Screening models for cardiovascular drugs – antihypertensives MCQs With Answer

Screening models for cardiovascular drugs – antihypertensives MCQs With Answer

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Screening models for cardiovascular drugs—antihypertensives are vital for B.Pharm students to evaluate drug efficacy, safety, and mechanisms affecting blood pressure. This overview highlights in vitro and in vivo models: isolated tissue preparations (aortic rings, wire myograph, Langendorff heart), cell-based assays (HUVEC, vascular smooth muscle cells), and animal models (SHR, DOCA-salt, two-kidney one-clip). Key terms include pharmacodynamics, pharmacokinetics, dose–response, EC50/IC50, receptor binding, telemetry, and high-throughput screening. Students should grasp assay selection, interpretation of vasorelaxation/constriction data, target engagement (ACE, AT1, β-adrenergic, Ca2+ channels), and translational limitations. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. Which preparation is most commonly used to study endothelium-dependent vasorelaxation in antihypertensive screening?

  • Isolated rat aortic ring (organ bath preparation)
  • Langendorff perfused heart
  • Tail-cuff blood pressure in conscious rat
  • hERG channel assay

Correct Answer: Isolated rat aortic ring (organ bath preparation)

Q2. Which animal model is a genetic model of hypertension frequently used for long-term antihypertensive studies?

  • Spontaneously hypertensive rat (SHR)
  • DOCA-salt rat
  • Two-kidney one-clip (2K1C) rat
  • Normal Wistar rat

Correct Answer: Spontaneously hypertensive rat (SHR)

Q3. Which assay directly measures myocardial contractile function ex vivo for screening cardioactive antihypertensive effects?

  • Langendorff isolated perfused heart
  • Wire myograph for small arteries
  • HUVEC NO production assay
  • Tail-cuff plethysmography

Correct Answer: Langendorff isolated perfused heart

Q4. In organ bath studies, which agent is commonly used to precontract vascular tissue before testing vasorelaxants?

  • Phenylephrine (α1-agonist)
  • Amlodipine (calcium channel blocker)
  • Angiotensin II receptor blocker
  • Acetylcholine (endothelium-dependent vasodilator)

Correct Answer: Phenylephrine (α1-agonist)

Q5. Which cell type is most appropriate to study endothelial function and nitric oxide–mediated vasodilation in vitro?

  • Human umbilical vein endothelial cells (HUVECs)
  • Cardiomyocytes
  • Hepatocytes
  • Renal proximal tubular cells

Correct Answer: Human umbilical vein endothelial cells (HUVECs)

Q6. What parameter derived from a dose–response curve indicates drug potency in vasorelaxation studies?

  • EC50 (effective concentration for 50% response)
  • Maximal response (Emax)
  • Therapeutic index
  • Half-life (t1/2)

Correct Answer: EC50 (effective concentration for 50% response)

Q7. Which in vivo technique provides continuous, high-fidelity arterial blood pressure measurement in conscious rodents for antihypertensive evaluation?

  • Telemetry implant
  • Tail-cuff method
  • Non-invasive oscillometry
  • Single-point catheterization under anesthesia

Correct Answer: Telemetry implant

Q8. Which model is induced by mineralocorticoid excess plus salt and is used to study salt-sensitive hypertension?

  • DOCA-salt model
  • SHR model
  • Two-kidney one-clip (2K1C)
  • β-adrenergic overstimulation model

Correct Answer: DOCA-salt model

Q9. For assessing blockade of L-type calcium channels in vascular smooth muscle, which in vitro approach is most appropriate?

  • Patch-clamp recording on VSMCs
  • HUVEC proliferation assay
  • Renin activity assay
  • hERG potassium current assay

Correct Answer: Patch-clamp recording on VSMCs

Q10. In a Schild analysis, a parallel rightward shift of the agonist dose–response curve without change in Emax indicates what type of antagonism?

  • Competitive (surmountable) antagonism
  • Non-competitive antagonism
  • Irreversible antagonism
  • Partial agonism

Correct Answer: Competitive (surmountable) antagonism

Q11. Which biochemical assay would you use to quantify ACE inhibition in vitro during antihypertensive screening?

  • Hippuryl–histidyl–leucine hydrolysis assay (ACE activity assay)
  • cAMP ELISA
  • Western blot for β1-receptor
  • Renal clearance measurement

Correct Answer: Hippuryl–histidyl–leucine hydrolysis assay (ACE activity assay)

Q12. Which preclinical screening is essential to detect potential QT prolongation liability of a new antihypertensive?

  • hERG channel inhibition assay
  • P450 induction screen
  • Renin activity assay
  • Organ bath aortic relaxation

Correct Answer: hERG channel inhibition assay

Q13. In radioligand binding assays for angiotensin II receptors, what does a decrease in radioligand binding indicate when testing a candidate drug?

  • Competitive displacement indicating receptor affinity of the drug
  • Increased receptor expression
  • Enzymatic degradation of ligand
  • Non-specific binding artifact

Correct Answer: Competitive displacement indicating receptor affinity of the drug

Q14. Which in vivo model best mimics renovascular hypertension for testing renin–angiotensin system inhibitors?

