Nursing

Dosage by Body Surface Area (BSA)

Last updated: March 2026 · Advanced

Educational Use Only

This content is for educational purposes only and does not substitute for clinical training, institutional protocols, or professional medical guidance. Always verify calculations with your facility's protocols and a licensed pharmacist before administering medications to patients.

Before you start

You should be comfortable with:

Area of Circles Weight-Based Dosing

Real-world applications

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Nursing

Medication dosages, IV drip rates, vital monitoring

Some medications — particularly chemotherapy agents — are dosed based on body surface area (BSA) rather than weight alone. BSA correlates more closely with metabolic rate and organ function than body weight, making it a more accurate way to individualize drug doses. BSA-based dosing is the standard in oncology and is also used in pediatrics for certain medications.

Why BSA Instead of Weight?

Two patients can weigh the same but have very different body compositions. A tall, lean patient and a short, stocky patient at 70 kg will process drugs differently because their organ sizes, blood volumes, and metabolic rates differ. BSA accounts for both height and weight, providing a better estimate of how the body will handle a drug.

Key fact: The average adult BSA is approximately $1.7 \text{ m}^2$ . Values typically range from about $1.5$ to $2.2 \text{ m}^2$ for adults.

The Mosteller Formula

The most commonly used formula in clinical practice is the Mosteller formula:

$\text{BSA (m}^2\text{)} = \sqrt{\frac{\text{Height (cm)} \times \text{Weight (kg)}}{3600}}$

This formula uses height in centimeters and weight in kilograms. The constant 3600 is a simplification factor that makes the formula practical for bedside use.

Unit Conversions You May Need

Before applying the formula, convert measurements if needed:

From	To	Conversion
Inches to cm	Multiply by 2.54	70 in = 177.8 cm
Feet/inches to cm	Convert to total inches, then multiply by 2.54	5’10” = 70 in = 177.8 cm
Pounds to kg	Divide by 2.2	154 lb = 70 kg

Calculating BSA: Step by Step

Example 1: Adult Patient

Patient: Height 170 cm, Weight 80 kg.

Step 1: Multiply height by weight.

$170 \times 80 = 13{,}600$

Step 2: Divide by 3600.

$\frac{13{,}600}{3600} \approx 3.778$

Step 3: Take the square root.

$\text{BSA} = \sqrt{3.778} \approx 1.94 \text{ m}^2$

Answer: The patient’s BSA is approximately 1.94 m².

Example 2: Pediatric Patient

Patient: A child is 3 feet 4 inches tall and weighs 40 lb.

Step 1: Convert height to cm.

$3 \text{ ft } 4 \text{ in} = 40 \text{ in} \times 2.54 = 101.6 \text{ cm}$

Step 2: Convert weight to kg.

$\frac{40}{2.2} \approx 18.2 \text{ kg}$

Step 3: Apply the Mosteller formula.

$\text{BSA} = \sqrt{\frac{101.6 \times 18.2}{3600}} = \sqrt{\frac{1849.12}{3600}} \approx \sqrt{0.5136} \approx 0.72 \text{ m}^2$

Answer: The child’s BSA is approximately 0.72 m².

Using BSA to Calculate a Dose

Once you have the BSA, the dose calculation is straightforward. Drug orders will be written as a dose per square meter (e.g., mg/m²):

$\text{Dose (mg)} = \text{BSA (m}^2\text{)} \times \text{Prescribed dose (mg/m}^2\text{)}$

Example 3: Chemotherapy Dosing — Cisplatin

Order: Cisplatin 75 mg/m² IV. Patient’s BSA is 1.94 m².

$\text{Dose} = 1.94 \times 75 = 145.5 \text{ mg}$

Answer: The patient should receive 145.5 mg of Cisplatin. (In practice, oncology doses may be rounded to a practical amount per facility protocol.)

Example 4: Pediatric BSA Dosing — Methotrexate

Order: Methotrexate 3.3 mg/m² PO daily. The child’s BSA is 0.72 m².

$\text{Dose} = 0.72 \times 3.3 = 2.376 \text{ mg}$

Rounding per facility protocol:

Answer: Administer approximately 2.4 mg of Methotrexate PO daily.

Complete Workflow: From Measurements to Dose

Scenario: A patient is 5’8” tall and weighs 176 lb. The oncologist orders Carboplatin 300 mg/m² IV.

Step 1: Convert height.

$5\text{ ft } 8\text{ in} = 68 \text{ in} \times 2.54 = 172.72 \text{ cm}$

Step 2: Convert weight.

$\frac{176}{2.2} = 80 \text{ kg}$

Step 3: Calculate BSA.

