NAD+ is a naturally occurring coenzyme involved in cellular energy production and other important biological processes. Researchers continue to study its potential role in healthy aging, metabolic function, and cognitive health.
Tesamorelin is a peptide that works by stimulating the release of growth hormone. It has been studied for its effects on body composition and metabolic function, particularly in relation to visceral (abdominal) fat.
This combination includes two peptides that have been studied in preclinical research for their potential effects on tissue-related biological processes. Research has explored their possible roles in cellular signaling, tissue remodeling, and other physiological pathways, though human clinical evidence remains limited and many proposed uses have not been established in large clinical trials.
BPC-157 is a synthetic peptide that has been investigated in preclinical studies for its potential effects on tissue-related processes and gastrointestinal biology.
TB-500 is a synthetic peptide derived from thymosin beta-4 that has been studied for its potential role in cell migration and tissue-related biological processes.
CJC-1295 is a growth hormone-releasing hormone (GHRH) analog, and Ipamorelin is a peptide that interacts with pathways involved in growth hormone release. Researchers have studied these compounds for their potential effects on endogenous growth hormone and insulin-like growth factor-1 (IGF-1) production, as well as their broader role in growth hormone-related physiological processes.
Epithalon is a peptide being studied for its potential role in healthy aging and age-related cellular processes. Researchers have investigated its possible effects on sleep and other aspects of wellness, though evidence remains limited and many proposed benefits have not been proven in large clinical trials.
This combination includes three peptides that have been studied for their potential effects on tissue-related, skin-related, and other cellular processes. Research has explored their possible roles in musculoskeletal, gastrointestinal, and skin biology, though evidence varies by peptide and application.
Sermorelin is a synthetic analog of growth hormone-releasing hormone (GHRH). It has been studied for its effects on pathways involved in the body’s natural production and release of growth hormone. Researchers have investigated its potential influence on growth hormone signaling and related physiological processes, though individual responses may vary and evidence for specific clinical outcomes differs by application.
MOTS-c is a mitochondrial-derived peptide being studied for its potential role in metabolism and cellular energy regulation. Early research has explored its effects on metabolic and exercise-related pathways, but clinical evidence remains limited and additional research is needed to better understand its potential applications.
GHK-Cu is a naturally occurring copper-binding peptide that has been studied for its potential role in skin biology and other cellular processes. Researchers have investigated its effects on pathways involved in skin appearance, collagen production, and hair follicles, though evidence varies depending on the specific application.
This combination includes four peptides that have been studied for their potential effects on a variety of biological processes. Research into these compounds is ongoing, and evidence varies by peptide and intended application.
BPC-157 – Investigated in preclinical research for its potential effects on tissue-related and gastrointestinal biological processes.
TB-500 – Studied for its potential role in cell migration and other tissue-related biological pathways.
GHK-Cu – Researched for its potential effects on skin biology, collagen-related pathways, and other cellular processes.
KPV – A tripeptide fragment that has been studied for its potential role in immune and gastrointestinal biological processes.