathways.
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NAD+Research has examined the relationship between growth hormone secretagogue-mediated GH pulsatility and sleep architecture in preclinical models.
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IpamorelinAll compounds are sold for in-vitro research and educational purposes only. These statements have not been evaluated by the FDA. These products are not intended to diagnose, treat, cure, or prevent any disease. Research findings cited are from preclinical and in-vitro studies unless otherwise noted.