Introduction to hard gelatin capsules MCQs With Answer

Introduction to hard gelatin capsules MCQs With Answer

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Hard gelatin capsules (HGCs) are a cornerstone of solid dosage formulation studied in pharmaceutical technology. This introduction covers shell composition, gelatin properties, manufacturing steps, filling techniques, capsule sizes, quality control tests (disintegration, dissolution, weight variation), moisture and stability concerns, and alternatives like HPMC shells. Key concepts include gelatin source and Bloom strength, pin-dipping shell formation, common filling methods (dosator, tamping, auger), sealing and microbial considerations, and formulation strategies to manage hygroscopic or poor-flow powders. Understanding these fundamentals helps B. Pharm students design, evaluate, and control capsule products effectively. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. Which material is the primary constituent of conventional hard gelatin capsule shells?

  • Starch
  • Hypromellose (HPMC)
  • Gelatin derived from collagen
  • Cellulose acetate

Correct Answer: Gelatin derived from collagen

Q2. What manufacturing step forms the two halves of a hard gelatin capsule shell?

  • Compression molding of powder
  • Pin-dipping into a gelatin solution
  • Injection molding of plastic
  • Extrusion followed by cutting

Correct Answer: Pin-dipping into a gelatin solution

Q3. Which property of gelatin is measured by Bloom strength?

  • Viscosity of the gelatin solution
  • Gel strength and firmness of the set gel
  • Moisture content of the shell
  • Melting point of gelatin

Correct Answer: Gel strength and firmness of the set gel

Q4. Which capsule size numbering indicates the largest hard gelatin capsule commonly used?

  • Size 5
  • Size 00
  • Size 000
  • Size 1

Correct Answer: Size 000

Q5. Which of the following is a common vegetarian alternative to gelatin capsules?

  • Gelatin from fish
  • Hypromellose (HPMC) capsules
  • Casein-based capsules
  • Pectin-based immediate-release capsules

Correct Answer: Hypromellose (HPMC) capsules

Q6. Which filling technique is most suitable for free-flowing powders in hard gelatin capsules at industrial scale?

  • Dosator (puncture/dosing) method
  • Capsule coating
  • Wet granulation inside shell
  • Solvent evaporation filling

Correct Answer: Dosator (puncture/dosing) method

Q7. What is the primary quality-control test to assess whether hard gelatin capsules disintegrate appropriately?

  • Viscosity measurement
  • Disintegration test in specified medium
  • Loss on drying
  • pH measurement of shell

Correct Answer: Disintegration test in specified medium

Q8. Excess moisture in the capsule shell generally causes which problem?

  • Increased brittleness and cracking
  • Enhanced friability of fill material only
  • Softening and possible sticking of capsule halves
  • Permanent coloration loss

Correct Answer: Softening and possible sticking of capsule halves

Q9. Which of these tests evaluates the shell’s residual water content?

  • Disintegration time
  • Loss on drying (LOD)
  • Bacterial endotoxin test
  • Assay of active drug

Correct Answer: Loss on drying (LOD)

Q10. Crosslinking of gelatin shells (e.g., by aldehydes) most likely affects which performance parameter?

  • Improved color stability
  • Slower or failed dissolution/disintegration
  • Increased capsule size
  • Enhanced capsule elasticity

Correct Answer: Slower or failed dissolution/disintegration

Q11. Which in-process control is essential to ensure uniform dose in filled capsules?

  • Capsule shell color uniformity
  • Weight variation of filled capsules
  • Bloom strength of gelatin
  • Viscosity of fill suspension

Correct Answer: Weight variation of filled capsules

Q12. Which excipient class is commonly added to powder fills to improve flowability for capsule filling?

  • Lubricants and glidants (e.g., magnesium stearate, colloidal silica)
  • Preservatives for microbial control
  • Strong oxidizing agents
  • High levels of water

Correct Answer: Lubricants and glidants (e.g., magnesium stearate, colloidal silica)

Q13. Which pharmacopeial apparatus is often used for dissolution testing of hard gelatin capsules?

  • USP Apparatus I (basket) or II (paddle)
  • HPLC autosampler only
  • Friability tester
  • UV-Vis spectrophotometer without dissolution vessel

Correct Answer: USP Apparatus I (basket) or II (paddle)

Q14. What is the typical effect on a gelatin capsule when filled with a highly hygroscopic powder?

  • Capsule becomes more brittle and cracks
  • No interaction; properties remain unchanged
  • Moisture migration causes shell softening and deformation
  • Immediate crosslinking of gelatin

Correct Answer: Moisture migration causes shell softening and deformation

Q15. Which sealing technique can be used to prevent tampering and reduce leakage between capsule halves?