  • Two-kidney one-clip (2K1C) model
  • DOCA-salt model
  • SHR model
  • Dahl salt-sensitive rat

Correct Answer: Two-kidney one-clip (2K1C) model

Q15. Which experimental stimulus is often used to test endothelium-independent vasodilation mediated by smooth muscle relaxation?

  • Sodium nitroprusside (NO donor)
  • Acetylcholine (endothelium-dependent)
  • Phenylephrine (vasoconstrictor)
  • Bradykinin (endothelium-dependent)

Correct Answer: Sodium nitroprusside (NO donor)

Q16. For high-throughput screening of antihypertensive leads targeting ACE, which platform is most suitable?

  • Fluorescence-based enzymatic ACE inhibition assay
  • Langendorff heart preparation
  • Telemetry blood pressure recording
  • Wire myograph organ bath

Correct Answer: Fluorescence-based enzymatic ACE inhibition assay

Q17. Which parameter indicates the safety margin between effective and toxic doses in preclinical pharmacology?

  • Therapeutic index (TI)
  • IC50 for target binding
  • EC50 for vasorelaxation
  • Pearson correlation coefficient

Correct Answer: Therapeutic index (TI)

Q18. Which in vitro model allows measurement of vascular reactivity in small resistance arteries relevant to peripheral resistance regulation?

  • Wire myograph
  • Langendorff heart
  • HUVEC tube formation
  • HEK293 cell transfection

Correct Answer: Wire myograph

Q19. Which pharmacokinetic parameter is most important to ensure adequate exposure of an antihypertensive drug in chronic studies?

  • Area under the plasma concentration–time curve (AUC)
  • Maximum binding affinity (Kd)
  • Number of hydrogen bond donors
  • In vitro IC50

Correct Answer: Area under the plasma concentration–time curve (AUC)

Q20. Which off-target screen is critical to minimize adverse metabolic–drug interaction risks for new antihypertensives?

  • CYP450 enzyme inhibition/induction panel
  • Langendorff heart assay
  • Wire myograph constriction assay
  • Endothelial NO synthesis assay

Correct Answer: CYP450 enzyme inhibition/induction panel

Q21. During organ bath studies, removal of the endothelium abolishes which response to acetylcholine?

  • Endothelium-dependent vasodilation
  • Sodium nitroprusside–induced relaxation
  • Phenylephrine-induced contraction
  • Baseline passive tension

Correct Answer: Endothelium-dependent vasodilation

Q22. Which in vivo measurement is commonly used to estimate plasma renin activity in antihypertensive research?

  • Radioimmunoassay or ELISA for angiotensin I generation
  • ECG recording
  • Urine sodium concentration only
  • hERG channel current measurement

Correct Answer: Radioimmunoassay or ELISA for angiotensin I generation

Q23. In vascular smooth muscle, blocking which target produces rapid vasodilation by preventing Ca2+ influx?

  • L-type calcium channels
  • ACE enzyme
  • AT1 receptor
  • eNOS enzyme

Correct Answer: L-type calcium channels

Q24. Which screening approach helps predict human relevance early by assessing target binding and potential off-target interactions computationally?

  • In silico molecular docking and ADMET prediction
  • Langendorff perfusion
  • Wire myograph of rat mesenteric arteries
  • HUVEC proliferation assay

Correct Answer: In silico molecular docking and ADMET prediction

Q25. Which method is best for measuring acute baroreflex-mediated changes in heart rate during antihypertensive testing?

  • Telemetry with synchronized blood pressure and ECG
  • Tail-cuff plethysmography
  • Organ bath aortic relaxation
  • Western blot for β1 receptor protein

Correct Answer: Telemetry with synchronized blood pressure and ECG

Q26. Which model is most appropriate to evaluate endothelial dysfunction induced by chronic high salt intake?

  • Dahl salt-sensitive rat
  • SHR rat
  • 2K1C rat
  • Normal Sprague–Dawley rat on standard diet

Correct Answer: Dahl salt-sensitive rat

Q27. For assessing direct renin inhibitors, which assay provides direct measurement of renin catalytic function?

  • Renin activity assay measuring angiotensin I production
  • NO production assay in endothelial cells
  • hERG inhibition assay
  • Wire myograph constriction test

Correct Answer: Renin activity assay measuring angiotensin I production

Q28. Which experimental readout indicates a drug is an ARB (angiotensin II type 1 receptor blocker) in receptor pharmacology studies?

  • Competitive displacement of angiotensin II radioligand at AT1 receptor
  • Inhibition of L-type Ca2+ current in cardiomyocytes
  • Direct stimulation of NO release from endothelium
  • Activation of β-adrenergic receptor signaling

Correct Answer: Competitive displacement of angiotensin II radioligand at AT1 receptor

Q29. When comparing two antihypertensive compounds, which metric helps compare intrinsic efficacy at producing maximal vasodilation?

  • Maximal response (Emax)
  • EC50 alone
  • Clearance (CL)
  • LogP value

Correct Answer: Maximal response (Emax)

Q30. Which ethical consideration is most relevant when selecting animal models for chronic antihypertensive efficacy studies?

  • Refinement, reduction, and replacement (3Rs) and minimizing animal suffering
  • Only cost of animals
  • Publishing in high-impact journals
  • Maximizing number of interventions per animal regardless of welfare

Correct Answer: Refinement, reduction, and replacement (3Rs) and minimizing animal suffering

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