CJC-1295 + Ipamorelin · 5mg/5mg blend vial · reconstitution · research use only
Reconstituting the CJC-1295 + Ipamorelin blend: one water volume, two peptides, a fixed ratio.
Titan's CJC-1295 + Ipamorelin ships pre-blended — 5mg of each compound lyophilized together in a single vial. That changes the reconstitution problem in one important way: when you add bacteriostatic water, both peptides dissolve into the same solution at the same time, locked at the 1:1 mass ratio they were blended at. You set one concentration and every draw carries both compounds together; you cannot dial them independently. This page works through the per-component mg/mL math for the common volumes, explains what the fixed ratio means for a research aliquot, and why a blend COA has to prove two peptides rather than one. It is a laboratory reference, not a human protocol or dosing advice.
Two peptides, one solution, one ratio
A pre-blended vial is not two compounds you combine yourself — it is 5mg CJC-1295 and 5mg Ipamorelin already lyophilized together. Add water and both go into the same solution at a fixed 1:1 mass ratio. Every microlitre you draw afterward carries both peptides in that same proportion. The reconstitution decision is therefore a single concentration choice that applies to the pair, not two separate calculations.
Why the two are paired →Per-component math, worked out
Add 2mL to the 5mg/5mg vial and you get 2.5mg/mL of CJC-1295 AND 2.5mg/mL of Ipamorelin (5mg/mL total peptide). On a U-100 syringe that's 25mcg of each per unit. A 10-unit (0.1mL) draw delivers 250mcg CJC-1295 + 250mcg Ipamorelin. Add 1mL and each component is 5mg/mL (50mcg of each per unit); add 3mL and each is ~1.67mg/mL. The table reports both components per row.
Blend research ranges →You can't tune them separately
Because the two peptides share one solution at a fixed ratio, there is no way to take more CJC-1295 and less Ipamorelin from this vial — the blend is the product. If a research design needs an independent ratio, that calls for separate single-compound vials, not a blend. This is the central practical fact about reconstituting any pre-mixed multi-peptide format, and it's worth stating before you add water.
CJC-1295 vs Ipamorelin →Add water gently, then store cold
Run the bacteriostatic water slowly down the vial wall and let the cake dissolve or swirl gently — never shake. The blend reconstitutes cleanly. Once in solution it is handled as a refrigerated preparation with a finite working window, where the lyophilized powder was stable far longer. Choose the water volume around how much of the pair you'll actually use before that window closes.
Storage & shelf-life notes →A blend COA must prove BOTH peptides
Concentration math assumes the vial really holds 5mg of each named compound. On a blend that is a harder COA question than on a single peptide: the release sheet must confirm CJC-1295 (and, separately, whether it is the no-DAC form) and Ipamorelin by mass, plus the ratio — a single purity number cannot describe a two-peptide mixture. Titan's blend ships HPLC-verified with mass-spec identity on a lot-matched sheet.
Blend COA red flags →Research-use framing
The CJC-1295 + Ipamorelin blend is supplied strictly as a research-use-only reagent. The reconstitution arithmetic here describes how to prepare a known concentration of the pair for in-vitro and modelling work — it is dilution math, not instructions for human use, and not a claim about any physiological effect. Nothing on this page is medical or dosing advice.
Research-use policy →The detail, in plain terms
One concentration, reported per peptide.
Every row sets the same water volume for both compounds at once — the 1:1 blend means each component shares the concentration. Reproduced as a laboratory reference for preparing a known concentration, not a human protocol.
- Vial contents
- 5mg CJC-1295 (no DAC) + 5mg Ipamorelin, pre-blended, one lyophilized vial.
- Add 1mL BAC water
- 5mg/mL each → 50mcg of each per U-100 unit (10mg/mL total peptide).
- Add 2mL BAC water
- 2.5mg/mL each → 25mcg of each per unit; 0.1mL = 250mcg CJC + 250mcg Ipa.
- Add 3mL BAC water
- ~1.67mg/mL each → ~16.7mcg of each per unit.
- Fixed ratio
- 1:1 by mass — both peptides move together; cannot be tuned separately from this vial.
- Diluent & storage
- Bacteriostatic water; add gently, no shaking; store reconstituted solution refrigerated.
Questions researchers ask
Before you order.
- How much bacteriostatic water do I add to a 5mg/5mg CJC-1295 + Ipamorelin vial?
- The water volume sets the concentration for both peptides at once. Adding 2mL gives 2.5mg/mL of each component — a clean 25mcg-of-each per U-100 unit. Adding 1mL gives 5mg/mL of each, and 3mL gives roughly 1.67mg/mL of each. Because it's a blend, one volume choice applies to the pair; you don't reconstitute the two compounds separately.
- Can I draw more CJC-1295 than Ipamorelin from the blend?
- No. The two peptides are dissolved together in one solution at a fixed 1:1 mass ratio, so every draw carries both in that same proportion. There is no way to take a different ratio from a blended vial — if a research design needs an independent ratio, it requires separate single-compound vials rather than the pre-mixed format.
- What does a 0.1mL draw of the reconstituted blend contain?
- At 2.5mg/mL each (a 5mg/5mg vial in 2mL), a 0.1mL draw — 10 units on a U-100 syringe — delivers 250mcg of CJC-1295 and 250mcg of Ipamorelin together. The per-unit value is 25mcg of each. Change the water volume and both per-component figures scale in step, always staying 1:1.
- Why does a blend need a different COA than a single peptide?
- Because one purity number cannot describe a two-peptide mixture. A blend COA must confirm each compound by mass — including whether the CJC-1295 is the no-DAC form, which is a different molecule by weight — plus the ratio between them. A sheet that reports only a single purity figure has not actually verified that both peptides are present in the stated amounts.
- Is the CJC-1295 + Ipamorelin blend approved for human use?
- Titan Peptide Lab supplies the blend strictly as a research-use-only reagent for in-vitro laboratory work — not for human or animal consumption, and not for diagnostic, therapeutic, or preventative use. The reconstitution math on this page is a laboratory preparation reference, not medical or dosing advice.