Solid Particles And Particle Size

Question 1

Why is Particle Size Important?

Biopharmaceutics

Answer 1

Rate of Dissolution of solids INCREASE

as Surface area INCREASES

Small particles = Large surface area

Question 2

Toxicity

Why is Particle Size Important?

Answer 2

Small rod-shaped insoluble particles

~1um x 5um long

CARCINOGENIC if inhaled

• –> attack immune system if they are similar to bacteria
  
  • failed attackks lead to lung tissue damage

Question 3

Inhalation Drug Delivery

Why is Particle Size Important?

Answer 3

Particles must be within a critical size of

1-5um

to reach deep recess of lungs (aleovi)

Question 4

Poorly Soluble Drugs

Why is Particle Size Important?

Answer 4

Particle Size REDUCTION

–> increase surface area

INCREASES dissolution rate

Question 5

Nanoparticle Technology

Why is Particle Size Important?

Answer 5

Extra solubility enhancement can be achieved

W/ colloidal particles

Question 6

Aseptic Processing

Why is Particle Size Important?

Answer 6

Filtration is Important

–> REMOvE MICROORGANISMS

laminar air flow hoods

Question 7

Liquid Filtration Process

Why is Particle Size Important?

Answer 7

Filter pore size related to Microorganism / drug particle size

Question 8

Compounding

Why is Particle Size Important?

Answer 8

Organoleptic Properties

Tase / Smell ENHANCED by particle size

Large particles = gritty and visually unaesthetic

Question 9

Nanometer to Angstrom

Answer 9

1nm

= 10 angstroms

1angstrom = 1x10^-10m

Question 10

Micrometrics

Answer 10

Describes the SCIENCE & TECHNOLOGY

of Small particles

• Range in size from .5um - 3000um (3mm) in size

Question 11

Physical Characteristics of Powder

Molecular Level

Answer 11

• Characteristics of individual molecules studied by:
  
  • UV/VIS absorption spectroscopy
  • Fluorescence spectroscopy
  • Vibrational Spectroscopy
  • ​IR / NMR

Question 12

Particulate Level

Why is Particle Size Important?

Answer 12

• Characteristics that pertain to a small group of particles are studied by:
  
  • Particle Morphology
    
    • ​SEM
  • ​Sieving / Laser Diffraction
  • Crystallography / X-ray diffraction
  • Thermal Methods
    
    • ​DSC / DTA

Question 13

Bulk Level

Why is Particle Size Important?

Answer 13

• Characteristics pertain to a large group of particles
  
  • ​Solubility / dissolution rate
  • adsorption / flow
  • Angle of repose
  • Bulk packin / tap density

Question 14

Objective of Size Reduction

Large Particle Size

Answer 14

Uniform Particle size/ shape for processing

• Control of raw materials
• Process uniformity
• uniform flow of particles

Question 15

Milling / Comminution

Large Particle Size

Answer 15

Comminution = Crush / grind into powder

Hammer Mill / Fitzmill

• Happer = wedge shaped hatchet blade
• Mill speed –> more small particles
• Feed Rate:
  
  • TOO FAST –> choke mill –> BURNING
  • too slow –> starve mill –> small particle size

Question 16

Analysis of

Large Particle Size

Answer 16

• SIEVING
  
  • ​Mesh, GREATER NUMBER = Smaller the size
  • screen openings per inch
• ​Microscopy
• Bulk Density / Tap Density
• Angle of Repose

Question 17

How to measure / characterize Solids

Large Particle Size

Answer 17

• Count particles
• Measure longest dimension:
  
  • Surface Area
  • Volume
  • Mass

Question 18

Equivalent Sphere Method

Large Particle Size

Answer 18

Express dimensions in ONE NUMBER

Dimension / Surface Area / Volume

MEAN DIAMETER

Question 19

Number-Length mean

D[1,0]

Large Particle Size

Answer 19

Sum of diameter / n

Question 20

Number-Surface mean

D[2,0]

Large Particle Size

Answer 20

SURFACE AREA

SQUARE ROOT OF Sum[d²] / n

Question 21

Number Volume or Number-Weight mean

D[3,0]

Large Particle Size

Answer 21

Sum of diameters to the 3rd power / n

All to the 1/3 power

Question 22

Particle Characterization

Large Particle Size

Answer 22

What matters is

WHAT TYPE OF INSTRUMENT PROVIDES THE DATA

Question 23

Monodisperse Vs Polydisperse

Large Particle Size

Answer 23

Mono = all particles are same size and shape

Poly = particles range from small to large

look for an AVERAGE particle size to measure

Question 24

Unimodal vs Bimodal

Large Particle Size

Answer 24

Unimodal = Mean size has 1 PEAK

Bimodal = 2 sizes 2 peaks

Question 25

Bulk Density

Large Particle Size

Answer 25

• Not an intrinsic property
  
  • Changes depending on how the material is handled
• ​Disturbing a cylinder
  
  • –> powder particles will move and settle closer together
  • –> Increased bulk density

