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NURS 251 Pharmacology Final Exam Portage Learning Review ACTUAL EXAM 2026/2027 | Portage NURS 251 Pharm | Verified Q&A | Pass Guaranteed - A+ Graded

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Pass your NURS 251 Pharmacology Final Exam at Portage Learning with confidence using this complete 2026/2027 actual exam review featuring exam-style questions and detailed rationales for pharmacology certification. This verified resource covers key topics including pharmacokinetics (absorption, distribution, metabolism, excretion) and pharmacodynamics (drug-receptor interactions), autonomic nervous system drugs (cholinergic, adrenergic), cardiovascular and antihypertensive medications, CNS drugs (sedative-hypnotics, anticonvulsants, psychotropics), antimicrobial and antibiotic therapy, and endocrine and anti-inflammatory pharmacology. Each question includes detailed rationales and elaborated solutions to ensure mastery of all NURS 251 pharmacology final exam competencies. Backed by our Pass Guarantee. Download now.

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Institución
NURS 251 Pharmacology
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NURS 251 Pharmacology

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NURS 251 Pharmacology Final Exam
Portage Learning Review ACTUAL
EXAM 2026/2027 | Portage NURS 251
Pharm | Verified Q&A | Pass
Guaranteed - A+ Graded

MODULE 1: Pharmacokinetics & Pharmacodynamics (15 Questions)

Q1: A drug with high first-pass effect is administered orally. What adjustment is MOST likely required?

 A. Reduce the dose to avoid toxicity.

 B. Increase the dose or choose a different route. [CORRECT]

 C. Administer with food to enhance absorption.

 D. Add a CYP450 inhibitor to slow metabolism.

Correct Answer: B Rationale: First-pass effect refers to extensive hepatic metabolism of an oral drug
before reaching systemic circulation, significantly reducing bioavailability. Increasing the dose
compensates for this loss, or switching to IV/sublingual/buccal routes bypasses the liver entirely. A is
incorrect because high first-pass reduces, not increases, systemic drug levels. C may help absorption for
some drugs but does not address hepatic metabolism. D is unsafe without specific indication and could
cause dangerous toxicity by non-selectively inhibiting drug metabolism.



Q2: [CALCULATION] Order: Heparin 800 units/hour IV. Available: Heparin 25,000 units in 500 mL D5W.
What is the flow rate in mL/hr?

 A. 8 mL/hr

 B. 12 mL/hr

 C. 16 mL/hr [CORRECT]

,  D. 20 mL/hr

Correct Answer: C Rationale: Concentration = 25,000 units ÷ 500 mL = 50 units/mL. Desired 800 units/hr
÷ 50 units/mL = 16 mL/hr. A (8 mL/hr) incorrectly uses 100 units/mL concentration. B (12 mL/hr)
miscalculates concentration as ~66.7 units/mL. D (20 mL/hr) inverts the ratio or uses incorrect formula.
Formula: (Desired Dose ÷ Available Concentration) = Flow Rate.



Q3: A patient taking warfarin is prescribed a new antibiotic. The nurse recognizes that antibiotics
increase warfarin levels through which mechanism?

 A. Increased renal excretion of warfarin

 B. Inhibition of CYP2C9 hepatic metabolism [CORRECT]

 C. Enhanced plasma protein binding

 D. Induction of P-glycoprotein efflux pumps

Correct Answer: B Rationale: Many antibiotics (especially macrolides, metronidazole, trimethoprim-
sulfamethoxazole) inhibit CYP2C9, the primary enzyme metabolizing S-warfarin (the more potent
isomer). This inhibition reduces warfarin clearance, increasing INR and bleeding risk. A is incorrect
because antibiotics do not increase renal excretion of warfarin. C is incorrect because antibiotics
typically displace warfarin from protein binding sites or inhibit metabolism, not enhance binding. D is
incorrect because P-glycoprotein induction would reduce absorption, not increase levels.



Q4: [CALCULATION] A pediatric patient weighs 22 lbs. The physician orders Amoxicillin 20 mg/kg/day
divided BID. How many mg should the nurse administer per dose?

 A. 50 mg

 B. 100 mg [CORRECT]

 C. 200 mg

 D. 400 mg

Correct Answer: B Rationale: First convert weight: 22 lbs ÷ 2.2 = 10 kg. Total daily dose = 20 mg/kg/day
× 10 kg = 200 mg/day. Divided BID (twice daily) = 200 mg ÷ 2 = 100 mg per dose. A (50 mg) incorrectly
divides by 4. C (200 mg) gives total daily dose, not per-dose. D (400 mg) doubles the total daily dose.
Formula: (Weight in kg × Dose per kg) ÷ Number of doses.



