Diffusion principles in biological systems MCQs With Answer

Diffusion principles in biological systems MCQs With Answer

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Diffusion principles in biological systems are fundamental for B. Pharm students studying drug absorption, distribution, and membrane transport. This concise guide explains passive diffusion, Fick’s laws, diffusion coefficient, permeability, concentration gradients, osmosis, and factors like membrane thickness, surface area, lipophilicity and ionization that govern molecular movement across membranes. Understanding how temperature, molecular size, and partition coefficients affect flux helps predict drug bioavailability and design formulations. Clinical applications include transdermal delivery, GI absorption, blood-brain barrier penetration, and dialysis. Clear grasp of these diffusion concepts supports pharmacokinetics, formulation development and therapeutic optimization. Now let’s test your knowledge with 50 MCQs on this topic.

Q1. Which law quantitatively describes steady-state diffusion across a membrane?

  • Henderson-Hasselbalch equation
  • Fick’s first law
  • Stokes-Einstein relation
  • Michaelis-Menten equation

Correct Answer: Fick’s first law

Q2. In Fick’s first law J = -D (dC/dx), what does D represent?

  • Permeability coefficient
  • Diffusion coefficient
  • Partition coefficient
  • Flux density

Correct Answer: Diffusion coefficient

Q3. Which factor does NOT directly increase passive diffusion flux across a membrane?

  • Higher concentration gradient
  • Greater membrane surface area
  • Increased membrane thickness
  • Higher diffusion coefficient

Correct Answer: Increased membrane thickness

Q4. Fick’s second law is primarily used to describe which situation?

  • Steady-state diffusion where concentration does not change with time
  • Non-steady-state diffusion where concentration varies with time
  • Active transport with energy input
  • Partitioning between two immiscible phases

Correct Answer: Non-steady-state diffusion where concentration varies with time

Q5. Which equation represents Fick’s second law in one dimension?

  • dC/dt = -D dC/dx
  • dC/dt = D d²C/dx²
  • J = -D dC/dx
  • J = P (C1 – C2)

Correct Answer: dC/dt = D d²C/dx²

Q6. What effect does increasing temperature have on the diffusion coefficient (D) for small molecules in solution?

  • D decreases with rising temperature
  • D is independent of temperature
  • D increases with rising temperature
  • D becomes negative at high temperature

Correct Answer: D increases with rising temperature

Q7. The Stokes-Einstein equation relates diffusion coefficient to which of the following?

  • Membrane thickness and surface area
  • Particle radius, temperature, and viscosity
  • Concentration gradient and flux
  • Partition coefficient and pKa

Correct Answer: Particle radius, temperature, and viscosity

Q8. Which parameter describes the ease with which a drug partitions into the lipid membrane from aqueous phase?

  • Diffusion coefficient
  • Partition coefficient (K)
  • Permeability coefficient (P)
  • Flux (J)

Correct Answer: Partition coefficient (K)

Q9. Permeability coefficient (P) is best described as:

  • The product of diffusion coefficient and partition coefficient divided by membrane thickness
  • The concentration difference across membrane
  • Flux per unit time only
  • Membrane porosity times tortuosity

Correct Answer: The product of diffusion coefficient and partition coefficient divided by membrane thickness

Q10. Which factor reduces effective diffusion in porous biological tissue?

  • Increased porosity
  • Reduced tortuosity
  • Higher tortuosity
  • Lower viscosity

Correct Answer: Higher tortuosity

Q11. Which transport process requires metabolic energy and is not diffusion?

  • Osmosis
  • Facilitated diffusion
  • Active transport
  • Simple diffusion

Correct Answer: Active transport

Q12. According to pH partition theory, which drug will diffuse more readily across a lipid membrane?

  • The ionized form
  • The unionized form
  • Either form equally
  • Only large macromolecules

Correct Answer: The unionized form

Q13. Which equation is used to estimate the fraction of ionized drug at a given pH?

  • Fick’s first law
  • Henderson-Hasselbalch equation
  • Stokes-Einstein equation
  • Arrhenius equation

Correct Answer: Henderson-Hasselbalch equation

Q14. What is the main driving force for passive diffusion across a membrane?

  • Concentration gradient
  • Electrical potential only
  • ATP hydrolysis
  • Vesicular transport

Correct Answer: Concentration gradient

Q15. Which structure provides a selective barrier and major resistance to diffusion in cells?

  • Glycocalyx
  • Cell membrane lipid bilayer
  • Cytoskeleton
  • Mitochondrial matrix

Correct Answer: Cell membrane lipid bilayer

Q16. Aquaporins facilitate diffusion of which substance across membranes?

  • Glucose
  • Ions like Na+
  • Water molecules
  • Large peptides

Correct Answer: Water molecules

Q17. Which of the following increases drug flux through skin in transdermal delivery?

