A client weighs 92 kg and is prescribed heparin 12 units/kg/hr. The heparin is supplied as 25,000 units in 250 mL. How many mL/hr should the client receive? (Round to the nearest whole number)

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Master dosage calculations and medication administration with our comprehensive quiz. Featuring multiple choice questions, complete with rationales and explanations, to prepare you thoroughly for the Archer Pharmacology exam.

Multiple Choice

A client weighs 92 kg and is prescribed heparin 12 units/kg/hr. The heparin is supplied as 25,000 units in 250 mL. How many mL/hr should the client receive? (Round to the nearest whole number)

Explanation:
Focus on converting a weight-based, per-hour dose into a drip rate using the solution’s concentration. First, calculate how many units per hour are needed: 92 kg × 12 units/kg/hr = 1104 units/hr. The heparin solution has 25,000 units in 250 mL, which is 100 units per mL. To find the mL per hour, divide the required units by the concentration: 1104 ÷ 100 = 11.04 mL/hr. Round to the nearest whole number: 11 mL/hr. So the client should receive about 11 mL per hour. For context, 9 mL/hr would deliver 900 units/hr, 13 mL/hr would deliver 1300 units/hr, and 15 mL/hr would deliver 1500 units/hr—none match the prescribed 1104 units/hr.

Focus on converting a weight-based, per-hour dose into a drip rate using the solution’s concentration. First, calculate how many units per hour are needed: 92 kg × 12 units/kg/hr = 1104 units/hr. The heparin solution has 25,000 units in 250 mL, which is 100 units per mL. To find the mL per hour, divide the required units by the concentration: 1104 ÷ 100 = 11.04 mL/hr. Round to the nearest whole number: 11 mL/hr. So the client should receive about 11 mL per hour. For context, 9 mL/hr would deliver 900 units/hr, 13 mL/hr would deliver 1300 units/hr, and 15 mL/hr would deliver 1500 units/hr—none match the prescribed 1104 units/hr.

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