Question

Calculate the dosages as indicated. Use the labels where provided. Order: Infuse \(1 \mathrm{~g}\) of aminophylline in \(1,000 \mathrm{~mL}\) of \(\mathrm{D} 5 \mathrm{~W}\) at \(0.7 \mathrm{mg} / \mathrm{kg} / \mathrm{hr}\). The client weighs \(110 \mathrm{lb}\). a. Calculate the dosage in \(\mathrm{mg} / \mathrm{hr}\). b. Calculate the dosage in \(\mathrm{mg} / \mathrm{min}\). c. Reference states no more than \(20 \mathrm{mg} / \mathrm{min} .\) Is the order safe?

Short answer

a. 34.92 mg/hr; b. 0.582 mg/min; c. Yes, it's safe.

Step-by-step solution

Convert Client's Weight to Kilograms

The client's weight is given in pounds (lb). To convert it to kilograms (kg), use the conversion factor: \(1 \text{ lb} = 0.453592 \text{ kg}\). Thus, calculate \(110 \text{ lb} \times 0.453592 \text{ kg/lb} = 49.89 \text{ kg}\).

Calculate Dosage in mg/hr

The order is to infuse at a rate of \(0.7 \text{ mg/kg/hr}\). Using the client's weight in kilograms, the dosage in mg/hr is: \(0.7 \text{ mg/kg/hr} \times 49.89 \text{ kg} = 34.92 \text{ mg/hr}\).

Calculate Dosage in mg/min

Convert the dosage from mg/hr to mg/min by dividing by 60 (since there are 60 minutes in an hour): \(34.92 \text{ mg/hr} \div 60 = 0.582 \text{ mg/min}\).

Determine if the Order is Safe

The reference states that the dosage should not exceed \(20 \text{ mg/min}\). Since the calculated dosage is \(0.582 \text{ mg/min}\), which is much less than \(20 \text{ mg/min}\), the order is safe.

Key concepts

Weight Conversion

Understanding how to convert weight from pounds to kilograms is essential in dosage calculations. The reason for this need is because medical dosages are often based on the patient's weight in kilograms. In this scenario, the client's weight is given as 110 pounds. To convert to kilograms, multiply by the conversion factor 0.453592. Thus, the calculation is:

• Weight in kilograms = \(110 \times 0.453592\)
• This results in approximately 49.89 kilograms

The conversion factor helps standardize doses across different measuring systems, making it crucial for accurate dosage administration.

Mg/hr vs Mg/min

Dosage typically needs to be converted between units like milligrams per hour (mg/hr) and milligrams per minute (mg/min) to prepare and adjust medication delivery systems. Initially, the dosage here is calculated as 34.92 mg/hr using the formula:

• Dosage in mg/hr = \(0.7 \text{ mg/kg/hr} \times 49.89 \text{ kg}\)

To convert this to mg/min, you need to divide by 60, as there are 60 minutes in an hour:

• Dosage in mg/min = \(34.92 \div 60 = 0.582 \text{ mg/min}\)

This conversion is vital because some medical devices and infusion pumps operate better with one standard over the other, ensuring you administer the correct amount over the correct period.

Safety Assessment

Safety assessment in medication administration is critical to avoid overdose and ensure patient safety. Here, the reference states the dosage must not exceed 20 mg/min. Comparing this standard to our calculated dosage:

• Calculated dosage is 0.582 mg/min
• Maximum safe dosage is 20 mg/min

Clearly, 0.582 mg/min is significantly less than the 20 mg/min threshold, confirming the order as safe. Regularly assessing these values, especially in emergency situations or with highly potent medications, is key to patient safety.

Aminophylline Dosage

Aminophylline is a medication often used to treat asthma or other lung diseases. Calculating its dosage correctly is crucial since it directly affects its efficacy and potential side effects. For a calculated infusion rate of 0.7 mg/kg/hr, considerations include:

• Ensuring the dosage matches the patient's weight
• Avoiding higher dosages that might lead to toxicity

It is essential to follow physician orders accurately while being aware of individual patient reactions and any necessary modifications.

Dimensional Analysis

Dimensional analysis is a helpful mathematical technique used to convert one unit of measure to another. In dosage calculations, it ensures accurate conversions and calculations. This method involves:

• Identifying the given units and desired units
• Using conversion factors
• Arranging calculations to cancel out units

For example, when converting mg/hr to mg/min, the setup was:\[\frac{34.92 \text{ mg/hr}}{60 \text{ min/hr}} = 0.582 \text{ mg/min}\]Dimensional analysis ensures validity and precision in calculations, thus preventing errors in dose administration.