  • Thermal fusion or banding with gelatin solution
  • Omitting cap from capsule design
  • Increasing Bloom strength only
  • Adding magnesium stearate to shell

Correct Answer: Thermal fusion or banding with gelatin solution

Q16. Which analytical parameter of gelatin influences the viscosity of the dipping solution?

  • Bloom strength and concentration
  • Capsule colorant type
  • Fill powder particle size
  • Capsule size number

Correct Answer: Bloom strength and concentration

Q17. Why are crosslinking reactions between gelatin and aldehyde-containing drugs a concern?

  • They improve capsule dissolution
  • They can reduce enzymatic degradation of drug
  • They may form insoluble complexes, delaying drug release
  • They enhance capsule color stability

Correct Answer: They may form insoluble complexes, delaying drug release

Q18. For quality assurance, which microbial test is relevant for hard gelatin capsules?

  • Total aerobic microbial count (TAMC) and absence of specified pathogens
  • Endotoxin testing only for capsules
  • Viscosity test of the filling powder
  • Disintegration test only

Correct Answer: Total aerobic microbial count (TAMC) and absence of specified pathogens

Q19. Which environmental condition is most critical to control during manufacturing and storage of hard gelatin capsules?

  • Ambient light intensity
  • Relative humidity and temperature
  • Atmospheric CO2 concentration
  • Background acoustic noise

Correct Answer: Relative humidity and temperature

Q20. What is the main advantage of using two-piece hard gelatin capsules versus tablets?

  • They always provide sustained release
  • Easier taste masking, flexibility of formulation and dose adjustment
  • They are more environmentally stable than all tablets
  • They never require stability testing

Correct Answer: Easier taste masking, flexibility of formulation and dose adjustment

Q21. Which characteristic of a powder formulation is most detrimental to automatic capsule filling performance?

  • Good flow and low cohesion
  • High bulk density with uniform particles
  • High cohesion and poor flowability
  • Low static charge and free-flowing nature

Correct Answer: High cohesion and poor flowability

Q22. What is the role of an enteric coating or enteric capsule shell?

  • To release drug immediately in the stomach
  • To mask color only
  • To resist gastric fluid and release drug in the intestine
  • To accelerate capsule dissolution in acidic media

Correct Answer: To resist gastric fluid and release drug in the intestine

Q23. Which excipient in the fill can accelerate moisture-induced capsule shell crosslinking?

  • Sugar alcohols that retain water
  • Desiccants included in the fill
  • Inert pigments only
  • Non-hygroscopic glidants

Correct Answer: Sugar alcohols that retain water

Q24. Which statement best describes capsule tamper-evident banding?

  • A decorative paint applied to capsule surface
  • A gel or polymer band applied at the junction to show tampering
  • Removal of cap to reduce leakage
  • An inner seal inside the fill material

Correct Answer: A gel or polymer band applied at the junction to show tampering

Q25. Which factor is assessed by a friability test for capsules?

  • Moisture content only
  • Susceptibility to abrasion and mechanical damage during handling
  • Chemical stability against oxidation
  • Bloom strength of gelatin

Correct Answer: Susceptibility to abrasion and mechanical damage during handling

Q26. During stability studies, which observation indicates gelatin shell degradation?

  • Consistent disintegration times over time
  • Unchanged capsule weight and appearance
  • Capsule brittleness, cracking, or excessive softening
  • Improved dissolution rate compared to initial

Correct Answer: Capsule brittleness, cracking, or excessive softening

Q27. Which analytical parameter of the filling process helps detect content uniformity issues?

  • Visual inspection of unfilled shells
  • Assay of active ingredient in individual capsules
  • Bloom strength measurement
  • Capsule color measurement

Correct Answer: Assay of active ingredient in individual capsules

Q28. Why might a formulator choose a two-part fill (pellets plus powder) for a capsule?

  • To guarantee immediate release of all actives
  • To allow multiparticulate controlled release or separation of incompatible actives
  • To reduce manufacturing steps by dissolving pellets into shell
  • To ensure capsule halves fuse permanently

Correct Answer: To allow multiparticulate controlled release or separation of incompatible actives

Q29. Which of the following is a common cause of poor dissolution from gelatin capsules unrelated to the active ingredient?

  • Crosslinking of gelatin shell during storage
  • Use of high purity gelatin with correct moisture
  • Proper capsule sealing technique
  • Low fill weight uniformity

Correct Answer: Crosslinking of gelatin shell during storage

Q30. Which regulatory or safety consideration is especially relevant for gelatin sourced from animals?

  • Ensuring gelatin has the highest Bloom only
  • Source traceability, BSE/TSE risk mitigation and supplier certification
  • Always using porcine gelatin regardless of patient preference
  • Ignoring microbial testing for animal-derived materials

Correct Answer: Source traceability, BSE/TSE risk mitigation and supplier certification

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