Applications of GRDDS in sustained drug release MCQs With Answer

Applications of GRDDS in sustained drug release MCQs With Answer

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Introduction: Gastroretentive drug delivery systems (GRDDS) enhance sustained drug release by prolonging gastric residence time, improving bioavailability for drugs with a narrow absorption window. GRDDS applications include floating systems, bioadhesive/mucoadhesive systems, expandable and high-density designs that control buoyancy, swelling and adhesion. Key formulation considerations include choice of polymers like HPMC and Carbopol, gas-generating agents (e.g., sodium bicarbonate), tablet size, and in vitro metrics such as floating lag time, total floating duration and swelling index. GRDDS are especially valuable for sustained drug release, targeted gastric action, and dose reduction, but are influenced by gastric motility, fed state and drug stability. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. What is the primary goal of gastroretentive drug delivery systems (GRDDS) in sustained drug release?

  • To increase drug solubility in intestinal fluid
  • To prolong gastric residence time and sustain release
  • To target colonic bacteria for activation
  • To reduce tablet hardness for faster disintegration

Correct Answer: To prolong gastric residence time and sustain release

Q2. Which drug property makes it most suitable for GRDDS formulation?

  • Extensive absorption throughout the entire GI tract
  • Narrow absorption window in the upper GIT
  • Stability only in alkaline pH
  • High molecular weight peptides degraded in stomach

Correct Answer: Narrow absorption window in the upper GIT

Q3. Which of the following is a common polymer used to achieve swelling in non-effervescent floating systems?

  • Hydroxypropyl methylcellulose (HPMC)
  • Sodium chloride
  • Poloxamer 188
  • Magnesium stearate

Correct Answer: Hydroxypropyl methylcellulose (HPMC)

Q4. Floating lag time in a floating tablet refers to:

  • Total time the tablet remains in the stomach
  • Time taken for a tablet to begin floating on dissolution medium
  • Time required for complete drug release
  • Time taken for tablet disintegration

Correct Answer: Time taken for a tablet to begin floating on dissolution medium

Q5. Which mechanism is used in effervescent floating systems to provide buoyancy?

  • Gas generation from effervescent reaction (CO2)
  • Polymer bioadhesion to mucosa
  • Increasing tablet density with metal powders
  • Enzymatic gel degradation in stomach

Correct Answer: Gas generation from effervescent reaction (CO2)

Q6. A mucoadhesive GRDDS primarily relies on which interaction with gastric mucosa?

  • Hydrophobic partitioning
  • Electrostatic and hydrogen bonding between polymer and mucin
  • Formation of insoluble complexes
  • Enzymatic crosslinking with mucus

Correct Answer: Electrostatic and hydrogen bonding between polymer and mucin

Q7. Which evaluation parameter measures swelling behavior of an expandable GRDDS?

  • Floating lag time
  • Swelling index
  • Particle size distribution
  • Friability

Correct Answer: Swelling index

Q8. Which polymer is widely used for mucoadhesive strength due to high carboxylic content?

  • Carbopol (carbomer)
  • Ethyl cellulose
  • Lactose
  • Sodium chloride

Correct Answer: Carbopol (carbomer)

Q9. Which in vitro test is most relevant to predict in vivo gastric retention of floating tablets?

  • Dissolution in simulated intestinal fluid only
  • Floating duration and floating lag time in simulated gastric fluid
  • Disintegration in water at 50°C
  • Friability in dry conditions

Correct Answer: Floating duration and floating lag time in simulated gastric fluid

Q10. Which of the following drug types is NOT ideal for GRDDS?

  • Drug primarily absorbed in stomach or proximal small intestine
  • Drug unstable in acidic medium
  • Drug with narrow absorption window
  • Drug requiring local gastric action

Correct Answer: Drug unstable in acidic medium

Q11. Raft-forming systems are a type of GRDDS used commonly for which application?

  • Prolonged systemic delivery of peptides
  • Treatment of gastroesophageal reflux disease (GERD)
  • Colon-targeted prodrugs
  • Pulmonary delivery

Correct Answer: Treatment of gastroesophageal reflux disease (GERD)

Q12. High-density gastroretentive systems rely on which principle?

  • Floating on gastric fluid
  • Settling in stomach due to density greater than gastric contents
  • Rapid disintegration to release drug
  • Oscillating buoyancy via gas cycles

Correct Answer: Settling in stomach due to density greater than gastric contents

Q13. Which excipient is commonly used as a gas-generating agent in effervescent floating tablets?

  • Sodium bicarbonate
  • Microcrystalline cellulose
  • Magnesium stearate
  • Silicon dioxide

Correct Answer: Sodium bicarbonate

Q14. Which manufacturing method is frequently used to prepare floating tablets by incorporating low-density excipients?

  • Direct compression
  • Spray drying for nanoparticles
  • Freeze-drying of protein formulations
  • Sublimation of volatile components only

Correct Answer: Direct compression

Q15. Which factor does NOT significantly affect gastric residence time of GRDDS?

