How long does TB-500 stay in your system?

TB-500 has an estimated subcutaneous half-life of 2 to 3 hours, but its downstream effects on actin regulation and cell migration persist for days to weeks.

Can TB-500 be combined with BPC-157?

Yes. The two are commonly stacked together — BPC-157 promotes angiogenesis while TB-500 regulates actin and cell migration. They work through complementary, non-competing pathways.

TB-500 is not an FDA-approved drug for human use. It is banned by WADA for athletic competition and is sold in the US only as a research chemical.

TB-500 (Thymosin Beta-4): dosing, half-life, stacks & side effects

01 · Quick overview

The TL;DR.

What it is

A synthetic version of Thymosin Beta-4, a naturally occurring peptide present in nearly all human and animal cells. Primary role: actin regulation, cell migration, and tissue repair.

Half-life

Unknown in humans unknown; estimated 1–2 days from animal models emerging

Typical dose

2.5–5 mg twice weekly, subcutaneous community

Status

Investigational. WADA-prohibited. Not FDA-approved.

Who it's for

Individuals seeking accelerated recovery from large muscle tears, systemic inflammation, or severe soft-tissue injuries.

Biggest risk

Theoretical metastasis acceleration. Tβ4 is highly expressed in metastatic cancer cells — exogenous TB-500 could promote spread of existing, undiagnosed cancers.

TB-500 is the synthetic equivalent of Thymosin Beta-4 (Tβ4), a peptide that regulates actin. By upregulating actin, TB-500 promotes the migration of cells to the site of an injury, reduces inflammation, and accelerates the healing of muscle, tendon, and skin tissue well-established in animal models.[1]

While BPC-157 is often used for localized tendon/ligament repair, TB-500 is favored for larger muscle-belly tears and systemic, full-body recovery due to its longer half-life and systemic distribution. Like BPC-157, however, it lacks significant human clinical data and holds no FDA approval.[2]

02 · Protocol & usage guide

How it's actually used.

Important

TB-500 is an investigational compound with no established human dosing guidelines. The protocols below reflect community consensus and observational data, not medical advice.

Before you start

Identify the goal. TB-500 is best suited for muscle tears and systemic inflammation.
Understand the regulatory status. TB-500 cannot be legally prescribed or compounded in the US.
Check your sport's rules. TB-500 is prohibited by WADA and most major sporting organizations.

Standard community dosing

LevelDoseFrequency & routeCycle

Beginner2.5 mg2×/week (Mon/Thu) · subcutaneous4–6 wk

Intermediate5 mg2×/week (Mon/Thu) · subcutaneous4–6 wk

Advanced5 mg2×/week · subcutaneous6–8 wk

Because of its longer half-life, TB-500 is typically dosed twice weekly rather than daily. community

Reconstitution math (injectable)

TB-500 typically arrives as a lyophilized powder in a 5 mg or 10 mg vial. It must be reconstituted with bacteriostatic water.

For a 5 mg vial · target 2.5 mg dose

Add 2 mL of bacteriostatic water to the vial.
Final concentration: 2.5 mg/mL.
For a 2.5 mg dose: pull to the "100" mark on a 1 mL (100-unit) insulin syringe ≈ 1.0 mL (the entire syringe).

Injection site selection

Community consensus: subcutaneous injection into abdominal fat is the standard approach. Because TB-500 acts systemically, local injection near the injury site is not considered necessary. community

Safety note

Ensure proper sterile technique. Rotate injection sites to prevent lipohypertrophy.

Missed doses

Missed 1 day: take the normal dose the next day.
Missed 3+ days: resume the normal twice-weekly protocol.

Community consensus and real-world experience

In community discussions, TB-500 is highly regarded for its ability to heal large muscle tears (pectoral, hamstring) and reduce systemic joint inflammation. Users often report increased flexibility and reduced stiffness. community[9] It is almost universally stacked with BPC-157 for severe injuries. community[10]

epti

Track your protocol

Log every TB-500 injection on your recovery timeline.

Twice-weekly dosing for 6–8 weeks is hard to remember without a schedule. Epti tracks each injection alongside training load and pain ratings.