Question 26

Different ways to compute average/mean particle size

Large Particle Size

Answer 26

• Average the longest length
• surface area
• volume
• weighted combination
  
  • ​arithmetic mean / geometric/ harmonic mean)

JUST MAKE SURE U COMPARE THE SAME THANG

Question 27

Tapped Density

Large Particle Size

Answer 27

• ​Refers to the bulk density of the powder
  
  • ​AFTER a specified compaction process
    
    • ​VIBRATION
• ​​Cylinder is TAPPED
  
  • until the volume reaches a MINIMUM

Question 28

Angle of Repose

Large Particle Size

Answer 28

• Bulk materials poored onto a horizontal surface
  
  • –> form conical pile
• Angle of repose
  
  • = Internal angle between surface of the pile
  • & the horizontal surface
• ​Related to:
  
  • density / surface area / shapes
  • & STICKINESS (coefficient of friction)

Question 29

Product / Process Considerations

Large Particle Size

Answer 29

• ENCAPSULATION
  
  • ​VOLUMETRIC FILL INTO CAPSULE
  • Dispensed by weight but filled by volume
• ​Solid Mixing / blending
  
  • ORDERED MIXING = of same size in order
  • segregation / volume of material
• SOlids Milling
  
  • ​Uniformity of particle size
• ​Tablet compressing
• Product Dissolution performance
• Solid granulation proces

Question 30

Target Size Reduction

Small Particle Size

Answer 30

1 micron = 1mm

Uniform size/ shape

Question 31

Ball Mill

Small Particle Size

Answer 31

• Grinder consisting of cylindrical container
  
  • ​–> Solids –> FINE POWDERS
• ​Rotate around horizontal axis
  
  • Material to be ground + GRINDING MEDIUM
    
    • ​ceramic/steel balls

Question 32

Micronizer (Jet Mill)

Small Particle Size

Answer 32

Sturtevant Micronizer = Fluid Energy Mill

• Compressed air/gas
  
  • –> produce particles LESS THAN 1 micron (1mm)
• ​Fine particles move towards center –> exit through vortex finder
  
  • use centrifugal force

Question 33

Analysis of

Small Particle Size

Answer 33

• Microscopy
• Electrozone Sensing
• Laser Diffration = LALLS
• Photon Correlation Spectroscopy = PCS
• Cascade Impactors
• BET isotherm analysis

Question 34

Microscopy

Analysis of Small Particle Size

Answer 34

Measurement Slide

Logarithmic scarle

Image analysis software needed

same technique as w/ larger particles

Question 35

Electrozone Sensing = Coulter Counter

Analysis of Small Particle Size

Answer 35

Particle size determined by VOLTAGE CHARGE

Must measure using an electrolyte

CAN NOT MEASURE DRY POWDER / SPRAYS

requires calibration

lower limit = 2mm

Question 36

Laser Diffraction = LALLS

Malvern

Analysis of Small Particle Size

Answer 36

Low angle laser light scattering

Range >.05um

Laser is stable/reliable

NO calibration

CAN measure dry powders / liquid in suspension / sprays

Question 37

Photon Correlation Spectroscopy

PCS

Analysis of Small Particle Size

Answer 37

For particles BELOW <1nm

Brownian motion to measure particle size

CAN NOT use on particles that are sedementing

DENSITY dependent

large molecules = slower movement

Question 38

Cascade Impactors

Analysis of Small Particle Size

Answer 38

Use to measure particle size in AEROSOLS

Stokes Law

Particle size serparation is carrried out by Inertial impaction

based on particle mass

Question 39

Product / Process Considerations

of Small Particle Size

Answer 39

• Product dissolution Performance –> BIOAVAILABILITY
  
  • ​Micron particle size –> Dissolution –> More Absorption
• Solid Micronization
  
  • uniformity of size
• Tablet Coating
• Suspension/cream / ointments
  
  • Opthalmics
• ​AEROSOL DOSAGE FORMS

Question 40

Aerosol Dosage Forms

of Small Particle Size

Answer 40

​Goal is to get aerosol particles –> DEEP LUNG ALVEOLI

not into upper respiratory

Particle Size is the key to success

• pMDI’s or MDI
  
  • has propellant
  • pressurized container with drug –> actuation
• DPI (dry powder inhalation)
  