  • Increasing skin thickness
  • Decreasing partition coefficient into stratum corneum
  • Using penetration enhancers to increase skin partitioning
  • Lowering drug lipophilicity drastically

Correct Answer: Using penetration enhancers to increase skin partitioning

Q18. Mean squared displacement in diffusion experiments is proportional to:

  • Distance only
  • Time squared
  • Time
  • Velocity

Correct Answer: Time

Q19. Which unit is typically used for diffusion coefficient in biological systems?

  • mol/L
  • cm/s
  • cm²/s
  • moles

Correct Answer: cm²/s

Q20. In a two-compartment model, diffusion-limited distribution implies which rate-limiting step?

  • Metabolism in tissue
  • Perfusion of tissue
  • Membrane permeability/diffusion into tissue
  • Renal excretion

Correct Answer: Membrane permeability/diffusion into tissue

Q21. Which phenomenon describes solvent movement across a semipermeable membrane driven by solute concentration differences?

  • Simple diffusion
  • Osmosis
  • Filtration
  • Active transport

Correct Answer: Osmosis

Q22. Donnan equilibrium affects diffusion by:

  • Equalizing concentrations of all ions
  • Creating unequal ion distribution due to impermeant charged species
  • Removing all charged species from one side
  • Preventing water movement

Correct Answer: Creating unequal ion distribution due to impermeant charged species

Q23. Which pathway is most relevant for small hydrophilic drugs crossing epithelia?

  • Transcellular lipid pathway
  • Paracellular aqueous pathway through tight junctions
  • Endocytosis only
  • Passive diffusion through cell nucleus

Correct Answer: Paracellular aqueous pathway through tight junctions

Q24. What is the effect of increased viscosity of the medium on diffusion coefficient?

  • Diffusion coefficient increases
  • Diffusion coefficient decreases
  • No effect
  • Diffusion coefficient becomes negative

Correct Answer: Diffusion coefficient decreases

Q25. Which term describes flux normalized to concentration difference across a barrier?

  • Diffusion coefficient
  • Partition coefficient
  • Permeability coefficient
  • Tortuosity

Correct Answer: Permeability coefficient

Q26. Which is TRUE for facilitated diffusion compared to simple diffusion?

  • It requires ATP
  • It shows saturation kinetics with increasing substrate
  • It is independent of carrier saturation
  • It transports molecules against a concentration gradient without energy

Correct Answer: It shows saturation kinetics with increasing substrate

Q27. Which property of a drug most increases its transcellular membrane permeability?

  • High molecular weight and high polarity
  • Low lipophilicity and high ionization
  • Moderate lipophilicity and low ionization
  • Large size and positive charge

Correct Answer: Moderate lipophilicity and low ionization

Q28. What does the term “unstirred water layer” refer to in absorption studies?

  • A static layer of solvent near a membrane that limits mass transfer
  • An area of turbulent flow enhancing diffusion
  • The bulk solution where rapid mixing occurs
  • Solid tissue adjacent to the membrane

Correct Answer: A static layer of solvent near a membrane that limits mass transfer

Q29. Which experimental method directly measures diffusion coefficient in solutions?

  • HPLC assay only
  • Dialysis and membrane permeation studies
  • Radiotracer diffusion or FRAP (fluorescence recovery after photobleaching)
  • pH titration

Correct Answer: Radiotracer diffusion or FRAP (fluorescence recovery after photobleaching)

Q30. How does molecular size generally affect diffusion coefficient in a fluid?

  • Larger molecules have higher diffusion coefficients
  • Molecular size has no effect
  • Smaller molecules diffuse faster (higher D)
  • Only shape matters, not size

Correct Answer: Smaller molecules diffuse faster (higher D)

Q31. Which of the following best describes flux (J)?

  • Mass transfer per unit area per unit time
  • Total mass transferred over infinite area
  • Concentration divided by time
  • Partition coefficient times diffusion coefficient

Correct Answer: Mass transfer per unit area per unit time

Q32. In membrane diffusion, which change would most increase permeability for a weak acid drug across acidic stomach mucosa?

  • Increasing drug ionization
  • Lowering lipophilicity
  • Formulating drug as unionized prodrug
  • Adding a charged counterion

Correct Answer: Formulating drug as unionized prodrug

Q33. Which barrier strongly limits penetration of many drugs into the brain?

  • Skin barrier
  • Blood-brain barrier with tight junctions and efflux transporters
  • Renal glomerulus
  • Gastric mucosa

Correct Answer: Blood-brain barrier with tight junctions and efflux transporters

Q34. Which process describes movement of substances by bulk fluid flow rather than diffusion?

