Question

Calculate the dosages as indicated. Use the labels where provided. A medication has been ordered at 2 to \(4 \mathrm{mcg} / \mathrm{min}\) to maintain a client's systolic \(\mathrm{BP}\) greater than \(100 \mathrm{~mm} \mathrm{Hg}\). The medication being titrated has \(8 \mathrm{mg}\) of medication in \(250 \mathrm{~mL} \mathrm{D}_{5} \mathrm{~W}\). Determine the IV rate for 2 to \(4 \mathrm{mcg}\) range. Then assume that after several changes in \(\mathrm{mL} / \mathrm{hr}\) have been made, the BP has stabilized at a rate of \(5 \mathrm{~mL} / \mathrm{hr}\). How many \(\mathrm{mcg} / \mathrm{min}\) is the client receiving at this rate? Determine the flow rate for an IV pump capable of delivering in tenths of a mL. ___________Flow rate for \(2-4\) mcg range ____________\(\mathrm{mcg}\) per/min at \(5 \mathrm{~mL} / \mathrm{hr}\)

Short answer

Flow rate is 3.75-7.5 mL/hr; client receives 2.67 mcg/min at 5 mL/hr.

Step-by-step solution

Calculate Concentration in mcg/mL

First, we need to determine the concentration of the medication in the solution. We have 8 mg of medication in 250 mL of D₅W. First, convert the milligrams to micrograms: \(8 \text{ mg} = 8000 \text{ mcg}\). Now, find the concentration: \[\text{Concentration} = \frac{8000 \text{ mcg}}{250 \text{ mL}} = 32 \text{ mcg/mL}.\]

Calculate Flow Rate for 2 mcg/min

To calculate the IV flow rate for 2 mcg/min, divide the desired dosage by the concentration of the medication: \[ \text{Flow Rate} = \frac{2 \text{ mcg/min}}{32 \text{ mcg/mL}} \times 60 = \frac{120}{32} \approx 3.75 \text{ mL/hr}.\]

Calculate Flow Rate for 4 mcg/min

To calculate the IV flow rate for 4 mcg/min, use the same process: \[ \text{Flow Rate} = \frac{4 \text{ mcg/min}}{32 \text{ mcg/mL}} \times 60 = \frac{240}{32} \approx 7.5 \text{ mL/hr}.\]

Calculate mcg/min at 5 mL/hr

Now that the rate has stabilized at 5 mL/hr, calculate how many mcg/min the client receives. Use the formula: \[ \text{Dose} = \frac{5 \text{ mL/hr} \times 32 \text{ mcg/mL}}{60} = \frac{160}{60} \approx 2.67 \text{ mcg/min}.\]

Key concepts

Medication Concentration

Medication concentration refers to how much medication is present in a given volume of solution. Here, we have 8 mg of a medication mixed into 250 mL of D₅W (Dextrose 5% in water). To understand how this concentration is calculated, it's important to first convert the medication amount from milligrams to micrograms, since dosages are often prescribed in micrograms. Let's break it down:

• 1 milligram (mg) equals 1000 micrograms (mcg).
• Thus, 8 mg equals 8000 mcg.

Now, to find the concentration in mcg/mL, divide the total amount of medication (8000 mcg) by the total volume of the solution (250 mL). The result is 32 mcg/mL. This means that there are 32 micrograms of medication in each milliliter of the solution. Understanding the concentration is vital because it allows for accurate dosage calculations which are crucial for effective and safe patient care.

Flow Rate Calculation

Flow rate calculation is essential for determining how quickly the medication solution should be administered to meet the prescribed dose. The healthcare professional must adjust the IV pump to deliver the exact amount of medication per minute. Let's explore how to calculate the flow rate.Suppose the treatment requires delivering 2 mcg/min. Given the concentration of 32 mcg/mL, the flow rate can be calculated using:

• Convert the desired dose to how much of the solution is needed using the formula: \[\text{Flow Rate} = \frac{\text{Desired Dose (mcg/min)}}{\text{Concentration (mcg/mL)}} \times 60\]
• For 2 mcg/min: \[ \text{Flow Rate} = \frac{2}{32} \times 60 = 3.75 \text{ mL/hr} \]
• For 4 mcg/min: \[ \text{Flow Rate} = \frac{4}{32} \times 60 = 7.5 \text{ mL/hr} \]

Calculating the flow rate ensures that the medication is delivered at the correct pace, maintaining the desired therapeutic effect while avoiding any potential for underdosing or overdosing.

IV Pump Settings

IV pump settings refer to how the IV pump is programmed to deliver the medication at the specified rate. These settings ensure precise and consistent delivery of the medication over time. When setting up an IV pump: - Input the calculated flow rate. For example, if the target dosage requires a flow rate of 3.75 mL/hr or 7.5 mL/hr, these figures must be entered accurately into the pump. - Most modern IV pumps allow setting the flow rate in tenths, enabling precise control. This is crucial when dealing with potent medications where small deviations can significantly affect patient outcomes. - Double-check all calculations and settings before starting the infusion. This is a critical step to ensure patient safety as incorrect inputs may lead to dosing errors. Understanding the IV pump settings is essential for administering medication safely and effectively.

Dosage Range

The dosage range provides the spectrum over which the medication can be titrated to achieve the desired clinical result. For instance, in this exercise, the range is 2 to 4 mcg/min, allowing adjustment based on the patient's response to maintain systolic blood pressure above 100 mmHg.Key points about dosage ranges include:

• The range offers flexibility to clinicians to adjust the dosage based on patient needs and treatment response.
• Start at the lower end of the range to assess tolerance and gradually increase if necessary.
• Regularly monitor the patient's vital signs and clinical status to make informed adjustments within the allowed range.
• After stabilization, if the flow rate is set to 5 mL/hr, calculate the actual dosage received: \[ \text{Dose received} = \frac{5 \times 32}{60} \approx 2.67 \text{ mcg/min} \]

Using the dosage range wisely allows for safe titration of medication to maximize therapeutic benefits while minimizing the risk of side effects.