  • Fed versus fasted state of the patient
  • Particle shape and size of the dosage form
  • Ambient room temperature where tablet was stored
  • Gastric motility and contractions

Correct Answer: Ambient room temperature where tablet was stored

Q16. Superporous hydrogels are advantageous in GRDDS because they:

  • Have very slow water uptake
  • Swell rapidly to large size and maintain integrity
  • Require high compression force to form matrices
  • Are highly permeable to bile salts only

Correct Answer: Swell rapidly to large size and maintain integrity

Q17. Which parameter indicates how long a floating tablet remains buoyant?

  • Swelling index
  • Total floating time (TFT)
  • Gelation pH
  • Moisture content

Correct Answer: Total floating time (TFT)

Q18. Which release mechanism is commonly observed in GRDDS matrix tablets containing HPMC?

  • Immediate burst release with no diffusion control
  • Diffusion and erosion-controlled sustained release
  • Only enzymatic cleavage-controlled release
  • Osmotic pump without polymer swelling

Correct Answer: Diffusion and erosion-controlled sustained release

Q19. Gamma scintigraphy is used in GRDDS studies to:

  • Measure tablet mechanical strength
  • Visualize and quantify in vivo gastric residence time
  • Determine polymer viscosity
  • Assess tablet color stability

Correct Answer: Visualize and quantify in vivo gastric residence time

Q20. Which of the following is a limitation of GRDDS?

  • Predictable gastric retention across all patients
  • Dependence on gastric physiology leading to variable retention
  • Enhanced bioavailability for all drugs
  • Universal applicability to large-dose drugs

Correct Answer: Dependence on gastric physiology leading to variable retention

Q21. Non-effervescent floating systems typically achieve buoyancy by:

  • Incorporation of gas-generating effervescent salts
  • Swelling of hydrocolloid polymers to decrease density
  • Adding heavy metal fillers
  • Coating with enteric polymers

Correct Answer: Swelling of hydrocolloid polymers to decrease density

Q22. Which in vitro measurement assesses adhesive force of a mucoadhesive formulation?

  • Texture analyzer or balance method measuring detachment force
  • pH titration
  • Mercury intrusion porosimetry
  • Thermogravimetric analysis

Correct Answer: Texture analyzer or balance method measuring detachment force

Q23. Which formulation strategy is suitable for delivering a local anti-H. pylori antibiotic in the stomach?

  • Colon-targeted coated pellets
  • Gastroretentive mucoadhesive or floating systems
  • Pulmonary inhalation aerosols
  • Transdermal patches

Correct Answer: Gastroretentive mucoadhesive or floating systems

Q24. For GRDDS tablets, increasing HPMC viscosity grade typically results in:

  • Faster drug release and shorter floating time
  • Slower drug release and longer matrix integrity
  • Increased tablet porosity leading to rapid disintegration
  • No change in release profile

Correct Answer: Slower drug release and longer matrix integrity

Q25. Which is a common method to evaluate in vitro-in vivo correlation (IVIVC) for GRDDS?

  • Comparing in vitro dissolution profiles with in vivo plasma concentration-time profiles
  • Only measuring tablet hardness
  • Assessing color change in gastric fluid
  • Measuring moisture uptake under ambient light

Correct Answer: Comparing in vitro dissolution profiles with in vivo plasma concentration-time profiles

Q26. Which patient factor can reduce effectiveness of a floating GRDDS?

  • Fed state slowing gastric emptying
  • High gastric pH after a meal
  • Increased gastric motility in fasted state
  • All of the above

Correct Answer: All of the above

Q27. Which technique creates hollow or low-density units for multiparticulate floating systems?

  • Inclusion of gas-generating core or microballoons
  • Compression with high-density fillers
  • Coating with crystalline sugars only
  • Lyophilization followed by sintering

Correct Answer: Inclusion of gas-generating core or microballoons

Q28. Which analytical parameter is critical to control when designing GRDDS for narrow absorption window drugs?

  • Particle color
  • Release kinetics to maintain therapeutic concentration in proximal GI
  • Tablet advertising label font
  • Storage box dimensions

Correct Answer: Release kinetics to maintain therapeutic concentration in proximal GI

Q29. Which statement best describes raft-forming GRDDS composition?

  • Non-gelling powders that sink immediately
  • Viscous gel barrier forms on contact with gastric acid to prevent reflux
  • High-density metallic tablets that lodge in pylorus
  • Osmotic cores releasing gas for buoyancy

Correct Answer: Viscous gel barrier forms on contact with gastric acid to prevent reflux

Q30. Which optimization strategy can improve gastric retention of a floating tablet in vivo?

  • Reducing tablet size below 1 mm to pass pylorus quickly
  • Balancing gas generation and polymer swelling to ensure rapid buoyancy and prolonged floatation
  • Eliminating polymers to avoid swelling
  • Formulating tablets to disintegrate within 5 minutes

Correct Answer: Balancing gas generation and polymer swelling to ensure rapid buoyancy and prolonged floatation

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