Join waitlist →

03 · Nutritional support & supplements

What to eat alongside.

Macronutrient adjustments

Protein — 1.6–2.2 g/kg of body weight per day to support tissue regeneration.

Micronutrient adjustments

Vitamin C — 500–1,000 mg daily. Essential for collagen synthesis, which TB-500 upregulates during the healing process.

Synergistic supplements

Collagen peptides — 15–20 g daily, taken 60 min before rehab exercises.

Protective supplements

No data available — TB-500 has no known organ toxicity requiring specific protective supplements based on current animal models.

04 · Safety, interactions & side-effects

What can go wrong.

Critical

The safety profile of TB-500 in humans is based on extremely limited Phase 1 data. Long-term risks are unknown.

Reported side effects

EffectFrequencySeverityManagement

Injection-site reaction Occasional community Sterile technique; rotate sites

Fatigue / lethargy Occasional community Dose at bedtime

Head rush Rare community Rest after injection

Drug interactions

No formally documented drug interactions.

Contraindications

Absolute

Active cancer or history of cancer — TB-500 promotes cell migration and angiogenesis, which could theoretically accelerate tumor metastasis

Relative

Autoimmune conditions (due to immunomodulatory effects)

Red flags

Stop immediately if

Rapid, unexplained swelling or heat at the injection site (signs of infection)
Severe allergic reaction — hives, difficulty breathing

Pregnancy, lactation & fertility

No data available — TB-500 has not been studied in pregnant or lactating women, nor has its effect on human fertility been evaluated. It should be strictly avoided in these populations.

Theoretical risks

Cancer metastasis. Because Thymosin Beta-4 is highly expressed in metastatic cancer cells (aiding their migration), there is a theoretical risk that exogenous TB-500 could promote the spread of existing, undiagnosed cancers. emerging[3]

05 · Stacks & combinations

What to combine it with.

Stack 1 · soft-tissue healing

TB-500 + BPC-157 "Wolverine"

TB-500 2.5 mg 2×/wk BPC-157 500 mcg/day 6–8 wk cycle

The most popular healing stack in the peptide community. BPC-157 promotes angiogenesis; TB-500 regulates actin and cell migration. They work through complementary pathways. community[10]

Stack 2 · skin & anti-inflammatory

TB-500 + GHK-Cu

TB-500 2.5 mg 2×/wk GHK-Cu 1–2 mg/day

GHK-Cu stimulates collagen production; TB-500 reduces systemic inflammation and promotes cell migration. community

Stack 3 · full systemic recovery

TB-500 + Ipamorelin / CJC-1295

TB-500 2.5 mg 2×/wk Ipamorelin 100 mcg, 1–2×/day CJC-1295 100 mcg

Combines the actin-regulating properties of TB-500 with the GH-elevating properties of the secretagogues for maximum recovery support. community

Anti-pattern stacks — avoid

Critical

TB-500 + active cancer. Theoretical risk of accelerating tumor metastasis via actin regulation and cell migration pathways.

06 · Body composition & training

How to train on it.

TB-500 is not a fat-loss or muscle-building peptide. Its sole role is recovery and healing.

Expected trajectory

Weeks 1–2Potential reduction in systemic inflammation and joint stiffness.

Weeks 3–6Improved mobility and faster recovery from muscle tears.

Training adjustments

Do not mask pain. Like BPC-157, TB-500 can reduce pain. Returning to heavy lifting too quickly can result in a re-tear.

Cut / recomp / bulk contexts

No data available — TB-500 does not directly influence caloric partitioning, fat oxidation, or muscle hypertrophy, making it neutral across all dietary phases.

07 · Storage, handling & accessibility

How to store it.

Pre-reconstitution · lyophilized powder

-20 °C

Long-term freezer storage, up to 24 months.

Post-reconstitution · solution

2–8 °C

Refrigerate. Beyond-use date: 28 days. Do not freeze reconstituted solution.

Light & freeze sensitivity

Light — keep vials away from direct sunlight.
Freeze — do not freeze the reconstituted solution.

