Weight
GLP-3
Metabolic
Healing
core
Skin
MT-1
Longevity
mot
Metabolic
For research purposes only.
Peptide Mind does not endorse this protocol. This is a user-generated research reference — not for human consumption or therapeutic use.
Weekly Schedule
Day-of-week breakdown for each peptide in this protocol.
GLP-3
GLP-3
evening
subcutaneous
0.5 iu
- Cycle Duration
- 0 days
core
BPC-157, KPV, TB-500 (Coremend)
morning
subcutaneous
300 mcg
- Cycle Duration
- 0 days
MT-1
Melanotan I
evening
subcutaneous
16 mg
- Cycle Duration
- 0 days
mot
MOTS-c
morning
subcutaneous
5 mg
- Cycle Duration
- 0 days
Know exactly what to draw
Enter your vial concentration and we'll calculate the precise injection volume for every peptide in this protocol.
Protocol Body Targets
The biological systems and tissue targets addressed by the 4 peptides in this protocol.
6
Body Targets
4 peptides
Metabolic
Regulates fat metabolism, insulin sensitivity, and energy use.
GLP-3, MOTS-c
Gut
Supports gut lining integrity, digestion, and the gut-brain axis.
GLP-3, BPC-157, KPV, TB-500 (Coremend)
Immune
Modulates immune cell activity and inflammatory responses.
BPC-157, KPV, TB-500 (Coremend)
Muscle
Enhances muscle growth, repair, and recovery after exercise.
BPC-157, KPV, TB-500 (Coremend), MOTS-c
Joints & Bone
Supports cartilage integrity, bone density, and joint mobility.
BPC-157, KPV, TB-500 (Coremend)
Skin
Promotes collagen synthesis, wound healing, and skin elasticity.
Melanotan I
Protocol targeted areas
Build your own protocol
Create a custom peptide stack tailored to your goals. Add peptides, set dosages, and share it with the community.
Build your own protocol
Create a custom peptide stack tailored to your goals. Add peptides, set dosages, and share it with the community.
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Frequently asked questions
What is a peptide dosage calculator?
A peptide dosage calculator is a free tool that converts your vial size, bacteriostatic water volume, and target dose into an exact syringe draw volume. Instead of doing the reconstitution math by hand, you enter three inputs and instantly get the concentration of your solution and how many milliliters or syringe units to draw. This calculator works for single peptide compounds and multi-peptide blends.
How do I calculate peptide dosage from a vial?
To calculate your peptide dose, divide the total peptide content of your vial in micrograms by the volume of bacteriostatic water you added in milliliters. This gives you your solution concentration in mcg/mL. Then divide your target dose by that concentration to get your draw volume. For example, a 5mg (5,000 mcg) vial reconstituted with 2mL of BAC water gives a concentration of 2,500 mcg/mL. A 250 mcg dose would require drawing 0.1mL. This calculator automates all of those steps instantly.
How much Bacteriostatic water should I add to a peptide vial?
Most people add 2mL to 3mL of bacteriostatic water per vial, but the right amount depends on the dose you want to draw and the syringe size you are using. Adding 1mL to a 5mg vial gives you a concentration of 5,000 mcg/mL, making each dose very small in volume. Adding 2mL gives you 2,500 mcg/mL, which is easier to measure on a standard insulin syringe. A general guideline is to choose a volume that puts your typical dose somewhere between 10 and 30 units on a U-100 syringe. Use the calculator above to test different water volumes and find what works for your dose.
How are peptides different from proteins?
Both are made of amino acids, but peptides are much smaller than proteins. Because of their tiny size, peptides can act like tiny messengers in the body, sending specific signals to your cells to tell them exactly what to do.