Research Reconstitution Tool
GLOW Reconstitution Calculator
Calculate the reconstitution concentration of the GLOW research blend (GHK-Cu + BPC-157 + TB-500, 70 mg). Set your bacteriostatic-water volume and read the mg/ml and the per-component mass at every syringe mark. Research Use Only.
U100 insulin syringe (1 ml). The liquid shade reflects the concentration; each mark is labelled with the mass it holds at that concentration — not an amount to administer.
Research Use Only. This tool calculates the concentration of a reconstituted laboratory solution and the mass each syringe mark holds at that concentration. It does not provide, recommend, or imply any amount to administer. For in-vitro research use only — not for human or veterinary use.
How this calculator works
Set the volume of bacteriostatic water you plan to add to the vial. The tool divides the vial’s milligram strength by that volume to give the concentration of the resulting solution in mg/ml, the mass contained in one U100 syringe unit, and a reference table mapping every syringe mark to the mass it holds at that concentration. Adding more water lowers the concentration; adding less raises it. Volume is the input and mass is the result — the calculator never works backward from a target amount.
GLOW is a three-peptide research blend (GHK-Cu, BPC-157 and TB-500) supplied in a single 70 mg vial. Because the three peptides are co-formulated at a fixed ratio, the table breaks down the mass of each peptide at every mark alongside the combined total, all at the same concentration.
Frequently asked questions
What exactly does this tool calculate?
It calculates a property of the reconstituted solution: its concentration (mg/ml), the mass in one U100 unit, and the mass each syringe mark contains at that concentration. It does not provide or imply any amount to administer.
How is the GLOW blend shown in the table?
Each row lists the mass of GHK-Cu, BPC-157 and TB-500 separately at that mark, plus the combined total. The split follows the fixed 50 / 10 / 10 mg composition of the 70 mg vial.
Does more water make the solution stronger or weaker?
Weaker. Concentration is milligrams divided by millilitres, so a larger water volume spreads the same mass across more liquid — lower mg/ml at every mark.
What water is used to reconstitute research peptides?
Bacteriostatic water — sterile water containing 0.9% benzyl alcohol as a preservative — is the standard laboratory reconstitution solvent. Add it slowly down the inside of the vial wall and let the powder dissolve without shaking.
How is the reconstituted solution stored?
Keep the reconstituted solution refrigerated at 2–8°C and protected from light. Most peptide solutions hold stability for up to 30 days refrigerated; aliquot before freezing to avoid repeated freeze-thaw cycles. The lyophilized vial itself is stored at −20°C until reconstituted.