  • ​no propellant no pressure
  • Admin by ACTUATION
    *

Question 41

Ideal Respiratory Delivery System

Small Particle Size

Answer 41

• Respirable particle Delivery:
  
  • Particle Size -<2um
  • Reproducible Plume Pattern
  • Consistant dose UNIFORMITY
  • no electrostatic issues
• ​Stable & Compatable formulation
  
  • ​stable particle size
  • free from extractables/microbials

Question 42

Biopharmaceutics

on Particle Size

Answer 42

​Increasing particle size can delay drug release in suspension

• Rate of Dissolution
  
  • ​related to particle size / total surface area
• Solubility is INCREASED
  
  • if particle is extremely small <100nm
• ​M-Cells (associated w/ lymph tissue / intestinal wall)
  
  • absorb nanoparticles

Question 43

Griseofulvin

Answer 43

• Antifungal that was POORLY ORALLY ABSORBED
  
  • ​Reduced particle size
    
    • ​–> Decreased the dose

Question 44

Fenofibrate

Answer 44

Reduction of particle size

Allowed for a lower dose needed

Question 45

Potassium Chloride / Nitrofurantoin

Answer 45

Sustained Release drug created from

MICROENCAPSULATING the product

reduce the rate of absorption

individual crystals covered w/ semipermeable coatin

Question 46

Insulin

Biopharmaceutics

Answer 46

Insulin is typically RAPIDLY elminated from the body

due to high water solubility

Formation W/ zinc-insulin suspensions

–> PROLONGS BIOLOGICAL ACTIVITY

Question 47

Uses of Nanoparticles

Answer 47

• Primarily used for Nanotechnology
  
  • ​DRUG DELIVERY SYSTEMS
    
    • ​Protective encapsulation
    • Target specific tissues
    • Act as water-soluble carriers
      
      • ​ for poorly soluble drugs
• Secondary used to ENHANCE dissolution rates
  
  • ​–> to improve Bioavailability
    
    • ​Ex. greseofulvin / Fenofibrate

Question 48

Top Down Formation of

Nanoparticles

Answer 48

• Top-Down comminution
  
  • Ball Milling / Jet Milling
  • REDUCE solid particles –> colloid size
    
    • ​200-500nm range​​

Question 49

Bottom-Up Technique

Nanoparticles

Answer 49

• Assemble nanopartcles from MOLECULAR COMPONENTS
  
  • Self-Assembly
    
    • polymeric surfactants / dendron-substrate complexation
  • Precipitation
  • Polymerization of Monomers

Question 50

Dendrimers

​Nanoparticles

Answer 50

• Highly branched polymers
  
  • –> molecular complexing agents that
    
    • ​WRAP AROUND
      
      • the API
• Similar to chelating agents = tiny burritos
  
  • ​Encapsulation of a single drug molecule
    
    • inside a SINGLE dendrimer shell
• Size is similar to micelles

Question 51

Solvent-Displacement Methods

​Nanoparticles

Answer 51

• Adding anti-solvent
  
  • –> reduces the solubility of the drug-polymer complex
• Salting Out
• Emulsion-Diffusion / SOlvent evaporation
• Supercritical fluid vaporizattion
• Coacervation reactions

Question 52

In-Situ Polymerization

​Nanoparticles

Answer 52

• Sme polymers undergo polymeraztion reactions under special conditions
  
  • –>Formation of polymer nanoparticles that
    
    • ​ENTRAP the drug

Question 53

Membrane Filtration Requirements

Air Filtration

Answer 53

HEPA = High Efficiency Particulate Arrestance

used to remove bacteria (allergens)

• MUST remove 99.97%
  
  • ​ of all particles GREATER THAN >0.3um
    
    • from the air it passes through
• Pre-filters used before this membrane
  
  • protects the membrane filter
  • traps larger molecules

Question 54

Containment

Positive Air Flow

Air Filtration

Answer 54

• Airflow INTO the facility must be filtered to remove any particulate contaminants
  
  • ​anything LARGER THAN > 300nm
• ​Positive Air Pressure
  
  • ​Air flows OUT to reduce contamination

Question 55

Aseptic Compounding Considerations

Answer 55

1. Wash Hands Well
2. Wear gloves / cover skin
3. Use the right LFH
4. in a clean facility
5. work within hood / clean & non obstructed
6. FIlter and hood should be properly maintained