Q5: Which factor would INCREASE the volume of distribution (Vd) of a lipophilic drug?

,  A. Increased patient age with decreased body fat

 B. Third-spacing due to ascites or edema

 C. Increased adipose tissue percentage [CORRECT]

 D. Decreased plasma protein binding

Correct Answer: C Rationale: Lipophilic drugs distribute extensively into adipose tissue. Increased body
fat creates a larger reservoir for the drug, increasing Vd and potentially prolonging half-life. A is
incorrect because decreased body fat reduces distribution into lipid compartments. B is incorrect
because third-spacing affects hydrophilic drugs, not lipophilic ones. D is incorrect because decreased
protein binding increases free drug but does not significantly alter Vd for lipophilic drugs; Vd is
determined by tissue distribution, not plasma binding.



Q6: A patient on a beta-blocker develops bronchospasm. The nurse understands this adverse effect
occurs because beta-blockers:

 A. Stimulate beta-2 receptors causing bronchodilation

 B. Block beta-1 receptors in cardiac tissue only

 C. Non-selectively block beta-2 receptors in bronchial smooth muscle [CORRECT]

 D. Increase acetylcholine release at muscarinic receptors

Correct Answer: C Rationale: Non-selective beta-blockers (e.g., propranolol, nadolol) block both beta-1
(cardiac) and beta-2 (bronchial/pulmonary/vascular) receptors. Beta-2 receptor activation normally
causes bronchial smooth muscle relaxation; blocking these receptors causes bronchoconstriction and
can precipitate asthma attacks. A describes beta-2 agonist action (opposite effect). B describes
cardioselective beta-blockers (e.g., metoprolol, atenolol) which have less bronchial effect. D describes
cholinergic mechanism, unrelated to beta-blocker pharmacology.



Q7: [CALCULATION] Order: Digoxin 0.125 mg PO daily. Available: Digoxin 0.25 mg tablets. How many
tablets should the nurse administer?

 A. 0.25 tablet

 B. 0.5 tablet [CORRECT]

 C. 1 tablet

 D. 2 tablets

, Correct Answer: B Rationale: Desired dose (0.125 mg) ÷ Available dose per tablet (0.25 mg) = 0.5 tablet.
A (0.25 tablet) incorrectly divides 0.125 by 0.5. C (1 tablet) gives full available dose, which is double the
ordered dose and could cause toxicity. D (2 tablets) is a dangerous overdose. Always verify: 0.5 tablet ×
0.25 mg = 0.125 mg ordered dose.



Q8: Which statement BEST describes the therapeutic index (TI) of a drug?

 A. The ratio between the effective dose and the toxic dose

 B. The margin of safety between the median effective dose (ED50) and median lethal dose
(LD50) [CORRECT]

 C. The time required to reach steady-state plasma concentration

 D. The degree of receptor binding affinity

Correct Answer: B Rationale: Therapeutic index = LD50/ED50, representing the margin of safety
between the dose that helps 50% of the population and the dose that kills 50% of the population. A low
TI (e.g., digoxin, lithium, warfarin, aminoglycosides) indicates a narrow safety margin requiring careful
monitoring. A is incorrect because it does not specify median doses or lethal vs. effective. C describes
time to steady-state (approximately 5 half-lives). D describes receptor affinity (Kd), unrelated to safety
margin.



Q9: [CALCULATION] A patient requires 1.5 grams of Cefazolin IV. The vial contains 2 grams in 10 mL.
How many mL should the nurse withdraw?

 A. 5.5 mL

 B. 6.5 mL

 C. 7.5 mL [CORRECT]

 D. 8.5 mL

Correct Answer: C Rationale: Concentration = 2 grams ÷ 10 mL = 0.2 g/mL (200 mg/mL). 1.5 grams ÷ 0.2
g/mL = 7.5 mL. A (5.5 mL) underestimates by 2 mL. B (6.5 mL) uses incorrect concentration calculation. D
(8.5 mL) overestimates. Formula: Desired Dose ÷ (Total Drug ÷ Total Volume) = Volume to withdraw.



Q10: A drug with a half-life of 6 hours is started. Approximately how long will it take to reach steady-
state plasma concentration?

 A. 6 hours

Escuela, estudio y materia

Institución
NURS 251 Pharmacology
Grado
NURS 251 Pharmacology

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Subido en
9 de mayo de 2026
Número de páginas
39
Escrito en
2025/2026
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