Application of preformulation in liquid oral dosage forms MCQs With Answer

Application of preformulation in liquid oral dosage forms MCQs With Answer

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Introduction: Preformulation in liquid oral dosage forms is the foundational study of a drug’s physical and chemical properties to design safe, stable and effective syrups, suspensions and solutions. Key preformulation assessments include solubility, pKa, partition coefficient (logP/logD), stability (hydrolysis, oxidation, photodegradation), polymorphism, particle size, viscosity, rheology, preservative compatibility, buffer capacity, osmolarity and excipient interactions. Understanding these parameters guides salt selection, cosolvent use, surfactant choice, preservative systems and packaging to ensure bioavailability and shelf‑life. This practical knowledge helps B.Pharm students predict formulation challenges and select appropriate analytical and stability studies. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. Which preformulation parameter most directly predicts the drug’s ability to remain dissolved in a liquid oral formulation?

  • Melting point
  • Solubility
  • Polymorphic form
  • Particle density

Correct Answer: Solubility

Q2. pKa determination in preformulation is important because it helps predict:

  • Melting behavior
  • Ionization state and pH‑dependent solubility
  • Crystalline habit
  • Viscosity of the final product

Correct Answer: Ionization state and pH‑dependent solubility

Q3. LogP (partition coefficient) provides information about the drug’s:

  • Thermal stability
  • Lipophilicity and membrane permeability
  • Color stability
  • Electrical conductivity

Correct Answer: Lipophilicity and membrane permeability

Q4. Which technique is most useful to assess particle size distribution during preformulation of suspensions?

  • HPLC
  • Laser diffraction
  • FTIR spectroscopy
  • pH titration

Correct Answer: Laser diffraction

Q5. Which excipient function is primarily controlled by viscosity and rheology studies in liquid formulations?

  • Sweetening effect
  • Suspending and pourability behavior
  • Buffering capacity
  • Preservative potency

Correct Answer: Suspending and pourability behavior

Q6. Forced degradation studies in preformulation are performed to:

  • Measure taste masking efficiency
  • Identify likely degradation pathways and develop stability‑indicating methods
  • Determine tablet disintegration time
  • Assess microbial limits

Correct Answer: Identify likely degradation pathways and develop stability‑indicating methods

Q7. Which preservative property is critical to test in preformulation for oral liquids?

  • Antioxidant capacity
  • Preservative efficacy against typical oral contaminants
  • Buffering strength
  • Solvent miscibility

Correct Answer: Preservative efficacy against typical oral contaminants

Q8. Tonicity/osmolarity assessment is essential for which type of oral liquid?

  • Suspensions intended for intravenous use
  • Syrups and pediatric oral solutions where palatability and mucosal irritation matter
  • Topical gels
  • Film coated tablets

Correct Answer: Syrups and pediatric oral solutions where palatability and mucosal irritation matter

Q9. Which parameter helps predict sedimentation rate of dispersed particles in a suspension?

  • Polymorphic form
  • Particle size and density (Stokes’ law factors)
  • UV absorbance
  • IR spectrum

Correct Answer: Particle size and density (Stokes’ law factors)

Q10. Choice of buffer in liquid oral formulations is primarily guided by:

  • API’s color
  • API pKa and required pH for stability and solubility
  • Packaging material
  • Ambient humidity

Correct Answer: API pKa and required pH for stability and solubility

Q11. Which co‑solvent is commonly used to improve water solubility of lipophilic drugs in oral liquids?

  • Glycerin
  • Methanol
  • Sodium chloride
  • Sorbitol

Correct Answer: Glycerin

Q12. Surfactants in oral liquid preformulation primarily assist with:

  • Enhancing chemical stability against oxidation
  • Improving wetting, solubilization and emulsification of lipophilic drugs
  • Increasing microbial load
  • Raising melting point

Correct Answer: Improving wetting, solubilization and emulsification of lipophilic drugs

Q13. Which analytical method is essential as a stability‑indicating assay in preformulation?

