BPC-157 vs TB-500: Best Healing Peptide? (2026)
BPC-157 vs TB-500 comparison with mechanisms, dosing, side effects, pricing, and which healing peptide to choose.
Live Price Comparison
Prices updated automatically from verified vendors
| Metric | BPC-157 | TB-500 |
|---|---|---|
| Best Value (per mg) | $3.50/mg EZ Peptides — 10mg | $4.40/mg EZ Peptides — 10mg |
| Lowest Price | $26.01 Particle Peptides — 5mg | $30.00 Penguin Peptides — 5mg |
| In-Stock Vendors | 6 offers | 7 offers |
| Available Sizes | 5mg, 10mg | 5mg, 10mg |
| Full Pricing | View all prices | View all prices |
The Two Most Popular Healing Peptides
BPC-157 and TB-500 are the two most widely discussed healing peptides in research. Both promote tissue repair, but they work through completely different mechanisms — which is why many researchers study them together.
This comparison breaks down exactly how they differ and where each one has the strongest research support.
Mechanism of Action
BPC-157 (Body Protection Compound)
BPC-157 is a synthetic pentadecapeptide (15 amino acids) derived from a protective protein found in human gastric juice. Its mechanisms include:
- Nitric oxide modulation — regulates blood flow and inflammation at injury sites
- Growth factor upregulation — increases EGF, FGF, and VEGF expression
- Gut-brain axis signaling — systemic effects mediated through the GI tract
- Dopaminergic system interaction — neuroprotective properties
BPC-157 is unique among healing peptides because it works systemically through the gut, even when administered locally.
TB-500 (Thymosin Beta-4 Fragment)
TB-500 is a synthetic fragment (amino acids 17–23) of Thymosin Beta-4, the body's primary actin-sequestering peptide. Its mechanisms include:
- Actin polymerization — mobilizes cellular building blocks for tissue repair
- Cell migration — accelerates fibroblast and keratinocyte movement to injury sites
- Angiogenesis — promotes new blood vessel formation via VEGF upregulation
- Anti-inflammatory — reduces IL-1β and TNF-α at injury sites
TB-500's smaller molecular size gives it excellent tissue distribution throughout the body.
Quick Comparison Table
| Feature | BPC-157 | TB-500 |
|---|---|---|
| Size | 15 amino acids | 7 amino acids (active fragment) |
| Origin | Derived from gastric juice protein | Synthetic fragment of Thymosin Beta-4 |
| Core mechanism | Nitric oxide + growth factors | Actin mobilization + angiogenesis |
| Best studied for | Gut healing, tendon, neuroprotection | Muscle repair, cardiac, systemic healing |
| Administration | Subcutaneous or oral (stable in GI tract) | Subcutaneous |
| Oral bioavailability | Yes — unique among peptides | No |
| Systemic reach | Via gut-brain axis | Via small molecule diffusion |
| Typical dose | 250–500 mcg/day | 2–5 mg, 2x/week |
| Loading phase | Not typically needed | Often recommended |
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Research Benefits Compared
Where BPC-157 Has Stronger Evidence
- Gut healing — BPC-157 was literally derived from gastric juice; it has the strongest evidence for GI repair including ulcers, IBD models, and gut barrier integrity
- Tendon-to-bone healing — multiple studies show accelerated tendon repair and reattachment
- Neuroprotection — interaction with dopaminergic and serotonergic systems
- Oral administration — BPC-157 survives stomach acid, making it the only healing peptide with oral bioavailability
Where TB-500 Has Stronger Evidence
- Cardiac tissue repair — parent molecule (TB-4) shown to activate epicardial progenitor cells in Nature publications
- Muscle regeneration — superior satellite cell activation and muscle fiber repair
- Wound healing — extensive dermal wound closure data
- Anti-fibrotic effects — reduces excessive scar tissue formation across multiple tissue types
- Corneal healing — significant clinical research in eye injury repair
Where Both Are Strong
- Tendon & ligament repair — both show significant benefit through different pathways
- Anti-inflammatory effects — both reduce pro-inflammatory cytokines
- Angiogenesis — both promote new blood vessel formation (different pathways)
Dosing Comparison
For research and educational discussion only.
BPC-157
| Protocol | Dose | Frequency | Duration |
|---|---|---|---|
| Standard | 250–500 mcg | Daily (subcutaneous) | 4–8 weeks |
| Oral | 500 mcg | Daily | 4–8 weeks |
| Localized | 250 mcg | Near injury site, daily | 4–6 weeks |
TB-500
| Protocol | Dose | Frequency | Duration |
|---|---|---|---|
| Loading | 4–8 mg/week | Divided 2x/week | 2–4 weeks |
| Maintenance | 2–4 mg/week | 1–2x/week | 4–8 weeks |
Side Effects & Safety
BPC-157
- Generally very well tolerated in research models
- Minimal reported side effects at standard doses
- No significant hormonal impact
- Theoretical concern: may promote angiogenesis in existing tumors (same as any pro-angiogenic compound)
TB-500
- Well tolerated; Phase I human trial of parent molecule (TB-4) showed no serious adverse events
- Mild injection site reactions possible
- Same theoretical angiogenesis/tumor concern as BPC-157
- Head rush or lightheadedness reported anecdotally at higher doses
Can You Stack BPC-157 and TB-500?
This is the most common question — and the answer from a mechanistic standpoint is yes, they are complementary rather than redundant:
- BPC-157 works through nitric oxide and growth factors (gut-mediated)
- TB-500 works through actin mobilization and cell migration (structural)
These are non-overlapping pathways, which is the theoretical basis for combining them. Many research protocols explore both peptides simultaneously for injury recovery.
A common research protocol:
- BPC-157: 250–500 mcg daily (subcutaneous near injury)
- TB-500: 2.5 mg twice weekly (subcutaneous)
- Duration: 4–8 weeks
The Bottom Line
| If your research focus is... | Consider |
|---|---|
| Gut healing / GI repair | BPC-157 (clear advantage) |
| Tendon injury | Both — complementary mechanisms |
| Muscle recovery | TB-500 (stronger satellite cell data) |
| Cardiac repair | TB-500 / TB-4 (unique progenitor cell activation) |
| General systemic healing | Both stacked |
| Neuroprotection | BPC-157 (dopaminergic interaction) |
| Oral administration needed | BPC-157 (only option) |
| Wound healing / anti-scarring | TB-500 (stronger anti-fibrotic data) |
Neither peptide is universally "better" — they excel in different contexts and work through different mechanisms. The strongest approach for broad healing research may be combining both.
Related Comparisons & Guides
- TB-4 vs TB-500 — Full peptide vs synthetic fragment: which is better for healing?
- Thymosin Beta-4 Research Guide — Complete deep dive into TB-4 mechanisms, dosing, and cardiac research
- Ipamorelin vs GHRP-2 vs GHRP-6 — If you're also exploring growth hormone peptides
- GHK-Cu — Another healing peptide often stacked with BPC-157 for skin and collagen repair
- LL-37 — Antimicrobial peptide with wound healing properties
This article is for educational and research purposes only. It is not medical advice.