Compound Library
Evidence-based research summaries for 84 peptides across 9 categories. Mechanisms, pharmacokinetics, trial data, and citations.
Body Protection Compound — pentadecapeptide derived from human gastric juice protein. Among the most researched peptides for tissue healing, tendon repair, and gut health.
Synthetic version of Thymosin Beta-4, an actin-sequestering protein studied for wound healing, cardiac protection, and inflammation modulation.
Combined BPC-157 and TB-500 studied in research for synergistic tissue repair, with complementary mechanisms addressing both cellular and extracellular matrix components.
Copper peptide (Glycine-Histidine-Lysine) naturally present in plasma. Extensively researched for wound healing, collagen synthesis, anti-inflammatory, and skin rejuvenation properties.
C-terminal tripeptide of alpha-MSH (Lys-Pro-Val). Studied for anti-inflammatory properties, gut mucosal protection, and wound healing.
Engineered non-erythropoietic EPO analogue. Studied for neuropathic pain, nerve regeneration, and metabolic applications including beta-cell protection in diabetes research.
Full 43-amino-acid thymosin beta-4 molecule (parent compound; tb500 is the active fragment). Studied for cardiac repair, wound healing, hair follicle stimulation, and anti-inflammatory signaling. Different pharmacology from tb500 fragment.
Tight junction regulator studied for celiac disease, leaky gut, and intestinal permeability research. Competitive inhibitor of zonulin — the protein that opens intestinal tight junctions. Phase 3 trials conducted for celiac.
Semi-synthetic polysaccharide studied for joint cartilage repair, interstitial cystitis, and osteoarthritis. Approved drug (Elmiron) for IC. Joint injection studies show cartilage regeneration signals.
Lipid-linked pentapeptide that signals fibroblasts to produce collagen, elastin, and hyaluronic acid. Widely studied in cosmetic dermatology as a collagen-stimulating topical. Matrikine peptide class.
Neuroprotective peptide fragment derived from nerve growth factor signaling pathways. Studied for peripheral nerve regeneration, spinal cord injury recovery models, and neurotrophic repair applications.