TB-500 (10mg Vial)

Accelerated muscle recovery
TB-500 stands out in modern regenerative medicine as a high-performance healing facilitator. Its main advantage is its ability to accelerate processes the body would naturally take months to complete.

Key Benefits
Promotes regeneration of muscle tissue, tendons, and ligaments, including in areas with low blood flow.
Reduces systemic and local inflammation, contributing to less pain and stiffness.
Increases flexibility and helps prevent fibrous scar tissue formation, supporting mobility.
Stimulates angiogenesis, increasing the supply of oxygen and nutrients to tissues.
Acts systemically, reaching multiple sites of injury and inflammation throughout the body.

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Gut Health & Regenerative Research

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Accelerated muscle recovery
TB-500 stands out in modern regenerative medicine as a high-performance healing facilitator. Its main advantage is its ability to accelerate processes the body would naturally take months to complete.

Key Benefits
Promotes regeneration of muscle tissue, tendons, and ligaments, including in areas with low blood flow.
Reduces systemic and local inflammation, contributing to less pain and stiffness.
Increases flexibility and helps prevent fibrous scar tissue formation, supporting mobility.
Stimulates angiogenesis, increasing the supply of oxygen and nutrients to tissues.
Acts systemically, reaching multiple sites of injury and inflammation throughout the body.

Technical Details

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RECONSTITUTION, DOSING AND STORAGE OF PEPTIDES IN A VIAL
 (General guidance – not peptide-specific)

1. INTRODUCTION
Peptides supplied in a vial (a glass vial containing lyophilised powder) are not ready for immediate use.
 Before administration, it is mandatory to carry out reconstitution, which is the process of converting the lyophilised powder into a sterile liquid solution.
Correct reconstitution is essential to ensure:
Safe use
Peptide stability
Accurate dosing
Protocol effectiveness

⚠️ Incorrect preparation may result in inaccurate dosing and reduced effectiveness.

2. REQUIRED MATERIALS
Vial containing the lyophilised peptide
Bacteriostatic Water
    Contains approximately 0.9% benzyl alcohol
    Helps inhibit bacterial growth
Insulin syringe (100 units = 1 mL)
Sterile needle
Clean, hygienic environment

3. WHAT RECONSTITUTION IS
Reconstitution is the controlled addition of bacteriostatic water to the lyophilised powder, creating a liquid solution suitable for subcutaneous use.

4. GENERAL RULE FOR CALCULATING CONCENTRATION
Basic formula:
 Amount of peptide (mg) ÷ Volume of water (mL) = Concentration (mg/mL)
This concentration is used to calculate the correct dose in the syringe.

5. CORRECT RECONSTITUTION TECHNIQUE
⚠️ IMPORTANT: PEPTIDES ARE FRAGILE MOLECULES
Recommended procedure:

  1. Draw the desired volume of bacteriostatic water into the syringe.
  2. Insert the needle into the vial.
  3. Allow the water to run slowly down the inner wall of the vial.
  4. Do not direct the stream straight onto the powder.
  5. Do not shake the vial.

Gently roll the vial between your fingers until fully dissolved.
**Vigorous shaking may cause peptide degradation.

6. CONVERSION FOR AN INSULIN SYRINGE
 1 mL = 100 units
The amount of peptide per unit depends on the final concentration after reconstitution.
Always calculate dosing based on the concentration (mg/mL).

7. STORAGE AFTER RECONSTITUTION
Keep refrigerated between 2°C and 8°C
Do not freeze
Keep the vial tightly sealed
Protect from light, especially for photosensitive peptides

8. FINAL CONSIDERATIONS

  • Always follow the correct preparation technique
  • Use bacteriostatic water only
  • Maintain strict accuracy in dose calculations
  • Use should be carried out under professional supervision

 

Pre-clinical studies on thymosin beta-4 (Tβ4)—the molecule from which TB-500 is derived—describe investigations into tissue repair, cell migration, and angiogenesis.
TB-500 Thymosin Beta-4
Reconstitution, Dosage and Administration
Dosage Used in Protocols
Standard dose: 2.0 to 2.5 mg per administration
Most commonly used frequency:
•Initial phase: 2 to 3 administrations per week
•Maintenance phase: 1 to 2 administrations per week
Route of administration: Subcutaneous
Duration of Use
Typical protocol duration: 4 to 6 weeks
In structured protocols, the duration may be extended to up to 8 weeks, depending on the intended use strategy.
The initial phase generally involves more frequent dosing, followed by a maintenance phase with reduced frequency.
Product Reconstitution
Recommended Reconstitution
•Vial content: 10 mg
•Dilution: Add 4.0 mL of bacteriostatic water
Final Concentration
10 mg ÷ 4.0 mL = 2.5 mg/mL
Conversion for Insulin Syringe (U-100)
•1.0 mL = 100 IU
•Each IU contains 0.025 mg (25 mcg) of TB-500
Syringe Dose Reference
Desired Dose Volume (mL) Syringe Marking
1.0 mg 0.40 mL 40 IU
2.0 mg 0.80 mL 80 IU
2.5 mg (common dose) 1.0 mL 100 IU
Injection Site
Subcutaneous route
Subcutaneous administration is performed into the adipose tissue layer just beneath the skin.
Common injection sites:
•Abdomen (lateral area, away from the navel)
•Front or lateral thigh
•Flank region
General Guidance
•Rotate injection sites
•Administer into clean skin
•Use appropriate needles for subcutaneous administration
Technical Summary
Peptide: TB-500
Standard dose: 2.0–2.5 mg
Frequency: 2–3 times weekly (initial) | 1–2 times weekly (maintenance)
Duration: 4–6 weeks
Reconstitution: 4.0 mL bacteriostatic water
Final concentration: 2.5 mg/mL
Syringe: U-100 insulin syringe
Route: Subcutaneous

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