Free Research Tool

Peptide Calculator

Accurately calculate reconstitution dosages for your research peptides. Select your peptide, set your parameters, and get precise syringe measurements instantly.

Reconstitution Calculator

Select your parameters below — results update instantly

Select Peptide

Choose from our catalog or select Custom

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Syringe Size

Select your insulin syringe type

0.3 mL

30 units

0.5 mL

50 units

1.0 mL

100 units

Peptide Vial Size

Total mg of peptide in your vial

Bacteriostatic Water

Volume of BAC water added to the vial

Desired Dose Per Injection

Amount of peptide per dose

mcg

250 mcg = 0.25 mg

✓ Within syringe capacity

Draw Syringe To

2.5units

Volume to Inject

0.025mL

Concentration

2.5mg/mL

Doses Per Vial

20doses

⚠ The calculated dose exceeds your syringe capacity. Choose a larger syringe or reduce the dose.

This calculator is provided for research and educational purposes only. It is not intended as medical advice. All peptide products are sold strictly for laboratory research use. Always verify calculations independently before use in any research protocol.

How It Works

Three simple steps to calculate your reconstitution dosage

Select Your Peptide

Choose from our catalog to auto-fill recommended parameters, or enter custom values manually.

Set Parameters

Adjust vial size, bacteriostatic water volume, desired dose, and syringe type to match your setup.

Read Your Results

Instantly see how many units to draw, the solution concentration, and how many doses your vial contains.

Peptide Reconstitution Guide

Step-by-step instructions for reconstituting lyophilized peptides

Ensure you are working in a clean, sanitized area. Gather all necessary supplies before beginning:

Lyophilized peptide vial
Bacteriostatic water (BAC water with 0.9% benzyl alcohol)
Sterile insulin syringe (0.3mL, 0.5mL, or 1.0mL)
Alcohol swabs for disinfection
Clean gloves

Allow both the peptide vial and bacteriostatic water to reach room temperature before reconstitution. This prevents thermal shock to the peptide structure.

Remove the plastic cap from the peptide vial to expose the rubber stopper
Wipe the stopper with an alcohol swab and allow to air dry
Do the same for the bacteriostatic water vial

Using your sterile syringe, draw the desired amount of bacteriostatic water (use our calculator above to determine the right amount).

Insert the needle into the peptide vial at a slight angle
Slowly dispense the water down the inner wall of the vial — do not spray directly onto the powder
Gently swirl the vial until the peptide is fully dissolved — never shake vigorously
The solution should be clear. If cloudy, allow more time to dissolve

Unreconstituted (powder): Store at 2–8°C for short-term, or -20°C for long-term storage
Reconstituted (solution): Refrigerate at 2–8°C and use within 28 days for optimal stability
Avoid repeated freeze-thaw cycles
Protect from direct light exposure
Always use a new sterile syringe for each withdrawal from the vial

Frequently Asked Questions

Common questions about peptide reconstitution and dosage calculation

Reconstitution is the process of dissolving a lyophilized (freeze-dried) peptide powder with a sterile solvent, typically bacteriostatic water. This creates an injectable solution at a known concentration, allowing precise dosage measurement using an insulin syringe.

The amount depends on your desired concentration and dose. Common guidelines:

Standard peptides (5–10mg vials): 1–3 mL of BAC water
GLP-1 peptides (Semaglutide, Tirzepatide): 1–2 mL for higher concentration
Large vials (50mg+): 2–5 mL

More water = lower concentration = easier to measure small doses. Less water = higher concentration = fewer injections per vial. Use our calculator to find the optimal amount.

Insulin syringes are marked in “units.” A standard U-100 insulin syringe has 100 units per 1 mL:

1.0 mL syringe: 100 units total, marks every 2 units
0.5 mL syringe: 50 units total, marks every 1 unit
0.3 mL syringe: 30 units total, marks every 1 unit (best for small doses)

To convert: Units = mL × 100. So 0.25 mL = 25 units, and 0.05 mL = 5 units.

When stored properly at 2–8°C (standard refrigerator), most reconstituted peptides remain stable for approximately 28 days. The benzyl alcohol preservative in bacteriostatic water helps prevent microbial growth. For longer storage, some peptides can be frozen at -20°C for up to 3–4 months, though repeated freeze-thaw cycles should be avoided.

1 mg = 1,000 mcg (micrograms). Common conversions:

0.1 mg = 100 mcg
0.25 mg = 250 mcg
0.5 mg = 500 mcg
1 mg = 1,000 mcg
2.5 mg = 2,500 mcg
5 mg = 5,000 mcg

0.3 mL (30 units): Best for micro-dosing and very small volumes. Each mark represents 0.5–1 unit, giving maximum precision.
0.5 mL (50 units): The most common choice. Good balance of precision and capacity for most peptide doses.
1.0 mL (100 units): Best for larger volume injections. Useful for higher-dose peptides or when using less BAC water.

Choose the smallest syringe that comfortably holds your dose for the most accurate measurement.

The calculator uses standard reconstitution formulas:

Concentration = Vial Size (mg) ÷ BAC Water (mL) = mg/mL
Volume to Inject = Desired Dose (mg) ÷ Concentration (mg/mL) = mL
Syringe Units = Volume (mL) × 100 = units (on a U-100 syringe)
Doses Per Vial = Vial Size (mg) ÷ Dose Per Injection (mg)

Example: A 5mg vial reconstituted with 2mL BAC water gives a concentration of 2.5 mg/mL. For a 250 mcg (0.25 mg) dose: 0.25 ÷ 2.5 = 0.1 mL = 10 units on the syringe. The vial contains 5 ÷ 0.25 = 20 doses.

Yes. This calculator uses the same standard reconstitution formulas used in pharmaceutical compounding. The math is straightforward unit conversion. However, always double-check your calculations before use in any research protocol, and ensure your measuring instruments (syringes) are properly calibrated and appropriate for the volume being measured.

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