Medicine - API And Dissolution unfinished Flashcards Preview

Pharmacy Year 2 Semester 2 > Medicine - API And Dissolution unfinished > Flashcards

Flashcards in Medicine - API And Dissolution unfinished Deck (14)
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1
Q

State the Noyes-Whitney equation and what each letter represents

A

Dm/dt= [DA(Cs-C)]/h

Dm/dt = The rate of dissolution (Change of mass/time)
D= Diffusion coefficient
A= Surface area of particle
Cs=Saturation concentration in the diffusion layer
C=Saturation concentration in the GI fluid
h= Thickness of the diffusion layer

2
Q

Where does the Noyes-Whitney equation originate from?

A

Fick law

3
Q

What are sink conditions? Define it mathematically

A

When the concentration of a particle in the GI fluids is so rapidly removed (e.g. By absorption) that the concentration is near 0 or is 0
Sink conditions are generally when Cs (the concentration in the diffusion layer) is 10 times greater than C (the concentration in the GI fluid)
I.e. Sink conditions when Cs>10C

4
Q

How does the Noyes-Whitney equation differ in sink conditions? Explain this change

A

It becomes:
Dm/dt= (DACs)/h

C is no longer in the equation because it is=0, or Cs>10C
This means that the particle is being removed from the GI fluid as soon as it is in the fluid

5
Q

Name 4 drug factors that affect the dissolution rate

A
  • Surface area of the particle (hence also particle size)
  • Granulation
  • Lubricants
  • Solubility in the diffusion layer
6
Q

How does the surface area and size of a particle affect its dissolution rate? What can you add to increase the rate?

A

Particle size influences its surface area.
Increased surface area increases dissolution by increasing porosity.
Dispersibility in the medium also affects dissolution rate
Add a wetting agent (e.g. A surfactant)

7
Q

Why is a particle with low dispersibility bad at dissolution?

A

If the molecules don’t disperse (e.g. Flour and water), they will agglomerate to release particles. This should be avoided.

8
Q

How do wetting agents work?

A

They reduce the surface tension, therefore increase the wettability so the solid sinks into the liquid

9
Q

Give 3 examples of drugs where a decreased particle size aids dissolution

A

Griseofulvin (micronised)
Theophylline
Nitrofurantoin
Digoxin

10
Q

Give 3 examples of drugs where a decreased particle size reduces the dissolution
Also give a type of drug that one should beware of when it comes to surface area/particle size

A

Aspirin
Phenobarbitone
Phenacetin

Beware of hydrophobic drugs

11
Q

What is granulation?

What affect does granulation have on the dissolution rate?

A
  • Renders the surface of hydrophobic drugs hydrophilic
  • May produce viscous layers around drug particles
  • May reduce dissolution rates and increase disintegration times as increased viscosity reduces the rate of diffusion
12
Q

What affect do lubricants have on the dissolution rate?

A

Lubricants may reduce the dissolution rate

13
Q

How does solubility of the drug in the diffusion layer affect the dissolution rate?

A

Solubility related to molecular interaction
Most drugs are weak electrolytes
-weak acid solubility increases with pH (more soluble in the small intestine)
-weak base solubility decreases with pH (more soluble in the stomach)

14
Q

What is the relationship between the diffusion coefficient and viscosity?

A

The diffusion coefficient (and hence dissolution) is viscosity dependent.
Increased viscosity leads to decreased diffusion