Nokea
Upregulation or hypersensitization may lead to:
- A. Increased response to a drug
- B. Decreased response to a drug
- C. An exaggerated response if the drug is withdrawn
- D. Refractoriness or complete lack of response
Correct Answer: C
Rationale: Choice C is correct because upregulation (more receptors) or hypersensitization from chronic antagonist use can cause an exaggerated rebound response if withdrawn, as seen with beta blockers. Choice A is incorrect as increased response occurs during use, not withdrawal. Choice B is wrong because decreased response isn't typical of upregulation. Choice D is incorrect since refractoriness relates to agonists, not this scenario.
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An 80-year-old patient who has COPD takes TMP/SMX for acute exacerbations, which occur three or four times each year. To monitor this patient for adverse drug reactions, the primary care NP should order:
- A. liver function tests.
- B. blood urea nitrogen and creatinine.
- C. serum bilirubin levels.
- D. a complete blood count (CBC) with differential.
Correct Answer: D
Rationale: The correct answer is D because elderly patients on TMP/SMX risk bone marrow suppression, monitored via CBC. Choice A is incorrect (liver tests pre-treatment). Choice B is wrong (renal pre-treatment). Choice C is inaccurate (bilirubin not primary).
Drugs that may cause increased adverse effects in women include:
- A. Lipid-soluble drugs
- B. Water-soluble drugs
- C. Drugs that are highly protein bound
- D. All of the above
Correct Answer: B
Rationale: Choice B is correct because women's lower lean mass reduces the volume of distribution for water-soluble drugs, increasing concentrations and ADR risk. Choice A is incorrect as lipid-soluble drugs distribute more in fat, not necessarily causing more ADRs. Choice C is wrong because protein binding isn't sex-specific enough here. Choice D is incorrect since only water-soluble drugs align.
An agonist activates a receptor and stimulates a response. When given frequently over time, the body may:
- A. Upregulate the total number of receptors
- B. Block the receptor with a partial agonist
- C. Alter the drug's metabolism
- D. Downregulate the numbers of that specific receptor
Correct Answer: D
Rationale: Choice D is correct because frequent agonist use can cause the body to downregulate receptors, reducing sensitivity to overstimulation as a compensatory mechanism. Choice A is incorrect as upregulation occurs with antagonists, not agonists. Choice B is wrong because partial agonists compete, not result from frequent use. Choice C is incorrect since metabolism changes aren't the primary receptor response.
Upregulation or hypersensitization may lead to:
- A. Increased response to a drug
- B. Decreased response to a drug
- C. An exaggerated response if the drug is withdrawn
- D. Refractoriness or complete lack of response
Correct Answer: C
Rationale: Choice C is correct because upregulation (more receptors) or hypersensitization from chronic antagonist use can cause an exaggerated rebound response if withdrawn, as seen with beta blockers. Choice A is incorrect as increased response occurs during use, not withdrawal. Choice B is wrong because decreased response isn't typical of upregulation. Choice D is incorrect since refractoriness relates to agonists, not this scenario.
Resources for patients with drug abuse issues include:
- A. Substance Abuse and Mental Health Services Administration (SAMHSA)
- B. National Institute on Drug Abuse (NIDA)
- C. Local support groups
- D. All of the above
Correct Answer: D
Rationale: Choice D is correct because SAMHSA (helpline), NIDA (research/support), and local groups (e.g., AA) provide comprehensive resources for drug abuse, per national frameworks. Choice A is incorrect alone as it's one resource. Choice B is wrong by itself because NIDA is just part. Choice C is incorrect solo since groups are only one option.