Question 56

Glove Box

RABS

CAI

Pharmacy Aseptic Practice

Answer 56

Glove box = Isolator = RABS = CAI

• Similar air flow & fxn of Laminar Flow Hoods
  
  • ​particle filtration is the same as well​
• CAI = Compounding Aseptic Isolator
• RABS = Restricted Access Barrier Systems

Question 58

Macrofiltration

Answer 58

10um-100um

POLLEN / RBC / Sand

• Contain Large Particles
  
  • wet chemical analysis
    
    • fiberglass/cellulose filters
    • Coffee filters

Question 59

Microfiltration

Answer 59

1um - 10um

Most bacteria / yeast / some virus (polio)

STERILE

​

Question 60

Dialysis / Ultrafiltration

Answer 60

1nm - 100nm (0.1um)

Include most particulates / molecules

VIRUS / Proteins

Question 61

Liquid Filtration Process

Answer 61

• Membrane FIltration
• Depth Filters
  
  • protect mebranes / prolong filter lfife
• Filter Aids
  
  • diatomaceous earth / cellulose / perlite
• Decolorization
  
  • ​activated charcoal adsorption

Question 62

Aseptic Filtration

liquid filtration

Answer 62

0.22mm FILTER

• Hydrophilic filters for aqueous solutions
  
  • ​cellulosic
• ​HydroPHOBIC filters for non-aqueous solutions
  
  • PTFE

Question 63

Particle Size Considerations

Non-Aseptic Compounding

Answer 63

• Mix w/ mortar & pestle
• Materials might have different particle size
  
  • mill first (reduce size before mixing)
  • different particle sizes will segregate
• Moisture Levels
  
  • affect particle agglomeration
• Ordered Mixing = Geometric Mixing
  
  • begin with smallest amount of powder –> add increasing ammounts
• Suspension Settling
  
  • ​Increase particles size –> increase settling rate

Question 64

Mixing Powders

Answer 64

• NOT possible to produce an ideal mixture of 2 powders
  
  • there is ALWAYS some content of nonuniformity
  • ideally = low entropy
  • really = high entropy

Question 65

Demixing

Answer 65

Little Particles –> Bottom

Large –> top

• Powders have the tendency to SEPERATE during processing:
  
  • Percolation
    
    • gravity –> small particles move into voids between large particles
  • Vibration speeds up demixing
    
    • ​Transportation​

Question 66

Demixing Occurs More Readily if…

Answer 66

NOT in uniform SIZE & DENSITY

• reduce particle size first
• uniformity can not be assumed esp when batch size increases
  
  • always have to MEASURE

Question 67

Eutectic System

Answer 67

• Mixture of chemical compounds or elements that have
  
  • A Single chemical composition that SOLIDIFIES @ lower temp than the other compositions
• Liquified
  
  • ​Has a LOWER Melting Point

Question 68

Desirable Function of

a Eutectic

Answer 68

• HAVE A LOWER MELTING POINT
  
  • than either of the individual components
  • –> Eutectics Dissolve more rapidly as well
• HIGHER BIOAVAILABILITY
  
  • from higher solubility –> faster dissolution –> faster absorption

Question 69

UNDESIREABLE

function of Eutectics

Answer 69

• Trituration –> Pressure on the mixture
  
  • low melting point –> two materials can
    
    • MELT TOGETHER
• Making a blend of the powders is difficult or imposible
  
  • Can Solve by
    
    • ​–> Reduce the particle size SEPERATELY
    • Mix seperately
    • Add dry blend component with INTERT FILLER
      
      • ​MgO / MgCO3
      • minimize opportunities for contact

Question 70

Particle Size

Large

Small

Nano

Answer 70

1mm

1um(1micron)

1nm

Question 71

Size Reduction

Large

Small

Nano

Answer 71

Hammer Mill

Micronizer / Fluid Energy Mill / Ball Mill

Top-Down/Bottom-Up

Question 72

Analysis

Large

Small

Nano

Answer 72

Screens / Bulk Density / Mesh Size

Laser Diffraction / Equivalent Sphere

Same as Small

Question 73

Pore Size / Filtration

Large

Small

Nano

Answer 73

Wet Chemistry / Coffee Filters

Aseptic Processing / Soutions (0.22um) / Air

Ultrafiltartion / Semipermeable Membranes

Question 74

Applications for Large Particles

Answer 74

Manufacturing Processing

Capsule Size

Mixing Powders

Topical dosage forms

Question 75

Applications for Small Particles

Answer 75

Dissolution

Bioavailability

Aseptic compounding

LFH

INHALATION DOSAGE FORMS

Question 76

Applications for NANOparticles

Answer 76

Hemodialysis

Peritoneal Dialysis

Bioavailability