Question

Calculate the volume necessary (in milliliters) to provide the dosage ordered, using medication labels where available. Express your answer as a decimal fraction to the nearest tenth where indicated. Order: Celestone \(7 \mathrm{mg}\) IM stat. Available: Celestone labeled \(6 \mathrm{mg}\) per \(\mathrm{mL}\) ________

Short answer

1.2 mL

Step-by-step solution

Understanding the Order and Availability

The order requires a dosage of 7 mg of Celestone to be administered intramuscularly (IM) immediately. The available medication is labeled as containing 6 mg of Celestone per milliliter. Our task is to calculate the volume in milliliters that corresponds to the required 7 mg.

Setting Up the Proportion

The relationship between the dose required and the concentration available can be expressed as a proportion. We have 6 mg in 1 mL and need 7 mg. Therefore, we can set up the proportion: \( \frac{6 \text{ mg}}{1 \text{ mL}} = \frac{7 \text{ mg}}{x \text{ mL}} \), where \( x \) is the volume in milliliters to administer.

Solving the Proportion

Cross-multiply to solve for \( x \): \( 6x = 7 \). Divide both sides by 6 to solve for \( x \). Thus, \( x = \frac{7}{6} \approx 1.1667 \) mL.

Rounding to the Nearest Tenth

Round the calculated volume to the nearest tenth as requested by the problem. The decimal 1.1667 rounds to 1.2 when rounded to the nearest tenth.

Key concepts

Proportion Method: A Versatile Tool for Dosage Calculations

The proportion method is a fundamental mathematical technique used to calculate medication dosages, particularly in medical settings. It involves setting up a proportion, or an equation of fractions, that represents the relationship between the known quantity of medication and the amount required. In the case provided, we need to calculate how many milliliters of Celestone, which is available in 6 mg per mL, will meet the ordered 7 mg. This requires a simple setup with a known ratio of the medication quantity and volume: \( \frac{6 \text{ mg}}{1 \text{ mL}} = \frac{7 \text{ mg}}{x \text{ mL}} \). This equation allows us to find \( x \), the unknown volume, through cross-multiplication.

Once cross-multiplying, you get \( 6x = 7 \). Solving the equation involves dividing both sides by 6, resulting in \( x = \frac{7}{6} \approx 1.1667 \text{ mL} \). The final step is rounding to the nearest tenth, resulting in 1.2 mL for administration. This method is not only useful for medication calculations but also in other ratio and proportion problems across various applications, reinforcing the importance of understanding this concept thoroughly.

Understanding Intramuscular Injection

Intramuscular (IM) injection is a method of delivering medication deep into the muscles, allowing it to be absorbed into the bloodstream more rapidly than other methods such as subcutaneous injection. This delivery method is crucial for medications that need to act quickly or when large doses are required.

There are several key factors to consider when performing an intramuscular injection:

• Selection of Injection Site: Common sites include the deltoid muscle of the arm and the vastus lateralis muscle of the thigh. Each site has different recommended maximum volumes.
• Needle Size: Typically longer needles are required to reach deep into the muscles without causing discomfort.
• Injection Technique: It's important to use the correct angle and method to minimize pain and maximize effectiveness.

Intramuscular injections are a significant part of many medical treatments, so proper technique and site selection are paramount for ensuring patient comfort and medication efficacy.

Decoding Medication Labels for Accurate Dispensing

Medication labels are an essential guide for healthcare professionals to ensure safe and accurate dosing. Each label contains vital information that must be interpreted correctly to administer the correct dosage. Key elements of a medication label include:

• Concentration Information: In the context of Celestone, we see it labeled as 6 mg per mL, which informs us how much active ingredient is present per milliliter of solution.
• Expiration Date: Ensures the medication is used within its effective life span.
• Instructions for Use: May include specific storage conditions or warnings that influence how the medication should be administered.

Understanding these labels helps prevent dosage errors, as evidenced by the necessity of knowing the concentration to calculate the needed volume accurately. Thus, proficiently reading and interpreting medication labels is a critical skill in healthcare, enabling precise and safe patient care.