Question

Calculate the following dosages using the medication label or information provided. Label answers correctly: tabs, caps, mL. Answers expressed in milliliters should be rounded to the nearest tenth where indicated. Order: Atropine \(0.3 \mathrm{mg}\) IM stat. Available: Atropine \(0.4 \mathrm{mg}\) per \(\mathrm{mL}\) ________

Short answer

0.8 mL

Step-by-step solution

Understand the Order and Supply Information

You are instructed to provide a dosage of Atropine at 0.3 mg IM (intramuscular) immediately (stat). The available supply of Atropine is 0.4 mg per mL. This means each milliliter of the solution contains 0.4 mg of Atropine.

Set Up the Proportion

To find out how many milliliters are needed to get 0.3 mg of Atropine, set up a proportion using the information that 0.4 mg is present in each mL. The proportion is: \( \frac{0.3 \text{ mg}}{x} = \frac{0.4 \text{ mg}}{1 \text{ mL}} \)

Solve the Proportion

Cross-multiply to solve for \( x \): \( 0.3 \times 1 = 0.4 \times x \). This simplifies to \( 0.3 = 0.4x \). Divide both sides by 0.4 to find \( x \), which represents the number of milliliters needed. \( x = \frac{0.3}{0.4} = 0.75 \text{ mL} \).

Round the Result

The result needs to be rounded to the nearest tenth as per the instructions. 0.75 mL rounds to 0.8 mL when rounded to the nearest tenth.

Label Your Answer

Label the answer with the appropriate unit. The calculated and rounded dosage is 0.8 mL.

Key concepts

Proportion Method

The proportion method is an essential tool for dosage calculation. It involves setting up a ratio to solve for an unknown variable. In our example, we need to determine how many milliliters (mL) are necessary to administer 0.3 mg of Atropine, given that 0.4 mg is present in each mL. You can set up the proportion by placing the known quantity (0.4 mg per mL) on one side of the equation:

• Proportion: \( \frac{0.3 \text{ mg}}{x} = \frac{0.4 \text{ mg}}{1 \text{ mL}} \)

Cross-multiply to find the unknown \( x \), representing the number of mL needed to reach the desired dosage:

• \( 0.3 \times 1 = 0.4 \times x \)
• This simplifies to \( 0.3 = 0.4x \).

Solving for \( x \) gives us the volume of solution required to administer the correct dose.

Rounding

Rounding is crucial in medicine as it ensures dosages are practical and safe. After calculating using the proportion method, we might arrive at a precise measurement that requires rounding to the nearest practical unit. For this example:

• The calculated value is 0.75 mL.
• To round 0.75 to the nearest tenth, look at the hundredths place.
• The digit is 5, so round up: 0.75 becomes 0.8 mL.

Always double-check rounding rules to maintain accuracy in dosage administration.

Units of Measurement

Units of measurement in medication dosing provide a standard that ensures clarity and accuracy when administering drugs. In this case, Atropine's dosage is given in milligrams (mg), while its concentration is expressed in milligrams per milliliter (mg/mL). Understanding these units is key:

• Milligrams measure the actual weight of the drug required.
• Milliliters measure the volume of the solution that contains a specific amount of the drug.

Converting between units effectively allows for accurate dosage calculation and administration.

Milliliters

Milliliters (mL) are a volume measurement crucial in calculating liquid drug dosages. In medicine, mL is used to specify the amount of liquid in a solution that contains a set amount of a drug, as in Atropine 0.4 mg/mL. Understanding the role of mL in dosage calculation helps ensure the precise administration of the intended drug:

• 1 mL equals 0.4 mg of Atropine.
• To find how many milliLiters deliver 0.3 mg, apply the proportion method.

This precise conversion from mg to mL provides clarity and consistency in drug delivery.

Intramuscular Injection

Intramuscular (IM) injection is a method of delivering medication directly into muscle tissue. It's used to achieve quicker absorption and faster action of the drug. For Atropine, here's what it involves:

• IM injections are performed using a syringe and needle.
• The needle penetrates the skin, entering muscle tissue where medication is deposited.
• Effective for drugs like Atropine that require rapid onset.

Proper technique is essential to avoid complications, emphasizing the importance of precise dosage calculation and administration.