2026 Complete 100-Question Practice Exam with
Answers and Explanations | Latest Update
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EXAM OVERVIEW
NURS 6521 - Advanced Pharmacology applies advanced
principles of pharmacology, including pharmacogenomics,
pharmacokinetics, and pharmacodynamics, through analysis of
common drug classes prescribed by advanced practice nurses
across the lifespan. This comprehensive Final Exam covers all
major content areas from the course.
Core Content Areas:
• Pharmacokinetics and Pharmacodynamics
• Pharmacogenomics and Individual Variation
• Autonomic Nervous System Pharmacology
• Cardiovascular and Renal Pharmacology
• Central Nervous System Pharmacology
• Endocrine and Metabolic Pharmacology
• Anti-infective and Chemotherapeutic Agents
• Drug Interactions and Adverse Effects
• Prescribing in Special Populations
,SECTION 1: PHARMACOKINETICS & PHARMACODYNAMICS
(Questions 1–20)
1. A patient with hepatic cirrhosis is prescribed a highly
protein-bound medication. The nurse practitioner should
anticipate which pharmacokinetic alteration?
A) Decreased volume of distribution
B) Increased free drug concentration and risk of toxicity
C) Decreased drug absorption
D) Increased drug excretion
Correct Answer: B
Explanation: Hepatic cirrhosis results in decreased synthesis of
albumin, leading to hypoalbuminemia. Reduced protein-binding
sites result in a higher concentration of unbound (free) drug,
which is pharmacologically active. This increases the risk of
toxicity. The volume of distribution may actually increase, and
drug metabolism is also impaired. Excretion is not directly
affected by protein binding.
2. A drug with a half-life of 24 hours is administered once
daily. Approximately how many days will it take to reach
95% of steady-state concentration?
A) 2 days
B) 4 days
,C) 5 days
D) 7 days
Correct Answer: C
Explanation: Steady-state concentration is achieved after
approximately 4–5 half-lives. With a half-life of 24 hours, 95% of
steady-state is reached after approximately 4–5 days (4 half-lives
× 24 hours = 96 hours ≈ 4 days; 5 half-lives × 24 hours = 120
hours ≈ 5 days). The clinical significance is that drugs with long
half-lives take longer to reach therapeutic effect and also take
longer to be eliminated if discontinued.
3. Which of the following factors would increase the risk of
drug toxicity in an older adult patient?
A) Increased renal clearance
B) Decreased hepatic metabolism
C) Increased plasma protein levels
D) Increased gastric emptying
Correct Answer: B
Explanation: Older adults have decreased hepatic metabolism
due to reduced liver mass and blood flow, leading to drug
accumulation and increased risk of toxicity. Renal clearance also
decreases with age (not increases). Plasma protein levels may
decrease, not increase; gastric emptying slows, which may affect
absorption but not toxicity directly.
, 4. The nurse practitioner understands that the therapeutic
index (TI) of a drug is a measure of:
A) The drug's potency
B) The drug's efficacy
C) The drug's safety margin
D) The drug's half-life
Correct Answer: C
Explanation: The therapeutic index (TI = TD₅₀/ED₅₀) is a
measure of the drug's safety margin. A narrow TI indicates a small
margin between therapeutic and toxic doses, requiring careful
monitoring. Potency refers to the dose required to produce a
given effect; efficacy refers to the maximum effect a drug can
produce; half-life refers to the time for drug concentration to
decrease by 50%.
5. A patient is prescribed a drug that is a weak base. The
nurse practitioner understands that this drug will be better
absorbed in which part of the gastrointestinal tract?
A) Stomach (acidic environment)
B) Small intestine (alkaline environment)
C) Large intestine (neutral environment)
D) Absorption is not affected by pH
Correct Answer: B
Explanation: Weak bases are better absorbed in alkaline
environments where they remain non-ionized (uncharged). The
small intestine has a more alkaline pH, allowing weak bases to