Exam 5: Intravenous Preparations With Clinical Applications

Rate: D₅W 1000 mL at 50 mL/hr , How many hours are required to administer this fluid at the given rate?

Give amphotericin B 20 mg IV daily.Available: amphotericin B 50 mg/15 mL , Set and solution: D₅W 500 mL bag and a drop factor of 10 gtt/mL set , Instructions: infuse over 6 hours. a. What is the correct drug dose? b. What is the flow rate in gtt/min?

Give nafcillin 1 g q4h.Available: nafcillin 1 g, add 2 mL diluent to yield 3 mL , Set and solution: D₅W 50 mL bag and a set with a 60 gtt/mL drop factor , Instructions: infuse over 60 minutes. a. What is the correct drug dose? b. What is the flow rate in gtt/min?

D₅W at 60 mL/hr a. 10 gtt/mL? b. 15 gtt/mL? c. 20 gtt/mL? d. 60 gtt/mL?

Give gentamycin 60 mg q12h.Available: gentamycin 80 mg/2 mL , Set and solution: Buretrol with a 60 gtt/mL drop factor and D₅W 500 mL , Instructions: dilute in 50 mL and infuse over 30 minutes. a. What is the correct drug dose? b. What is the flow rate in gtt/min?

Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods. -Lidocaine 75 mg, IV push , Available: 100 mg/10 mL , Amount:

Rate: D₅W 500 mL at 20 mL/hr , How many hours are required to administer this fluid at the given rate?

Rate: NS 1500 mL at 125 mL/hr , How many hours are required to administer this fluid at the given rate?

Rate: TPN 1500 mL at 60 mL/hr , How many hours are required to administer this fluid at the given rate?

Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods. -Atropine sulfate 0.5 mg, IV push , Available: 1 mg/10 mL , Amount:

Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods. -Atropine sulfate 0.6 mg, IV push , Available: 1 mg/10 mL

PSS at 500 mL/hr a. 10 gtt/mL? b. 15 gtt/mL? c. 20 gtt/mL? d. 60 gtt/mL?

NS at 200 mL/hr a. 10 gtt/mL? b. 15 gtt/mL? c. 20 gtt/mL? d. 60 gtt/mL?

Rate: D₅1/2NS 1000 mL at 125 mL/hr , How many hours are required to administer this fluid at the given rate?

Sodium phosphate 15 mmol IV in 100 mL D₅W over 2 hours , Available: 3 mmol P and mEq Na/mL in 1 mL a. What is the correct dose? b. What is the flow rate in mL/hr?

Give tetracycline 250 mg IV q6h.Available: tetracycline 500 mg, add 1.8 mL diluent to yield 2 mL , Set and solution: 100 mL bag of D₅W and a set with a 20 gtt/mL drop factor , Instructions: infuse over 60 minutes. a. What is the correct drug dose? b. What is the flow rate in gtt/min?

Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods. -Adenosine 6 mg, rapid IV push , Available: 3 mg/mL , Amount:

Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods. -Demerol 35 mg IV , Available: 100 mg in 2 mL

Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods. -Sodium bicarbonate 1 mEq/kg, IV push , Patient weight: 70 kg , Available: 44.6 mEq/50 mL , Amount:

Give tobramycin (Nebcin) 60 mg IV q6h.Available: see label below , Set and solution: 50 mL bag D₅W and a set with a 15 gtt/mL drop factor , Instructions: dilute with 50 mL and infuse over 30 minutes. a. What is the correct drug dose? b. What is the flow rate in gtt/min?