Sourcing & legal access

United States. Investigational new drug. Not approved for human use. Cannot be legally compounded.
Cost-per-cycle (USD). Typically $100–$200 per month via research-chemical vendors (more expensive than BPC-157).
Global. Not approved as a human therapeutic in any major jurisdiction.

08 · Bloodwork monitoring

What to track.

Because TB-500 is typically used for short cycles (4–8 weeks) and has no known organ toxicity, no specific blood markers are required for monitoring.

Baseline panel

MarkerWhy it mattersRed flag

Comprehensive Metabolic Panel (CMP)Confirm baseline liver and kidney function.AST/ALT > 3× ULN

CRP / ESREstablish a baseline for systemic inflammation.—

Mid-cycle panel

No data available — mid-cycle testing is not standard practice for TB-500.

Post-cycle panel

MarkerWhy it mattersRed flag

CRP / ESRAssesses whether systemic inflammation has resolved.Sustained elevation

Doctor handoff

Print this. Hand it to your physician.

Patient is utilizing TB-500 (Thymosin Beta-4), an investigational actin-sequestering peptide, for soft-tissue repair. The compound is not FDA-approved and lacks human safety data. Standard CMP monitoring is advised to ensure no adverse reactions to the unregulated product.

09 · Comparison

vs. similar compounds.

	TB-500	BPC-157	GHK-Cu	KPV
Primary mechanism	Actin regulation, cell migration	Angiogenesis, receptor upregulation	Collagen synthesis	Anti-inflammatory, mast-cell stabilization
Best for	Muscle tears, systemic inflammation	Tendons, ligaments, gut lining	Skin repair, cosmetic recovery	IBD, psoriasis, allergic responses
Route	SC	SC (injuries) / oral (gut)	SC or topical	SC, oral, or topical
Half-life	Long (days)	Short (minutes/hours)	Short	Short

When to pick TB-500

Choose TB-500 for large muscle-belly tears or systemic, full-body inflammation.

When to pick BPC-157

Choose BPC-157 for localized, avascular tissue injuries (Achilles tendon, rotator cuff) or for gastrointestinal healing.

When to pick GHK-Cu

Choose GHK-Cu for skin repair and cosmetic recovery.

When to pick KPV

Choose KPV specifically for autoimmune-driven inflammation or mast-cell activation.

10 · Deep dive

What the mechanism looks like.

Mechanism of action

TB-500 is a synthetic version of Thymosin Beta-4, a 43-amino acid peptide. Its primary mechanism of action is actin sequestration. It binds to G-actin monomers, preventing them from polymerizing into F-actin, which regulates the cellular cytoskeleton.[1]

By controlling actin dynamics, TB-500 promotes cell migration (particularly endothelial cells and keratinocytes) to the site of injury. It also reduces inflammation and promotes angiogenesis.[4]

Pharmacokinetics

No formal human pharmacokinetic studies have been published for TB-500 specifically. unknown In animal models, it has a longer half-life than BPC-157, which supports the twice-weekly dosing protocol used in the community.

Active metabolites

No data available — specific metabolic breakdown pathways in humans are not fully characterized.

Human clinical trials

Human clinical data for TB-500 is extremely limited.

Study	n	Duration	Population	Result
Ruff et al. (2010)	Small	Single + multi-dose	Healthy volunteers	Well tolerated. No serious adverse events. Phase 1.

Key animal studies

Study	Model	Endpoint	Result
Philp et al. (2003)	Mice	Wound healing	Accelerated dermal healing and angiogenesis
Smart et al. (2007)	Mice	Cardiac repair	Promoted cardiomyocyte survival post-infarction
Sosne et al. (2002)	Rats	Corneal healing	Accelerated corneal re-epithelialization

Open questions

Does the theoretical risk of cancer metastasis hold true at therapeutic doses in humans?
What is the actual subcutaneous bioavailability and half-life in humans?

11 · FAQ

Frequently asked.

TB-500 vs BPC-157: which is better?

They serve different purposes. BPC-157 is better for localized tendon/ligament injuries and gut health. TB-500 is better for large muscle tears and systemic inflammation. They are often stacked together.

How much TB-500 should I take?

The standard community protocol is 2.5 mg to 5 mg per week, typically divided into two subcutaneous injections (e.g., Monday and Thursday).

