Question

Calculate the dosages as indicated. Use the labels where provided. Order: Nipride \(50 \mathrm{mg}\) in \(250 \mathrm{~mL}\) D5W to infuse at \(2 \mathrm{mcg} / \mathrm{kg} / \mathrm{min} .\) Client's weight is \(120 \mathrm{lb}\) Calculate the dosage per minute.

Short answer

The infusion rate is 0.544 mL per minute.

Step-by-step solution

Convert Client's Weight to Kilograms

First, convert the client's weight from pounds to kilograms, as dosage calculations are often done per kilogram. Use the conversion factor: \[ 1 \text{ lb} = 0.453592 \text{ kg} \]For this client:\[ 120 \text{ lb} \times 0.453592 \text{ kg/lb} = 54.43104 \text{ kg} \] This rounds to approximately 54.4 kg.

Calculate Total Dosage Needed per Minute

The order requires an infusion rate of 2 micrograms per kilogram per minute. Calculate the total dosage required per minute by multiplying the weight in kilograms by the dosage rate:\[ 54.4 \text{ kg} \times 2 \text{ mcg/kg/min} = 108.8 \text{ mcg/min} \] Thus, the total dosage needed is 108.8 micrograms per minute.

Convert Milligrams to Micrograms in the Solution

Since the solution is given in milligrams and we need to work in micrograms, convert the concentration from milligrams to micrograms:\[ 50 \text{ mg} = 50,000 \text{ mcg} \] This is the total amount of Nipride in 250 mL of solution.

Determine Micrograms Per Milliliter in Solution

Calculate how many micrograms of Nipride are in each milliliter of the solution. Divide the total micrograms by the total volume of the solution:\[ \frac{50,000 \text{ mcg}}{250 \text{ mL}} = 200 \text{ mcg/mL} \] The concentration is therefore 200 micrograms per milliliter.

Calculate Infusion Rate in Milliliters per Minute

Using the concentration from Step 4 and the required dosage from Step 2, determine how many milliliters need to be administered each minute. Divide the dosage needed per minute by the concentration:\[ \frac{108.8 \text{ mcg/min}}{200 \text{ mcg/mL}} = 0.544 \text{ mL/min} \] Thus, the infusion rate is 0.544 mL per minute.

Key concepts

Conversion Factors

Conversion factors are essential in dosage calculations, especially when dealing with different units of measurement. In our case, we had to convert the weight from pounds to kilograms because medical dosages are often calculated per kilogram.

• Pounds to kilograms: The commonly used conversion factor is 1 pound equals 0.453592 kilograms.
• Milligrams to micrograms: 1 milligram is equal to 1,000 micrograms, a crucial conversion for dosage calculations in smaller units, like in micrograms per minute.

When using conversion factors, multiply the given number by the conversion factor to change the unit. This method keeps the calculations accurate and ensures that everything is in the correct units for further calculations.

Infusion Rate

The infusion rate refers to the speed at which a medication is delivered to a patient. In medical dosage calculations, infusion rates are crucial for ensuring that a patient receives the medication correctly and safely.To find the infusion rate:

• Calculate the total dosage needed per minute.
• Convert this dosage rate to the correct unit if necessary (such as converting microseconds to the volume needed per minute).
• Use the formula: \( \text{Infusion Rate (mL/min)} = \frac{\text{Total required dosage (mcg/min)}}{\text{Concentration (mcg/mL)}} \).

Achieving the correct infusion rate ensures effective and safe patient care.

Medication Concentration

Understanding medication concentration is vital when preparing a solution for infusion. Concentration informs us how much medication is present in a given volume of solution, usually expressed as micrograms per milliliter (mcg/mL). Calculate concentration by:

• Converting the total amount of the drug from milligrams to micrograms.
• Calculating the total concentration in the solution by dividing the total micrograms by the total volume of the solution in milliliters.

In our case, the concentration was calculated as 200 micrograms per milliliter, which indicated the potency of our solution.

Weight Conversion

Weight conversion is often the first step in medical dosage calculations, particularly when different measurement systems meet. Medical dosages often depend on a patient’s weight in kilograms, including the exercise scenario where the dosage was based on the client's weight.Key points in weight conversion:

• Start by converting pounds to kilograms, using the conversion factor \( 1 \text{ lb} = 0.453592 \text{ kg} \).
• Weight conversion helps ensure that calculations match the requirements of dosage guidelines often provided in metric measurements.

Accurate weight conversion ensures that the patient receives the correct amount of medication, maintaining safety and efficacy in treatment.