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Recovery and Healing: Introduction to Peptides
This course provides a comprehensive overview of how peptides, such as BPC-157 and TB-500, can support recovery and healing in preclinical research. You will learn about the science behind these peptides and their potential in tissue repair and inflammation management.
BeginnerEstimated time: 52 min13 lessons
Learning objectives
- Understand the fundamentals of recovery peptides.
- Explore the scientific evidence on BPC-157 and TB-500.
- Identify the mechanisms of action of these peptides in healing.
Module 1: Introduction to BPC-157
- 1BPC-157: Mechanism, Receptor Interactions, and Preclinical Data Summary4 min
- 2BPC-157 and Tissue Repair: FAK/Paxillin Signaling and Nitric Oxide Pathway Activation4 min
- 3BPC-157 and the Gut-Brain Axis: Cytoprotection, COX-2 Modulation, and Mucosal Healing Models4 min
- 4BPC-157 Preclinical Data Compendium: Key Rodent Studies, Dosing Parameters, and Endpoint Measurements4 min
Module 2: Exploring TB-500
- 1TB-500 (Thymosin β4 Fragment): Actin Sequestration, Cell Migration, and Angiogenic Signaling4 min
- 2TB-500 and Cell Migration: G-Actin Binding, Integrin Signaling, and Wound Healing Models4 min
- 3BPC-157 vs TB-500: Complementary Mechanisms in Tissue Repair Research4 min
- 4BPC-157 + TB-500 Combination: Synergistic Evidence in Preclinical Repair Models4 min
Module 3: Anti-inflammatory Peptides and Recovery
- 1KPV (Lys-Pro-Val): α-MSH C-Terminal Fragment and MC1R-Mediated Anti-Inflammatory Signaling4 min
- 2KPV and IBD Models: NF-κB Inhibition, MC1R Signaling, and Intestinal Epithelial Repair4 min
- 3Peptides in Musculoskeletal Repair Research: Tendon, Muscle, and Ligament Models4 min
- 4Peptides and Chronic Inflammation: NF-κB, TNF-α, IL-6 Modulation in Preclinical Models4 min
- 5Peptide-Induced Angiogenesis: VEGF Upregulation, HIF-1α, and Endothelial Cell Migration Mechanisms4 min