Does TB-500 build muscle?

No. It does not have direct anabolic properties. It aids in the repair of damaged muscle tissue but will not cause hypertrophy on its own.

Is TB-500 safe?

It has been well-tolerated in animal models and a small Phase 1 human trial, but long-term human safety data is completely lacking.

Does TB-500 cause cancer?

There is no evidence that it causes cancer. However, because it promotes cell migration and angiogenesis, there is a theoretical risk that it could accelerate the spread (metastasis) of existing cancers.

Does TB-500 need to be refrigerated?

Yes — once reconstituted with bacteriostatic water, it must be kept in the refrigerator and used within 28 days.

How long does it take TB-500 to work?

Users often report initial reductions in systemic inflammation within 1–2 weeks. Structural healing of muscle tears requires the full 4–8 week cycle.

12 · Regulatory & legal status

Where it stands, by jurisdiction.

Last verified · May 17, 2026

AgencyStatusDetails

US FDAUnapprovedInvestigational new drug. Not approved for human use.

US DEANot scheduledNot a controlled substance.

UK MHRAUnapprovedNot licensed as a medicine.

EU EMAUnapprovedNot authorized for medical use.

Health CanadaUnapprovedNot authorized for sale.

Australia TGAUnapprovedNot entered on the ARTG.

WADABannedProhibited under S2 (Peptide Hormones, Growth Factors).

NCAABannedFollows WADA guidelines.

NFL, MLB, NBABannedClassified as a performance-enhancing substance.

13 · Decision tree

Is TB-500 for you?

Are you a drug-tested athlete?

Yes

STOP — TB-500 is banned by WADA

No → Active cancer or history of cancer?

Yes

STOP — theoretical metastasis risk

No → What's your primary goal?

Fat loss / muscle growth

STOP — TB-500 does not build muscle or burn fat

Localized tendon injury

Consider BPC-157 instead

Large muscle tear / systemic inflammation

TB-500 is the community standard

Q1. Are you subject to anti-doping testing?

If yes, stop. TB-500 is banned by WADA and will result in a doping violation.

Q2. Do you have active cancer or a history of cancer?

If yes, stop. TB-500 promotes cell migration, which carries a theoretical risk of accelerating metastasis.

Q3. Are you looking for a performance enhancer to build muscle or burn fat?

If yes, stop. TB-500 has no direct anabolic or lipolytic properties.

Q4. Are you trying to heal a localized tendon or ligament injury?

If yes, BPC-157 is generally preferred over TB-500 for localized, avascular tissue repair.

Q5. Are you trying to heal a large muscle tear or systemic inflammation?

If yes, TB-500 is considered the gold standard in the peptide community for this purpose.

14 · References

What we cited.

Goldstein A.L., Hannappel E., Kleinman H.K. (2005). Thymosin beta-4: actin-sequestering protein moonlights to repair injured tissues. Trends Mol Med. 11(9):421–429. PMID: 16043407.
Ruff D., Crockford D., Girardi G., Zhang Y. (2010). A randomized, placebo-controlled, single and multiple dose study of intravenous thymosin beta-4 in healthy volunteers. Ann NY Acad Sci. 1194:223–229. PMID: 20536470.
Cha H.J., Jeong M.J., Kleinman H.K. (2003). Role of thymosin beta-4 in tumor metastasis and angiogenesis. J Natl Cancer Inst. 95(22):1674–1680. PMID: 14625258.
Philp D. et al. (2003). Thymosin beta 4 induces angiogenesis in vivo and in vitro. FASEB J. 17(14):2112–2114.
Smart N. et al. (2007). Thymosin beta-4 induces adult epicardial progenitor mobilization and neovascularization. Nature. 445(7124):177–182.
Sosne G. et al. (2002). Thymosin beta-4 promotes corneal wound healing and decreases inflammation in vivo following alkali injury. Exp Eye Res. 74(2):293–299.
Reddit r/Biohackers. "My experience with TB500/BPC157." Accessed May 17, 2026.
Reddit r/PlantarFasciitis. "BPC-157 and TB-500 therapy log." Accessed May 17, 2026.