Peptide Research: BPC-157 – Studies, Research Use, and Scientific Background

What is BPC-157?

BPC-157 is a synthetic peptide composed of 15 amino acids, derived from a protective protein found in the stomach. It is widely studied in laboratory research for its potential roles in tissue repair, angiogenesis, and cellular protection in preclinical models.
For laboratory research use only. Not for human or veterinary use.

Key Scientific Studies

• Tissue Repair and Healing: A 2020 study in Frontiers in Pharmacology reported that BPC-157 accelerated the healing of tendon and ligament injuries in animal models, highlighting its role in tissue regeneration and angiogenesis.
  Pevec et al., 2020
• Anti-Inflammatory and Cytoprotective Effects: Laboratory studies have shown that BPC-157 can modulate inflammatory responses and support cellular protection in various organ systems under experimental conditions.
  Sikiric et al., 2015

Laboratory Research Applications

• Studies of tissue regeneration and wound healing
• Investigation of angiogenesis and blood vessel formation
• Preclinical models of inflammatory and gastrointestinal disorders
• Research on cytoprotection and cellular migration

Mechanism of Action (in Research Context)

BPC-157 is believed to modulate the activity of growth factors, enhance angiogenesis, and promote cellular migration. In laboratory studies, it has demonstrated cytoprotective and anti-inflammatory properties, making it a key focus in tissue repair and organ protection research models.

Reference Dosing Schedules from Published Studies

The following dosing protocols have been reported in published laboratory and preclinical studies of BPC-157:

• Common Dose Range (animal studies): 10–20 mcg/kg daily, typically administered via intraperitoneal or oral routes
• Duration: Varies by protocol; most studies range from 7–28 days in preclinical models