Dosage Calculator


HOW TO USE OUR PEPTIDE CALCULATOR

Research Calculation Guide

Our calculator is designed to help you:

  1. Convert vial amount + reconstitution volume into a clear concentration
  2. Translate a target reference amount into a measurable volume (mL / syringe units)

This tool is provided for calculation consistency only.

What You'll Need

Before using the calculator, have the following ready:

  • Vial content (e.g. 5 mg, 10 mg, 20 mg, 100 mg, 500 mg)
  • Reconstitution volume (mL of bacteriostatic water added)
  • Target reference amount (mg or mcg) from your research protocol or literature
  • Syringe scale
    Most insulin syringes are 1.0 mL = 100 units

Step-by-Step (Most Common Workflow)

  1. Select compound (optional), or choose Custom if your vial differs from defaults
  2. Enter vial amount (e.g. 10 mg)
  3. Enter reconstitution volume in mL (e.g. 2 mL)
  4. Calculator outputs concentration
    e.g. 5 mg/mL or 5000 mcg/mL
  5. Enter target reference amount (example: 500 mcg)
  6. Calculator outputs:Volume to withdraw (mL)Units on a 100-unit insulin syringe
  7. Example output:0.10 mL10 units

Sanity Checks (Quick Accuracy Tests)

Use these to confirm inputs:

  • Doubling the reconstitution volume → concentration halves
  • Doubling the target amount → withdrawal volume doubles

Common Mistakes to Avoid

  • mg vs mcg confusion
    1 mg = 1000 mcg
  • Entering reconstitution volume in the wrong unit
    Calculator uses mL only
  • Assuming syringe "units" equal mg
    Units are a scale — dose depends on concentration

Tip

If your protocol is written in mcg but your vial is labeled in mg:

  • Convert manually: mg × 1000 = mcg, or
  • Let the calculator handle the unit conversion (if supported)

(click dropdowns to reveal info)

Reconstitution and Calculator Guidelines

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Storage & Stability Requirements

Optimal Storage Conditions

Research peptides require specific environmental conditions to maintain their integrity and potency:

  • Temperature: Store at 2-8°C (refrigerator) or -20°C (freezer) for extended stability
  • Light Protection: Keep in amber or opaque containers away from direct sunlight
  • Humidity: Maintain dry conditions; use desiccant packets in storage containers
  • Sterility: Use sterile techniques when handling to prevent contamination

Shelf Life: Properly stored peptides typically remain stable for 12-24 months. Lyophilized peptides are more stable than solutions.

Preparation & Reconstitution

Step-by-Step Reconstitution Guide

Proper reconstitution is critical for accurate dosing and research validity:

  1. Calculate Volume: Determine the volume of solvent needed based on desired concentration
  2. Select Solvent: Use sterile water, bacteriostatic water, or saline solution as appropriate
  3. Aseptic Technique: Work in a clean environment; use sterile syringes and needles
  4. Slow Mixing: Add solvent slowly to the peptide vial, allowing it to dissolve gradually
  5. Gentle Agitation: Gently swirl (do not shake vigorously) until fully dissolved
  6. Verify Clarity: Solution should be clear; cloudiness may indicate contamination

Concentration Calculation: Use our peptide calculator tool to determine exact volumes for your research needs.

Handling Best Practices

Safe Handling Protocols

Maintain research integrity and safety with these essential practices:

  • Personal Protective Equipment: Always wear gloves, lab coat, and eye protection
  • Sterile Technique: Use aseptic procedures to prevent bacterial or fungal contamination
  • Proper Labeling: Clearly label all solutions with peptide name, concentration, date, and expiration
  • Documentation: Keep detailed records of reconstitution dates, lot numbers, and storage conditions
  • Disposal: Follow institutional guidelines for proper disposal of peptide solutions
  • Cross-Contamination: Use separate equipment for different peptides to avoid cross-contamination

Quality Control: Periodically verify solution clarity and potency before use in research.

BPC-157

Overview

Product Description

Synthetic research peptide supplied in lyophilised (powder) form.

Research Background (Educational Reference)


BPC-157 (Body Protection Compound) is studied in experimental models for its interaction with signalling pathways
involved in tissue integrity, angiogenesis, and inflammatory modulation.

  • Cellular repair signalling
  • Blood vessel formation (angiogenic pathways)
  • Gut–brain axis interactions
  • Nitric oxide (NO) modulation

Preparation & Concentration (Calculation Only)

Reconstitution

Add 2ml bacteriostatic water • Allow to dissolve naturally • Do not shake

Resulting Concentration

2.5mg per 1ml • 2500mcg per 1ml

Reference Handling Example (Literature-Referenced)

0.25ml (25 units) ≈ 0.625mg (625mcg) • Referenced as a daily research amount

Calculation guidance only.