$\text{BSA} = \sqrt{\frac{172.72 \times 80}{3600}} = \sqrt{\frac{13{,}817.6}{3600}} \approx \sqrt{3.838} \approx 1.96 \text{ m}^2$

Step 4: Calculate dose.

$\text{Dose} = 1.96 \times 300 = 588 \text{ mg}$

Answer: The patient should receive approximately 588 mg of Carboplatin IV.

BSA Reference Table (Approximate Values)

Height (cm)	Weight (kg)	BSA (m²)
100	15	0.65
120	25	0.91
150	50	1.44
165	65	1.73
170	70	1.82
175	80	1.97
180	90	2.12
185	100	2.27

These values are calculated using the Mosteller formula and can be used as a quick reference to verify your calculations.

Common Mistakes to Avoid

Using inches and pounds directly in the Mosteller formula. The formula requires height in centimeters and weight in kilograms. Using imperial units without converting will produce a wildly incorrect BSA.
Forgetting the square root. The formula is $\sqrt{\frac{H \times W}{3600}}$ , not $\frac{H \times W}{3600}$ . Without the square root, your answer will not be in m² and will be far too large.
Rounding BSA too aggressively. For chemotherapy, even small errors in BSA translate to significant dose differences. Round BSA to two decimal places (the hundredths place) per standard nursing math guidelines.
Confusing mg/m² with mg/kg. These are completely different dosing methods. A mg/m² dose requires BSA; a mg/kg dose requires weight only. Using the wrong method could result in a dangerous dose.

Practice Problems

Test your understanding with these problems. Click to reveal each answer.

Problem 1: Calculate the BSA for a patient who is 160 cm tall and weighs 55 kg.

$\text{BSA} = \sqrt{\frac{160 \times 55}{3600}} = \sqrt{\frac{8800}{3600}} \approx \sqrt{2.444} \approx 1.56 \text{ m}^2$

Answer: The BSA is approximately 1.56 m².

Problem 2: Order: Doxorubicin 60 mg/m² IV. Patient’s BSA is 1.82 m². What dose should the patient receive?

$\text{Dose} = 1.82 \times 60 = 109.2 \text{ mg}$

Answer: The patient should receive approximately 109 mg of Doxorubicin.

Problem 3: A child is 42 inches tall and weighs 44 lb. Calculate the BSA and then the dose for an order of Cyclophosphamide 500 mg/m².

Convert height: $42 \times 2.54 = 106.68$ cm

Convert weight: $\frac{44}{2.2} = 20$ kg

BSA: $\sqrt{\frac{106.68 \times 20}{3600}} = \sqrt{\frac{2133.6}{3600}} \approx \sqrt{0.5927} \approx 0.77$ m²

Dose: $0.77 \times 500 = 385$ mg

Answer: BSA is approximately 0.77 m²; the dose is approximately 385 mg of Cyclophosphamide.

Problem 4: A patient is 5’11” and weighs 198 lb. Calculate their BSA using the Mosteller formula.

Convert height: $5\text{ ft } 11\text{ in} = 71 \text{ in} \times 2.54 = 180.34$ cm

Convert weight: $\frac{198}{2.2} = 90$ kg

$\text{BSA} = \sqrt{\frac{180.34 \times 90}{3600}} = \sqrt{\frac{16{,}230.6}{3600}} \approx \sqrt{4.509} \approx 2.12 \text{ m}^2$

Answer: The patient’s BSA is approximately 2.12 m².

Problem 5: Order: Vincristine 1.4 mg/m² IV (max single dose 2 mg). Patient’s BSA is 1.96 m². What dose do you prepare?

Calculated dose: $1.96 \times 1.4 = 2.744$ mg

However, the maximum single dose is 2 mg (this is a standard Vincristine cap).

Answer: Prepare 2 mg of Vincristine. The calculated dose exceeds the maximum single dose cap, so the dose is capped at 2 mg.

Key Takeaways

BSA-based dosing is used when a more precise individualized dose is needed — especially in oncology and pediatrics
The Mosteller formula is: $\text{BSA} = \sqrt{\frac{\text{Height (cm)} \times \text{Weight (kg)}}{3600}}$
Always convert to centimeters and kilograms before using the formula
To find the dose: multiply BSA by the prescribed mg/m² value
Average adult BSA is approximately $1.7 \text{ m}^2$
Some drugs have maximum dose caps regardless of BSA (e.g., Vincristine 2 mg) — always check
Round BSA to two decimal places (the hundredths place) to maintain dose accuracy

Return to Math for Nurses for more topics in this section.

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Last updated: March 28, 2026