Methods for detecting drug interactions MCQs With Answer

Methods for detecting drug interactions MCQs With Answer

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Understanding methods for detecting drug interactions is essential for B. Pharm students to ensure safe and effective therapy. This concise overview highlights key approaches: in vitro assays (CYP inhibition/induction, transporter and protein‑binding studies), in vivo clinical DDI studies, therapeutic drug monitoring, and advanced pharmacokinetic modeling such as PBPK. It also covers pharmacodynamic interaction testing, pharmacogenomics, literature and database screening, spontaneous adverse‑event reporting, and computational prediction tools. Examples include probe substrate studies, Caco‑2 transport assays, hepatocyte incubations, and checkerboard assays for antimicrobials. Mastering these methods helps predict, detect, and manage clinically relevant DDIs. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. Which in vitro system is most appropriate to assess time‑dependent (mechanism‑based) inhibition of hepatic CYP enzymes?

  • Recombinant single CYP isoenzymes without preincubation
  • Human liver microsomes with preincubation and NADPH
  • Caco‑2 cell monolayers measuring permeability
  • Human plasma protein binding assays

Correct Answer: Human liver microsomes with preincubation and NADPH

Q2. Which probe substrate is commonly used to phenotype CYP3A activity in vivo?

  • Warfarin
  • Midazolam
  • Caffeine
  • Omeprazole

Correct Answer: Midazolam

Q3. Which method helps predict clinical drug–drug interactions by integrating drug properties, physiology, and dosing?

  • Therapeutic drug monitoring (TDM)
  • Physiologically based pharmacokinetic (PBPK) modeling
  • Protein binding displacement assays
  • Checkerboard synergy testing

Correct Answer: Physiologically based pharmacokinetic (PBPK) modeling

Q4. Which in vitro assay is primarily used to evaluate P‑glycoprotein (P‑gp) mediated efflux?

  • Human liver microsome CYP inhibition
  • Caco‑2 cell monolayer transport assay
  • Human hepatocyte induction assay
  • Plasma protein binding by ultrafiltration

Correct Answer: Caco‑2 cell monolayer transport assay

Q5. In clinical DDI studies, what design is most efficient for assessing the effect of a perpetrator on a victim drug in healthy volunteers?

  • Randomized parallel group with different subjects per arm
  • Open‑label fixed‑sequence crossover
  • Double‑blind placebo‑controlled parallel
  • Case‑control observational

Correct Answer: Open‑label fixed‑sequence crossover

Q6. Which parameter is primarily used to judge the magnitude of a pharmacokinetic interaction?

  • Change in AUC (area under the curve)
  • Change in melting point of the drug
  • Volume of distribution only
  • Urine color change

Correct Answer: Change in AUC (area under the curve)

Q7. Which computational approach is used to screen large compound sets for potential CYP inhibitory liability?

  • QSAR and molecular docking
  • Isobolographic analysis
  • Checkerboard microdilution
  • Clinical randomized trials

Correct Answer: QSAR and molecular docking

Q8. What does a basic static model “R value” compare when predicting CYP inhibition risk?

  • Free fraction in urine to Ki
  • Maximum plasma inhibitor concentration to in vitro Ki
  • AUC of victim drug to Cmax of victim drug
  • Protein binding percentage to clearance

Correct Answer: Maximum plasma inhibitor concentration to in vitro Ki

Q9. Which experimental system can assess both metabolic clearance and induction potential of a new chemical entity?

  • Recombinant CYP expressed in bacteria only
  • Primary human hepatocytes
  • Isolated kidney microsomes
  • Platelet aggregation assay

Correct Answer: Primary human hepatocytes

Q10. Which clinical finding suggests a clinically significant pharmacodynamic interaction rather than a pharmacokinetic one?

  • Altered AUC with no change in effect
  • Enhanced therapeutic effect without change in plasma concentrations
  • In vitro enzyme inhibition with no clinical data
  • Change in protein binding only

Correct Answer: Enhanced therapeutic effect without change in plasma concentrations

Q11. Which study type is required by regulatory guidance to quantify the magnitude of interaction when a drug is a strong CYP3A inhibitor?

  • In vitro microsomal screening only
  • Dedicated clinical DDI study using a CYP3A probe substrate
  • TDM in a real‑world cohort only
  • Animal toxicology study

Correct Answer: Dedicated clinical DDI study using a CYP3A probe substrate

Q12. Which in vitro metric best describes reversible inhibition potency against an enzyme?

  • IC50 or Ki
  • Protein binding percentage
  • Papp in Caco‑2
  • Minimum inhibitory concentration (MIC)

Correct Answer: IC50 or Ki

Q13. For transporter‑mediated DDI risk assessment, which parameter is commonly measured in hepatocyte uptake assays?

  • Intrinsic clearance by CYP2D6
  • Uptake clearance (CLuptake) mediated by OATP
  • Fraction unbound in plasma
  • Antimicrobial synergy index

Correct Answer: Uptake clearance (CLuptake) mediated by OATP

Q14. What role does therapeutic drug monitoring (TDM) play in detecting drug interactions clinically?

  • It measures genetic polymorphisms directly
  • It quantifies plasma drug levels to detect altered exposure from DDIs
  • It replaces in vitro enzyme assays
  • It measures tissue concentrations in liver biopsies routinely

Correct Answer: It quantifies plasma drug levels to detect altered exposure from DDIs

Q15. Which pharmacogenomic factor most commonly influences drug–drug interaction susceptibility?

