Question

Calculate the hourly dosage of heparin (units/hr). Order: 50,000 units of heparin in \(1,000 \mathrm{~mL}\) of \(\mathrm{D} 5 \mathrm{~W}\) to infuse at \(60 \mathrm{~mL} / \mathrm{hr}\).

Short answer

The hourly dosage of heparin is 3,000 units per hour.

Step-by-step solution

Identify the total dosage of heparin

The order is to mix 50,000 units of heparin in 1,000 mL of D5W. This means the total dosage of heparin available in the solution is 50,000 units.

Understand the infusion rate

The solution is ordered to infuse at 60 mL per hour, meaning every hour, 60 mL of the solution will be administered.

Establish the dosage concentration

Since 50,000 units of heparin are mixed in 1,000 mL of solution, the concentration of heparin is 50,000 units per 1,000 mL. This can be expressed as 50 units per mL.

Calculate the hourly heparin dosage

Using the concentration from Step 3, multiply the concentration (50 units/mL) by the infusion rate (60 mL/hr): \(50 \, \text{units/mL} \times 60 \, \text{mL/hr} = 3,000 \, \text{units/hr}\).

Key concepts

Heparin Dosage

Calculating the heparin dosage is a crucial part of understanding medical prescription orders. When healthcare professionals receive an order like the one in the exercise, it states the total amount of heparin that needs to be administered. In this case, there are 50,000 units of heparin in the solution. These units correspond to the potency of the medication, indicating how much active drug is present. This specific quantity is essential for ensuring the patient receives the correct amount of medication per hour. The dosage influences the therapeutic effect. This step is about recognizing the total amount of medication within the supplied volume, which is fundamental for subsequent calculations such as determining infusion rate or concentration.

Infusion Rate

The infusion rate is the speed at which a solution is administered to the patient. It's typically measured in milliliters per hour (ml/hr) and is an essential parameter for safe and effective medication administration in clinical settings. In our example, the order directs that 60 ml of the heparin solution should be infused each hour. This means that every hour, the patient receives 60 ml of the solution, carrying a specific quantity of heparin. Accurately calculating the infusion rate helps healthcare providers maintain steady levels of medication in the patient’s bloodstream. This step is key for tailoring treatments to individual patient needs and avoiding medication errors.

Concentration Calculation

Determining the concentration of a medication within a solution is crucial for dosage calculations. This concentration informs us how much of the drug is present in each unit of the solution. To calculate the concentration, divide the total units of the drug by the total volume of the solution:\[\text{Concentration} = \frac{\text{Total units of heparin}}{\text{Total volume in mL}}\]For our exercise, the concentration is \[\frac{50,000\text{ units}}{1,000\text{ mL}} = 50 \text{ units/mL}\]This means every milliliter of the solution contains 50 units of heparin. Knowing this helps calculate the hourly administration rate by relating it to the infusion rate, providing insights into how much medication the patient receives every hour.