AOD-9604 Dosage Calculator

The AOD-9604 Dosage Calculator estimates daily research dosage amounts based on body weight and standardized concentration rates. This tool helps researchers determine total microgram requirements and administration volumes. Whether you are establishing a baseline protocol or adjusting for a split-dose schedule, this tool provides calculated calculations for educational and research planning.

Enter weight in kilograms (kg). Range: 30–200 kg.
Target dose in µg/kg/day. Range: 2–10 µg/kg.
Total daily dose divided by this number.

How Total Daily Dose Is Calculated

Total Daily Dose (µg) = Body Weight (kg) × Dosage Rate (µg/kg/day)

Where:

  • Body Weight is your total mass in kilograms.
  • Dosage Rate is the target concentration used in research protocols.
  • Dose Per Administration is the total daily dose divided by your chosen frequency.

This calculator uses a standard weight-based pharmacological model commonly found in peptide research. By multiplying your mass by the concentration rate, you establish the total aggregate of micrograms needed per day. If you are splitting doses, the tool automatically divides this total to ensure each administration contains an equal amount.

What Your Calculation Mean

Your Calculation provide the estimated microgram amounts needed for your daily protocol. Below are common research scenarios to help contextualize your calculated numbers:

Standard Research Protocol:

Most clinical trials utilize a rate of 5 µg/kg/day. For a 80 kg individual, this results in a 400.0 µg total daily dose. This is widely considered the baseline for investigating metabolic effects.

Split Dose Strategy:

Some researchers prefer dividing the total daily dose into 2 administrations to maintain stable levels. For example, splitting 400 µg into two doses means 200.0 µg per injection, typically taken morning and evening.

Important: AOD-9604 is an experimental peptide and is not FDA-approved for medical treatment. The ranges supported by this calculator (2–10 µg/kg/day) reflect limits found in clinical studies, but individual tolerance varies.

Calculation logic verified using publicly available standards.

View our Accuracy & Reliability Framework →