Question

Use the labels where provided to obtain the necessary information; shade the dosage on syringes where provided. Round the answers to the nearest tenth where indicated. Order: Cefobid \(1 \mathrm{~g} \mathrm{IM}\) q \(12 \mathrm{~h}\) for 5 days. Available: Cefobid \(1 \mathrm{~g}\) with directions to add \(1.4 \mathrm{~mL}\) of sterile water for injection. Each \(2 \mathrm{~mL}\) yields \(1 \mathrm{~g}\). a. How many milliliters will you administer? b. Shade the dosage on the syringe provided.

Short answer

Administer 2 mL per dose. Use 2 mL on the syringe.

Step-by-step solution

Understand the Order

The doctor has prescribed Cefobid at a dosage of 1 gram to be administered intramuscularly (IM) every 12 hours for 5 days.

Interpret the Available Drug Information

The available medication comes as a vial containing 1 gram of Cefobid. The label instructions specify to add 1.4 mL of sterile water to reach a total volume of 2 mL, which yields the reconstituted drug at the concentration of 1 gram per 2 mL.

Calculate the Dose Volume

Since 1 gram of Cefobid corresponds to 2 mL as per the information on the label, you will need to administer 2 mL for each dose to deliver the required 1 gram.

Determine the Total Volume for the Course

Administering the doses every 12 hours means two doses per day. Over 5 days, the patient will receive 10 doses in total (2 doses/day * 5 days). Each dose requires 2 mL.

Calculate the Total Volume Required

Multiply the number of doses by the volume per dose: \(10 \, \text{doses} \times 2 \, \text{mL/dose} = 20 \, \text{mL in total} \).

Shade the Syringe

When preparing to administer the drug, fill a syringe with 2 mL for each dose. The syringe should be shaded at the 2 mL mark to indicate the correct volume for each injection.

Key concepts

Dosage Calculations

In pharmacology, dosage calculations play a crucial role in ensuring that patients receive the correct amount of medication. It is all about determining the right dose which a patient needs based on the prescribed amount. In our example, the prescription reads as 1 gram of Cefobid to be administered intramuscularly every 12 hours for 5 days.
This is where the calculation begins to ensure that the correct dosage is administered consistently.

Dosage calculation requires basic arithmetic skills and understanding the relationship between the drug quantity and its actual administration. In this case, the label provides a clear guide: adding 1.4 mL of sterile water to the Cefobid vial results in a 2 mL solution with the required 1 gram concentration. Whether you are a student or a practicing nurse, grasping these calculations guarantees that the patient gets the exact amount of medication scheduled by the physician.

• Always follow the prescriber's orders closely.
• Verify the concentration of the medication after reconstitution.
• Use tools or formulas to double-check your dose calculations.

Medication Administration

Understanding and following the proper methods for medication administration ensures patient safety and treatment effectiveness. For our Cefobid example, the specific administration route is intramuscular (IM). Each route (e.g., IM, IV, oral) has its guidelines and techniques that must be adhered to.

Administering a drug intramuscularly means injecting it directly into a muscle, allowing for faster absorption into the bloodstream. Preparing for an injection involves several steps, including assembling the necessary equipment, drawing the correct dose into a syringe, and choosing the right injection site.

• Verify the medication and dosage before administration.
• Check for patient allergies to ensure safe administration.
• Ensure the injection site is clean and use the correct injection technique.

Medication administration is not just about giving the drug; it is about ensuring that the entire process is handled with precision to maximize therapeutic outcomes and minimize potential side effects.

Nursing Education

Nursing education emphasizes the importance of thorough understanding in drug calculation and administration skills. These skills are critical components of nursing practice, as they directly affect patient care and safety. For students and professionals alike, mastering these concepts is necessary to reach a high standard of nursing competence.

Nursing programs extensively cover pharmacology, giving students a solid foundation on how various drugs interact within the human body and how to calculate correct dosages. Educational strategies include hands-on practice with real-life scenarios, fostering a deeper understanding of medication administration.

• Get familiar with common medication calculations and conversions.
• Engage in continuous learning to keep up-to-date with new medications and dosage guidelines.
• Participate in simulations to improve practical skills and confidence.

With robust nursing education, future nurses gain the competence and confidence to perform dosage calculations and medication administration correctly and safely in any healthcare setting.

Drug Reconstitution

Drug reconstitution refers to the process of adding a diluent such as sterile water or saline to a powdered medication to prepare it for administration. This step is essential in ensuring the medication reaches the necessary concentration as specified by the manufacturer.

In the case of Cefobid, adding 1.4 mL of sterile water achieves a 1 gram per 2 mL concentration. This process requires careful measurement and understanding of the reconstitution instructions. Proper reconstitution ensures the effectiveness of the medication and prevents any potential harm due to incorrect concentrations.

• Follow the manufacturer's instructions precisely for reconstitution.
• Use the correct type and amount of diluent.
• Ensure that the powdered medication is fully dissolved.

By mastering drug reconstitution techniques, healthcare providers can confidently prepare and administer the correct dosage, ensuring that patients receive effective and safe pharmaceutical care.