Medication Dosage Calculator
Free Medication dosage Calculator with medically-sourced formulas. Enter your measurements for personalized, accurate health insights.
Formula
Dose = Weight (kg) x Dose Rate (mg/kg) | Volume = (Dose / Concentration) x Volume | Daily = Dose x Frequency
Where Dose is the single administration amount in mg, Weight is patient mass in kg, Dose Rate is the prescribed mg/kg, Volume converts the calculated dose to measurable liquid, and Daily total is checked against the maximum daily dose limit for safety.
Worked Examples
Example 1: Pediatric Amoxicillin Dosing
Problem: A 25 kg child needs amoxicillin at 25 mg/kg/dose, given 3 times daily. Available as 250 mg/5 mL suspension. Max daily dose 1500 mg.
Solution: Weight: 25 kg\nSingle dose = 25 mg/kg x 25 kg = 625 mg\nDaily dose = 625 mg x 3 = 1,875 mg\nMax daily dose = 1,500 mg (EXCEEDED)\nAdjusted single dose = 1,500 / 3 = 500 mg per dose\nAdjusted daily dose = 1,500 mg\nVolume per dose = (500 / 250) x 5 = 10 mL\nDosing interval = 24 / 3 = 8 hours
Result: Give 10 mL (500 mg) every 8 hours | Daily total: 1,500 mg (capped at max)
Example 2: Adult Weight-Based Antibiotic
Problem: A 85 kg adult needs vancomycin at 15 mg/kg every 12 hours. Concentration: 500 mg/10 mL after reconstitution. Max daily dose 4000 mg.
Solution: Weight: 85 kg\nSingle dose = 15 mg/kg x 85 kg = 1,275 mg\nDaily dose = 1,275 mg x 2 = 2,550 mg\nMax daily dose = 4,000 mg (not exceeded)\nVolume per dose = (1,275 / 500) x 10 = 25.5 mL\nDosing interval = 24 / 2 = 12 hours\nBSA estimate: ~2.0 m2\nDose per BSA: ~638 mg/m2
Result: Give 25.5 mL (1,275 mg) every 12 hours | Daily total: 2,550 mg
Frequently Asked Questions
How is weight-based medication dosage calculated?
Weight-based dosing calculates the appropriate medication dose using the patient body weight multiplied by a prescribed dose rate in milligrams per kilogram (mg/kg). The formula is: Single Dose = Patient Weight (kg) x Dose Rate (mg/kg). For example, a 70 kg adult prescribed a medication at 10 mg/kg would receive 700 mg per dose. This method is used because drug distribution, metabolism, and clearance are all influenced by body mass. Weight-based dosing is especially critical in pediatrics, where patients range from 3 kg newborns to 80+ kg adolescents, and a fixed adult dose could be dangerously high or ineffectively low. The daily total dose is calculated by multiplying the single dose by the number of doses per day, which must be checked against the maximum recommended daily dose.
How do you calculate the volume of liquid medication to administer?
To calculate the volume of liquid medication, you use the formula: Volume = (Desired Dose / Available Concentration) x Volume of Concentration. For example, if a patient needs 400 mg of a medication that comes as 250 mg per 5 mL suspension, the calculation would be Volume = (400 / 250) x 5 = 8 mL. This is one of the most common calculations in nursing and pharmacy practice. It is essential to verify the concentration units carefully, as liquid medications can come in various concentrations (mg/mL, mg/5mL, mcg/mL). Always double-check by confirming that the calculated volume makes practical sense. For pediatric liquid medications, using an oral syringe for measurement is more accurate than using a household teaspoon, which can vary significantly in volume.
How does dosing frequency affect medication effectiveness?
Dosing frequency is determined by a medication half-life, which is the time required for the drug concentration in the blood to decrease by half. Medications with short half-lives (2-4 hours, like ibuprofen) require dosing every 4-6 hours to maintain therapeutic blood levels. Medications with long half-lives (24+ hours, like fluoxetine) need only once-daily dosing. The goal is to maintain drug concentrations within the therapeutic window, above the minimum effective concentration but below the toxic concentration. Dosing too infrequently allows blood levels to drop below therapeutic range, reducing efficacy. Dosing too frequently can cause drug accumulation and toxicity. Extended-release formulations modify drug release kinetics to allow less frequent dosing while maintaining stable blood levels. Patient adherence improves significantly with once or twice daily dosing compared to three or four times daily regimens.
What safety checks should be performed before administering medication?
Healthcare providers follow the Five Rights of Medication Administration as the fundamental safety framework: right patient (verify identity with two identifiers), right drug (check the medication name and verify no allergies), right dose (calculate and double-check weight-based dosing), right route (oral, IV, IM, etc.), and right time (proper dosing interval). Beyond these basics, additional checks include verifying the calculated dose against the maximum daily dose, checking for drug interactions with other current medications, assessing kidney and liver function that may require dose adjustments, confirming the concentration and volume for liquid medications, and reviewing the patient allergy history. Many hospitals now require independent double-checks for high-alert medications such as insulin, anticoagulants, and opioids, where a second provider independently verifies the calculated dose.
How do kidney and liver function affect medication dosing?
The kidneys and liver are the primary organs responsible for eliminating medications from the body, and impairment of either organ can cause dangerous drug accumulation. Kidney function is assessed using estimated glomerular filtration rate (eGFR) or creatinine clearance, and many medications require dose reduction or increased dosing intervals when eGFR falls below 30-60 mL/min. For example, metformin is contraindicated when eGFR drops below 30 mL/min. Liver dysfunction assessed by the Child-Pugh score affects drugs metabolized by hepatic enzymes, particularly the cytochrome P450 system. Medications like acetaminophen, warfarin, and many antibiotics require careful dose adjustment in liver disease. Dosing guidelines typically provide specific recommendations for different levels of renal and hepatic impairment, and these adjustments can range from a 25 percent reduction to complete contraindication.
How are medication dosages calculated safely?
Dosages are typically calculated by body weight (mg/kg) or body surface area (mg/m^2). Always verify units, check for maximum dose limits, and account for renal or hepatic impairment. Use the formula: Dose = Weight (kg) * Dose per kg * Frequency. Double-check calculations independently and consult clinical references for specific drugs.