  • Variants in CYP450 genes (e.g., CYP2D6, CYP2C19)
  • Blood group antigen type
  • Body weight alone
  • Urine pH only

Correct Answer: Variants in CYP450 genes (e.g., CYP2D6, CYP2C19)

Q16. Which method is used to detect potential interactions that alter drug protein binding and thus free fraction?

  • Ultrafiltration or equilibrium dialysis for plasma protein binding
  • Recombinant enzyme induction assay
  • Caco‑2 permeability for absorption
  • Checkerboard assay for synergy

Correct Answer: Ultrafiltration or equilibrium dialysis for plasma protein binding

Q17. Which analysis helps determine whether two drugs are synergistic, additive, or antagonistic in pharmacodynamics?

  • Isobolographic analysis
  • CYP inhibition IC50 curve fitting
  • PBPK steady‑state simulation only
  • Protein binding percentage comparison

Correct Answer: Isobolographic analysis

Q18. Spontaneous adverse event reporting systems (e.g., VigiBase) are useful for:

  • Definitive proof of mechanisms of DDI in vitro
  • Signal detection of suspected clinical DDIs post‑marketing
  • Measuring hepatic microsomal clearance directly
  • Predicting PK parameters using PBPK

Correct Answer: Signal detection of suspected clinical DDIs post‑marketing

Q19. Which experimental approach is preferred to assess time‑dependent induction of CYP enzymes?

  • Brief exposure of recombinant CYPs without mRNA measurement
  • Human hepatocyte cultures measuring mRNA and activity after repeated dosing
  • Caco‑2 transport with short incubation
  • Equilibrium dialysis for plasma protein binding

Correct Answer: Human hepatocyte cultures measuring mRNA and activity after repeated dosing

Q20. What is the primary utility of a probe drug cocktail in clinical DDI studies?

  • To test multiple CYP pathways simultaneously for inhibition or induction
  • To measure protein binding of several drugs
  • To assess renal clearance only
  • To evaluate food effects on drug solubility

Correct Answer: To test multiple CYP pathways simultaneously for inhibition or induction

Q21. Which in vitro system is most suitable to evaluate first‑pass intestinal metabolism?

  • Human intestinal microsomes or enterocyte preparations
  • Human plasma protein binding assay
  • Isolated kidney tubule assay
  • Whole blood clotting time assay

Correct Answer: Human intestinal microsomes or enterocyte preparations

Q22. When interpreting an in vitro CYP inhibition result, why is unbound inhibitor concentration important?

  • Only bound drug crosses membranes, so bound concentration predicts effect
  • Unbound concentration represents the pharmacologically active fraction available to inhibit enzymes
  • Unbound concentration is irrelevant for inhibition kinetics
  • Total concentration always underestimates interaction potential

Correct Answer: Unbound concentration represents the pharmacologically active fraction available to inhibit enzymes

Q23. Which regulatory threshold often triggers further clinical DDI investigation when a perpetrator increases victim drug AUC?

  • Any change in Cmax regardless of magnitude
  • A predefined fold‑change in AUC (commonly ≥2‑fold) depending on safety margin
  • Only changes in half‑life are considered
  • Changes in plasma color

Correct Answer: A predefined fold‑change in AUC (commonly ≥2‑fold) depending on safety margin

Q24. Checkerboard microdilution is primarily used to detect interactions between which drug classes?

  • Antimicrobials (antibiotics/antifungals)
  • Antidepressants and antipsychotics
  • Cardiac glycosides and diuretics
  • Proton pump inhibitors only

Correct Answer: Antimicrobials (antibiotics/antifungals)

Q25. Which database is commonly used by pharmacists for checking clinically significant drug interactions?

  • Micromedex or Lexicomp
  • GenBank sequence repository
  • Protein Data Bank (PDB)
  • ClinicalTrials.gov only

Correct Answer: Micromedex or Lexicomp

Q26. Mechanism‑based inactivation (MBI) of CYP enzymes is characterized by:

  • Immediate reversible inhibition that disappears after dilution
  • Irreversible or quasi‑irreversible loss of enzyme activity requiring new enzyme synthesis
  • Only induction of enzyme expression
  • Changes in membrane permeability only

Correct Answer: Irreversible or quasi‑irreversible loss of enzyme activity requiring new enzyme synthesis

Q27. Which PK sampling strategy is essential in a clinical DDI study to capture AUC accurately?

  • Only a single trough sample
  • Intensive serial sampling covering absorption, distribution, and elimination phases
  • Only urine sampling
  • Only a single peak sample

Correct Answer: Intensive serial sampling covering absorption, distribution, and elimination phases

Q28. In vitro to in vivo extrapolation (IVIVE) often requires which key inputs?

  • In vitro clearance, plasma protein binding, and physiological scaling factors
  • Only in vitro IC50 values without any scaling
  • Molecular weight and color of drug powder
  • Clinical trial recruitment rates

Correct Answer: In vitro clearance, plasma protein binding, and physiological scaling factors

Q29. Which clinical factor can alter the magnitude of a DDI by changing the victim drug unbound fraction?

  • Hypoalbuminemia decreasing protein binding
  • Change in genetic code of CYP enzymes overnight
  • Ambient room temperature during dosing
  • Drug color formulation

Correct Answer: Hypoalbuminemia decreasing protein binding

Q30. Which approach combines literature review, in vitro data, and basic modeling to decide whether a clinical DDI study is necessary?

  • Case report submission only
  • Tiered risk assessment and decision tree (stepwise DDI risk assessment)
  • Random guessing based on chemical name
  • Therapeutic drug monitoring without prior assessment

Correct Answer: Tiered risk assessment and decision tree (stepwise DDI risk assessment)

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