  • Osmosis
  • Convection
  • Facilitated diffusion
  • Passive diffusion

Correct Answer: Convection

Q35. Which factor is most important for drug diffusion through tight junctions (paracellular path)?

  • Lipophilicity of drug
  • Molecular radius and hydrophilicity
  • Drug pKa only
  • Binding to plasma proteins

Correct Answer: Molecular radius and hydrophilicity

Q36. Which of these increases apparent diffusion distance and slows diffusion in tissues?

  • High capillary density
  • Lower extracellular matrix density
  • Edema increasing interstitial distance
  • Thin epithelial layers

Correct Answer: Edema increasing interstitial distance

Q37. Which transport system can become saturated at high substrate concentrations?

  • Simple diffusion
  • Facilitated diffusion via carrier proteins
  • Passive paracellular diffusion
  • Osmosis

Correct Answer: Facilitated diffusion via carrier proteins

Q38. Which experimental condition would most likely increase observed membrane flux in vitro?

  • Decrease donor concentration
  • Increase membrane thickness
  • Increase surface area of membrane
  • Decrease temperature

Correct Answer: Increase surface area of membrane

Q39. Which descriptor quantifies resistance of a membrane to diffusion?

  • Permeability (P) is low
  • High diffusion coefficient (D)
  • Low partition coefficient (K)
  • High surface area

Correct Answer: Permeability (P) is low

Q40. Which mechanism explains why charged drugs have reduced membrane permeability?

  • Charged drugs have higher lipophilicity
  • Charged species cannot cross lipid bilayer easily due to hydrophobic core
  • Charged drugs are smaller and diffuse rapidly
  • Charged drugs increase partition coefficient into lipids

Correct Answer: Charged species cannot cross lipid bilayer easily due to hydrophobic core

Q41. Which is an example of a carrier-mediated facilitated diffusion transporter?

  • GLUT glucose transporter
  • Aquaporin water channel (no substrate binding)
  • Na+/K+ ATPase
  • Simple pore allowing any solute

Correct Answer: GLUT glucose transporter

Q42. Which parameter would you change to increase drug uptake by increasing its unionized fraction?

  • Alter pH of environment relative to drug pKa
  • Increase drug molecular weight
  • Decrease temperature drastically
  • Reduce surface area of absorption site

Correct Answer: Alter pH of environment relative to drug pKa

Q43. Which statement about diffusion through pores is TRUE?

  • Pore size is irrelevant to solute size
  • Smaller pores restrict larger solutes more
  • Pores never allow hydrophilic molecules
  • Tortuosity shortens diffusion path

Correct Answer: Smaller pores restrict larger solutes more

Q44. What role does the partition coefficient play in transmembrane diffusion?

  • It determines aqueous solubility only
  • It governs how much drug enters membrane from aqueous phase
  • It equals the diffusion coefficient
  • It is irrelevant for lipophilic drugs

Correct Answer: It governs how much drug enters membrane from aqueous phase

Q45. Which phenomenon explains accumulation of weak bases inside acidic cellular organelles?

  • pH partitioning leading to ion trapping
  • Active transport by pumps not related to pH
  • Increased lipid solubility in acidic environments
  • Enhanced diffusion due to low viscosity

Correct Answer: pH partitioning leading to ion trapping

Q46. Which factor most directly affects the diffusion coefficient of a solute in water?

  • Membrane potential
  • Viscosity of water and solute size
  • pKa of the solute only
  • Electrical conductivity

Correct Answer: Viscosity of water and solute size

Q47. Which technique models non-steady-state diffusion numerically for formulation design?

  • Henderson-Hasselbalch plotting
  • Finite difference or finite element methods solving Fick’s second law
  • Simple linear regression
  • Chromatography

Correct Answer: Finite difference or finite element methods solving Fick’s second law

Q48. Which is TRUE about efflux transporters like P-glycoprotein in relation to diffusion?

  • They increase passive diffusion into cells
  • They actively pump substrates out, reducing net intracellular accumulation
  • They are passive pores without energy requirement
  • They only transport water

Correct Answer: They actively pump substrates out, reducing net intracellular accumulation

Q49. In dialysis, what main principle allows removal of small solutes from blood?

  • Active transport across membrane driven by ATP
  • Convective transport only
  • Diffusion down concentration gradients across a semipermeable membrane
  • Endocytosis of solutes by membrane vesicles

Correct Answer: Diffusion down concentration gradients across a semipermeable membrane

Q50. Which strategy can be used in formulation to enhance diffusion of a poorly permeable drug?

  • Decrease drug lipophilicity further
  • Use prodrugs, permeation enhancers, or nanoparticles to improve partitioning and D
  • Increase the molecular weight of the drug
  • Prevent any interaction with lipid membranes

Correct Answer: Use prodrugs, permeation enhancers, or nanoparticles to improve partitioning and D

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