  • Non‑specific titration only
  • Validated HPLC method capable of separating degradation products from API
  • Osmometer measurement
  • Particle size analysis

Correct Answer: Validated HPLC method capable of separating degradation products from API

Q14. Antioxidants are added to oral liquids primarily to prevent:

  • Microbial growth
  • Oxidative degradation of the API
  • Precipitation due to pH change
  • Increase in viscosity

Correct Answer: Oxidative degradation of the API

Q15. Salt selection during preformulation can improve drug properties by:

  • Decreasing molecular weight
  • Improving solubility, stability and dissolution rate
  • Changing the API’s elemental composition
  • Eliminating the need for preservatives

Correct Answer: Improving solubility, stability and dissolution rate

Q16. Zeta potential measurement in suspensions helps predict:

  • Thermal decomposition temperature
  • Electrostatic stability and tendency to aggregate
  • Colorimetric properties
  • Buffer capacity

Correct Answer: Electrostatic stability and tendency to aggregate

Q17. Which phenomenon describes gradual growth of larger particles at the expense of smaller ones in suspensions?

  • Ostwald ripening
  • Chelation
  • Coacervation
  • Ionization

Correct Answer: Ostwald ripening

Q18. Compatibility studies between API and excipients are done to detect:

  • Taste preferences
  • Chemical reactions, physical changes or catalyzed degradation
  • Packaging recyclability
  • Manufacturing personnel preferences

Correct Answer: Chemical reactions, physical changes or catalyzed degradation

Q19. Which property is most important when selecting a preservative for a sugar‑containing syrup?

  • Preservative’s solubility and activity at the product pH
  • Preservative’s melting point
  • Color of the preservative
  • Ability to form micelles

Correct Answer: Preservative’s solubility and activity at the product pH

Q20. The HLB (hydrophile‑lipophile balance) of a surfactant influences its ability to:

  • Act as a buffer
  • Form oil‑in‑water or water‑in‑oil emulsions
  • Preserve against microbes
  • Change API pKa

Correct Answer: Form oil‑in‑water or water‑in‑oil emulsions

Q21. Which factor most increases chemical hydrolysis risk in a liquid oral formulation?

  • Low water content
  • Exposure to moisture and inappropriate pH
  • High lipid content
  • Use of solid dosage forms

Correct Answer: Exposure to moisture and inappropriate pH

Q22. Chelating agents like EDTA are included in preformulation to:

  • Enhance viscosity
  • Bind metal ions that catalyze degradation
  • Act as sweeteners
  • Neutralize acids

Correct Answer: Bind metal ions that catalyze degradation

Q23. Which preformulation study helps predict taste masking requirements?

  • Solubility and ionization at oral pH, and sensory threshold assays
  • Melting point only
  • Zeta potential only
  • Osmolarity only

Correct Answer: Solubility and ionization at oral pH, and sensory threshold assays

Q24. Photostability testing in preformulation is necessary when an API is:

  • Known to be light sensitive or contains chromophores
  • Completely insoluble in water
  • A strong base only
  • Only administered as tablet

Correct Answer: Known to be light sensitive or contains chromophores

Q25. Redispersion and ease of re‑suspending are evaluated because they affect:

  • Thermal conductivity
  • Dose uniformity and patient acceptability
  • Color stability
  • Packaging density

Correct Answer: Dose uniformity and patient acceptability

Q26. Which excipient can both increase viscosity and act as a suspending agent in syrups?

  • Citric acid
  • Cellulose derivatives (e.g., carboxymethyl cellulose)
  • EDTA
  • Sodium chloride

Correct Answer: Cellulose derivatives (e.g., carboxymethyl cellulose)

Q27. Microbial challenge tests during preformulation help determine:

  • Buffer capacity
  • Preservative system effectiveness and required concentration
  • Particle size distribution
  • Drug photolability

Correct Answer: Preservative system effectiveness and required concentration

Q28. Which factor is LEAST likely assessed during preformulation for oral liquids?

  • API solubility profile
  • Compatibility with common excipients
  • Granulation behavior in high shear mixers
  • Stability under stress conditions

Correct Answer: Granulation behavior in high shear mixers

Q29. A high viscosity in an oral suspension can benefit the formulation by:

  • Increasing sedimentation rate
  • Reducing sedimentation and improving physical stability
  • Eliminating need for preservative
  • Reducing API solubility

Correct Answer: Reducing sedimentation and improving physical stability

Q30. Preformulation recommendations for packaging selection of an oral liquid typically consider:

  • API color only
  • API stability, adsorption to container, light sensitivity and extractables/leachables
  • Only the cheapest available container
  • Manufacturing speed exclusively

Correct Answer: API stability, adsorption to container, light sensitivity and extractables/leachables

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