Use with our Peptide Calculator (Math Guide)

  1. Enter vial amount: 5mg
  2. Enter reconstitution volume: 2ml (or your actual mL)
  3. Confirm concentration: 2.5mg/ml (2500mcg/ml)
  4. Enter your target reference amount from literature to calculate mL / units

Tip: 1mL = 100 units on most insulin syringes. 1mg = 1000mcg.

Important Notice


Supplied for research and laboratory purposes only. Not approved for human or veterinary use.
Research protocols and timeframes are not one-size-fits-all.
Strongly encouraged: independent research and, where appropriate, guidance from a qualified coach/clinician who is research-literate.
We are continuously refining and improving these guidelines as research evolves.

GHK-Cu – 100mg

Overview

Copper-binding tripeptide supplied for laboratory research.

Research Background

  • Collagen and elastin signalling
  • Gene expression modulation
  • Anti-inflammatory pathways
  • Oxidative stress regulation

Preparation & Concentration

Add 2ml bacteriostatic water • Do not shake

Concentration: 50mg/ml

Reference example: 0.2ml (20 units) = 10mg

Calculator Guide

  1. Vial amount: 100mg
  2. Water added: 2ml
  3. Calculator converts mg ↔ mL ↔ units

Important Notice

Research use only. No universal protocol exists.

TB-500 – 5mg

Overview

Thymosin Beta-4 fragment supplied as a lyophilised research compound.

Research Background

  • Actin regulation
  • Cell migration signalling
  • Tissue repair pathways

Preparation & Concentration

Add 1ml bacteriostatic water • Do not shake

Concentration: 5mg/ml

Reference example: Entire vial = 5mg

Calculator Guide

Enter 5mg vial • 1ml water • calculator confirms full-vial volume.

Important Notice

Research use only. Protocols vary by application.

NAD+ 500mg

Overview

Coenzyme supplied in powder form for biochemical research.

Research Background

  • Mitochondrial energy metabolism
  • ATP production
  • DNA repair (PARP / sirtuins)

Preparation & Concentration

Add 5ml bacteriostatic water • Do not shake

Concentration: 100mg/ml

Reference example: 0.5ml = 50mg

Calculator Guide

Enter 500mg vial • 5ml water • calculator handles conversion.

Important Notice

Research use only.

Semax 10mg

Overview

Synthetic peptide supplied for neurological research.

Research Background

  • BDNF signalling
  • Neuroplasticity
  • Stress-response modulation

Preparation & Concentration

Add 2ml bacteriostatic water

Concentration: 5mg/ml (5000mcg/ml)

Calculator Guide

Enter 10mg vial • 2ml water • set target mcg.

Important Notice

Research use only.

MOTS-c – 10mg

Overview

Mitochondrial-derived peptide for metabolic research.

Research Background

  • AMPK activation
  • Metabolic flexibility
  • Stress adaptation signalling

Preparation & Concentration

Add 1ml bacteriostatic water

Concentration: 10mg/ml

Calculator Guide

Enter 10mg vial • 1ml water.

Important Notice

Research use only.

Retatrutide – 20mg

Overview

Multi-receptor agonist peptide supplied for research only.

Research Background

  • GLP-1, GIP, glucagon signalling
  • Metabolic regulation pathways
  • Energy balance research

Preparation & Concentration

Add 2ml bacteriostatic water • Store refrigerated

Concentration: 10mg/ml

Calculator Guide

Enter 20mg vial • 2ml water • calculator converts mg ↔ units.

Important Notice

Research use only. Protocols vary widely.

Ipamorelin – 5mg

Overview

Selective growth hormone secretagogue supplied for laboratory research.

Research Background

  • GHS-R1a receptor signalling
  • Pulsatile endocrine models
  • High receptor selectivity

Preparation & Concentration

Add 2ml bacteriostatic water

Concentration: 2.5mg/ml (2500mcg/ml)

Calculator Guide

Enter 5mg vial • 2ml water.

Important Notice

Research use only.

KPV – 10mg

Overview

α-MSH tripeptide fragment supplied for laboratory research.

Research Background

  • NF-κB modulation
  • Inflammatory signalling regulation
  • Gut and epithelial research models

Preparation & Concentration

Add 2ml bacteriostatic water

Concentration: 5mg/ml (5000mcg/ml)

Calculator Guide

Enter 10mg vial • 2ml water.

Important Notice

Research use only.

Not sure what’s best for you or how to use it properly? We offer personalised 1-on-1 support sessions to help you build a clear plan using the latest research.

Book a consult here