Question

Calculate the dosages as indicated. Use the labels where provided. Order: Dobutamine \(500 \mathrm{mg}\) in \(500 \mathrm{~mL}\) D5W to infuse at \(30 \mathrm{~mL} / \mathrm{hr}\). Calculate the following: a. \(\mathrm{mcg} / \mathrm{hr}\) b. \(\mathrm{mcg} / \mathrm{min}\)

Short answer

a. 30,000 mcg/hr; b. 500 mcg/min

Step-by-step solution

Convert mg to mcg

First, convert the amount of dobutamine from milligrams (mg) to micrograms (mcg). Since 1 mg = 1000 mcg, the 500 mg of dobutamine will be converted to micrograms as follows:\[500 \text{ mg} \times 1000 = 500,000 \text{ mcg}\]

Calculate mcg per hour

Now calculate the amount in micrograms that will be infused per hour. Since the concentration of the dobutamine solution is 500,000 mcg in 500 mL, the concentration is:\[\frac{500,000 \text{ mcg}}{500 \text{ mL}} = 1000 \text{ mcg/mL}\]With an infusion rate of 30 mL/hr, calculate mcg/hr:\[1000 \text{ mcg/mL} \times 30 \text{ mL/hr} = 30,000 \text{ mcg/hr}\]

Convert mcg per hour to mcg per minute

To find the dosage in mcg per minute, divide the mcg per hour by the number of minutes in an hour:\[\frac{30,000 \text{ mcg/hr}}{60 \text{ minutes/hour}} = 500 \text{ mcg/min}\]

Key concepts

mcg per hour

Understanding how to calculate medication dosages in micrograms per hour (mcg/hr) is crucial in medical settings. It allows healthcare providers to administer medications at the appropriate rate for optimal therapeutic effects. To calculate mcg/hr from a solution, you first need the total amount of the drug, originally given in milligrams (mg), to be converted to micrograms (mcg) since 1 mg equals 1000 mcg. For example, if you have 500 mg of a drug, you will convert it by multiplying:

• 500 mg × 1000 mcg/mg = 500,000 mcg

Next, determine the concentration of the drug in the solution. This is done by dividing the total mcg by the total volume of the solution in milliliters (mL). With that concentration, multiply by the hourly infusion rate to find the mcg/hr. For instance, if the drug concentration is 1000 mcg/mL and the infusion rate is 30 mL/hr:

• 1000 mcg/mL × 30 mL/hr = 30,000 mcg/hr

This value represents the exact amount of drug being administered hourly.

infusion rates

Infusion rates refer to the speed at which a solution is administered into a patient's bloodstream. Correct calculation and rate adjustments ensure that medications are delivered safely and effectively. Infusion rates can be indicated in mL/hr, which is a common medical practice for IV fluids and drugs. An important step in calculating infusion rates involves determining the concentration of the drug within the administered solution. For example, in our initial problem, the concentration was 1000 mcg/mL. When setting the infusion device, if the prescribed rate is 30 mL/hr, using this concentration helps you figure out exactly how much medication (in micrograms) enters the patient's body. These calculations are essential for drugs like Dobutamine, where tight control over the rate can significantly impact the patient's response. Always ensure the infusion rate corresponds with the medication's instructions and your calculated values.

conversion of units

Converting units is a fundamental skill when calculating medication dosages. It ensures that dosages are accurate and safe for patient administration. Physicians and healthcare professionals need to frequently convert between units like milligrams (mg), micrograms (mcg), and even to differing time units such as hours and minutes. The conversion between mg and mcg is straightforward, remembering that 1 mg equals 1000 mcg. This concept allows easy conversion of drug weights. For example, converting 500 mg to mcg involves multiplying by 1000, resulting in:

• 500 mg × 1000 mcg/mg = 500,000 mcg

When converting rates, such as mcg/hr to mcg/min, divide the hourly rate by 60, the number of minutes in an hour. Proceeding with an example:

• 30,000 mcg/hr ÷ 60 min/hr = 500 mcg/min

Mastering these conversions ensures that dosing is both precise and effective across various medications and applications.