Lecture 10

Question 1

Powders

Answer 1

Mixture of drug, finely divided drugs, and/or chemicals that may be intended for internal or extended use

Question 2

Granules

Answer 2

Agglomerates of powders materials, that may be used per se for the medicinal value of the content, or used for making other pharmaceutical dosage forms for tablets or capsules.

Question 3

Micromeritics

Answer 3

Science and technology of small particles

Question 4

Derived Properties of Powders/Granules (5)

Answer 4

1. Porosity of powder
2. Packing arrangement
3. Density
4. Flow (angle of repose)
5. Dissolution rate

Question 5

Fundamental Properties of Powders/Granules (4)

Answer 5

1. Particle size
2. Size distribution
3. Shape (morphology)
4. Surface Area

Question 6

Influencers of Size Influences (5)

Answer 6

1. Dissolution rate of particles (decreased size and increased rate)
2. Suspendability of particles (suspension)
3. Uniform distribution of a drug in a powder mixture (dose-to-dose uniformity)
4. Inhaled drug delivery
5. Lack of grittiness of particles in dermal ointments, creams, and ophthalmic preparations

Question 7

Size + Solubility

Answer 7

Smaller the size, greater the surface area, the higher the solubility.

Question 8

Determinants of Particle Size (5)

Answer 8

1. Sieving
2. Microscopy
3. Sedimentation
4. Light diffraction/scattering
5. Cascade impaction

Question 9

Sieving Method

Answer 9

• particle size analysis
• from a cm down to a few nm
• Passing powders through standard sieves while being shaken
• Ranges from very coarse, moderately coarse, coarse, fine, and very fine
• Higher the sieve number the finer the powder

Question 10

Mesh Size Meaning

Answer 10

Number of sieves per inch. Smaller the opening as the mesh size number increases

Question 11

Particle Size Distribution Importance

Answer 11

Formulations have same average particle size but different size distributions

Question 12

Powder Shape

Answer 12

• Aka Morphology
• Shape affects surface area of particle and behavior when surrounded by other particles
• Behaviors affected are flow and packing

Question 13

Shape Characterizations (5)

Answer 13

1. Spherical
2. Rounded
3. Acicular (needle-like)
4. Flake
5. Irregular
   * *Determined via microscopic techniques**

Question 14

Components Affecting Surface Area (2)

Answer 14

1. Size reduction (micronized)

2. Shape - can increase or decrease SA depending on shape

Question 15

Porosity

Answer 15

Measures of void spaces in bulk powder

• Low porosity - little void volumes in powder
• High porosity - large void volumes in powder (more reaction potential)

Question 16

Porosity Affect (3)

Answer 16

1. Disintegration/dissolution
2. Drug diffusion
3. Absorption

Question 17

Two Ways Drugs can Enter System

Answer 17

1. Diffuse from the matrix

2. Matrix dissolves to release the drugs (dissolution)

Question 18

Ideal Packing Assumptions

Answer 18

Uniformed Size, sperical powder beds

Question 19

Ideal Packing Arrangements (2)

Answer 19

1. Closest or rhombohedral - ~26% porosity

2. Open or cubic - ~48% porosity

Question 20

Non-Ideal Packing Scenarios (3)

Answer 20

1. Neither spherical nor uniform size - intermediate packing
2. Large particle size distribution - smaller particle shift between layers, lower porosity
3. Form aggregates - bridging, arching, clinging, and ratholing in packing. Higher porosity

Question 21

Density

Answer 21

Ratio of mass of sample to volume

Question 22

Density Depends on (2)

Answer 22

1. Type and arrangement of atoms in molecule

2. Arrangement of molecules in sample (crystalline)

Question 23

Density Influences (3)

Answer 23

1. Flow
2. Powder blending
3. Tableting/capsuling

Question 24

Types of Density (2)

Answer 24

1. Bulk Density

2. Tap Density

Question 25

Flow Properties and Affects

Answer 25

Either free flowing or stick

Affects:

1. Blending - homogeneity of mixture
2. Tablet/capsuling - content and weight uniformity

Question 26

Factors Influencing Powder Flow (6)

Answer 26

1. Particle morphology
2. Crystallinity
3. Particle density
4. Surface area
5. Particle size and size distribution
6. Moisture in powder

Question 27

Angle of Repose

Answer 27

• Pouring of powder into a pile
• Angle created from the edge of pile to the surface is the angle of repose
• The smaller the angle of repose the better the powder flow

Question 28

Comminution

Answer 28

Micronization of Drugs

Question 29

Comminution Types (3)

Answer 29

1. Small scale - mortar & pestle to titrate or comminution
2. Large scale - mills and pulverizers
3. Levigation - small scale prep of ointment or suspension. Grind down powders and add in small amount of liquid or base to further grind it down before adding in remaining base. Reduces grittiness of powders.