Question

Calculate the dosages as indicated. Use the labels where provided. Order: 30 units Pitocin (oxytocin) in \(1,000 \mathrm{~mL}\) D5W at \(40 \mathrm{~mL} / \mathrm{hr}\). How many units of Pitocin is the client receiving per hour? _______ units/hr

Short answer

1.2 units/hr

Step-by-step solution

Identify Given Information

The doctor's order is for 30 units of Pitocin to be mixed in 1,000 mL of D5W, with the infusion set at a rate of 40 mL/hour. We need to find out how many units of Pitocin are being administered per hour.

Calculate Units Per mL

First, determine how many units of Pitocin are in each milliliter of the solution. The total solution contains 30 units of Pitocin in 1,000 mL. Thus, the concentration is calculated as follows: \[ \text{Concentration} = \frac{30 \text{ units}}{1,000 \text{ mL}} = 0.03 \text{ units/mL} \]

Calculate Dosage Per Hour

Now, use the concentration to determine how many units are given per hour. Multiply the concentration by the infusion rate: \[ \text{Units per hour} = 0.03 \text{ units/mL} \times 40 \text{ mL/hr} = 1.2 \text{ units/hr} \]

Conclusion

The client receives 1.2 units of Pitocin per hour.

Key concepts

Infusion Rate

When you hear the term *infusion rate*, it refers to the speed at which a liquid is administered intravenously to a patient. In medical dosage calculations, understanding the infusion rate is crucial. This rate is generally measured in milliliters per hour (mL/hr). In the exercise, the infusion rate is given as 40 mL/hr.
This means that every hour, 40 mL of the prepared solution is being transferred from the IV bag into the patient's bloodstream. Knowing this measurement is vital to determine how much of the active medication, like Pitocin, is administered over a set time period. It's a key factor for healthcare professionals to ensure that patients receive the correct dosage according to physician prescriptions.

Unit Conversion

Unit conversion is the process of converting a quantity from one unit to another. In medical contexts, it’s often necessary to switch between different measurement systems to accurately calculate dosages. For this exercise, you need to determine how many units of Pitocin are in each milliliter and then use that to find the hourly dosage.
Since the initial information provides Pitocin in units and the solution in milliliters, the task requires converting *units per mL* to *units per hour*. The calculation steps include finding the concentration in a single mL and then multiplying it by the infusion rate (40 mL/hr). Conceptually, this means translating the total quantity of medication into a more digestible time-based rate for infusion.

Volume-to-Dosage Ratio

The *volume-to-dosage ratio* is a concept that ties the amount of liquid solution to the drug quantity it contains. Essentially, this is a method to determine how much of a particular substance is present in a specific volume of liquid, such as an IV fluid.
For the Pitocin administration problem, the volume-to-dosage ratio tells us that there are 30 units of medication in 1,000 mL of solution. This means that each milliliter includes 0.03 units of Pitocin. By understanding this ratio, healthcare practitioners can ensure that they are delivering medications at the correct strength and dosage over the infusion period prescribed.

Oxytocin Administration

*Oxytocin administration* is a medical process where the hormone oxytocin is infused into a patient, commonly during labor to induce contractions, or to manage bleeding post-birth. In healthcare, the exact dosage and rate of delivery are critical to ensure safety and effectiveness.
The exercise outlines an order of 30 units of oxytocin (known by the brand name, Pitocin). The task is to calculate how much of the hormone is administered per hour given the specific infusion rate and dilution. Accurately administering oxytocin is essential, not only for the safety of the patient but also to achieve the desired medical outcome such as stimulating uterine contractions effectively.