Lecture 13 (Cut off for Exam 3)

Question 1

Unique Appearances of Tablets

Answer 1

• Used to identify product and reduce errors
• Size, shape, weight, hardness, thickness, labeling, scoring, coating, disintegration and/or dissolution characteristics all give tablets their unique appearances

Question 2

What process do solid forms go through to become small aggregates?

Answer 2

Disintegration

Question 3

What process do solid forms or small aggregates go through to enter solution?

Answer 3

Dissolution

Question 4

Do drugs need to be in solution to be absorbed?

Answer 4

Yes.

Question 5

Tablet Categories (7)

Answer 5

1. Compressed tablets
2. Multiple compressed tablets
3. Buccal and sublingual tablets
4. Fast-dissolving or dispersing tablets
5. Coated tablets (sugar, DR, sustained action)
6. Administration by other routes: vaginal
7. Used to prepare solutions - effervescent, dispersing, tablet titurates

Question 6

Tablet Advantages (9)

Answer 6

1. Easy to administer
2. More stable than liquids
3. Convenient for patient
4. Economical
5. Can control release of API
6. Tamper resistant
7. Can adjust dose
8. Easy to identify
9. More accurate dose

Question 7

Tablet Disadvantages (6)

Answer 7

1. Taste and odor
2. Hard to swallow
3. May be mistaken as candy
4. Slower onset of action than liquids (esp. solutions)
5. Can’t administer to everyone
6. Powder flow homogeneity and compaction

Question 8

Physiochemical Properties of API in Tablets

Answer 8

• Compaction and flow properties
• Salt form
• Polymorphic form
• Melting point
• Purity of active
• Stability/interaction with excipients
• Particle size - affects segregation and dissolution

Question 9

Diluents/Fillers

Answer 9

-Used to bulk up mixture
-Used with potent drugs (low doses)
-Should have good compaction properties
-Ideally good flow as well
EX: Lactose and microcrystalline cellulose

Question 10

Binders

Answer 10

-Promote adhesion of powder particles
-Important for tablet hardness and friability
-Two ways to incorporate: dry (direct compression) and liquid state (wet granulation)
EX: Starch and PVP

Question 11

Disintegrating Agents

Answer 11

-Promote tablet disintegration in fluids
-Ideally AFTER swallowing
-Mechanism: absorbs water and swells
-Concentration affects rate of disintegration
-Can be induced multiple ways: intragranulation (in granules), extragranulation (blended with granules), and in powder blend
EX: Starch and starch derrivatives

Question 12

Lubricants

Answer 12

-Prevent formulation/tablet sticking to machinery
-Blending times = critical
EX: Magnesium stearate and Talc

Question 13

Overblending of Lubricant

Answer 13

• Creates hydrophobic surfaces
• Causes weaker tablet compacts
• Causes slower dissolution

Question 14

Glidants

Answer 14

-Improve flowability of powders
-Powder flow = critical during tableting (must flow freely to fill dye cavities during process)
-Flowability measured by angle of repose (smaller the angle, better the flow)
EX: Silica derivative (Cab-O-Sil) and Talc

Question 15

Dyes

Answer 15

• Used to make color variants on market
• FD&C dyes = water soluble colors
• FD&C lakes = insoluble aluminum dyes
• Iron oxides
• Some colorants block light as well (opacifiers)

Question 16

Flavors & Sweetners

Answer 16

• “Mask” taste/odor of drugs or excipients
• Spray dried and other flavors
• Natural and artificial sweetners

Question 17

Machinery Used to Make Tablets

Answer 17

1. Single Station Tablet Press - punches and dies single tablet at a time
2. Mutli-Station Tablet Press - punches and dies multiple tablets at a time

Question 18

What gives tablets their unique shapes and appearances?

Answer 18

Punches and dies. They dictate shape, size, and surface of tablet

Question 19

Tablet Production Methods (4)

Answer 19

1. Direct compression
2. Wet granulation - manually or by fluid bed
3. Dry Granulation (roller compaction)
4. Other methods - Ink-jet printing, hot melt extrusion

Question 20

Direct Compression

Answer 20

-Requires powders to be free-flowing and compressible

Steps:

1. Size drugs with sieves
2. Weigh specific amounts of API/excipients
3. Blend ingredients well (add lubricants AFTERWARDS)
4. Compress into tablets

Question 21

Direct Compression Problems (4)

Answer 21

1. Content uniformity in low dose drugs
2. Compressibility of high-dose drugs
3. Segregation in hopper is possible
4. Blending of lubricant is CRITICAL

Question 22

Wet Granulation

Answer 22

Blended Powders&raquo_space; [Wet Granulation]&raquo_space; Granules&raquo_space; [Compressed]&raquo_space; Tablets
-Can improve compressibility, flowability and content uniformity of powder blend

Question 23

Wet Granulation Steps

Answer 23

1. Size, weigh and blend with excipients
2. Add liquid binder to slowly dampen
3. Screen damp mass
4. Dry and size/sieve (must be done before tableting)
5. Add lubricant and blend
6. Compress into tablets

Question 24

Liquid Binders

Answer 24

• Cause powdered particles to adhere and form damp mass
• Binding agents = PVP (or other)
• Liquid can be aqueous or organic
• Potential problems = over and underwetting

Question 25

Fluidized Bed Granulator

Answer 25

• Used for making granules
• Air flow causes continual movement (like popcorn toy for children)
• More efficient drying
• Can use apparatus to wet, granulate, and dry mixture

Question 26

Are there stability issues connected with Wet Granulation?

Answer 26

Possibly, due to the heat and water.

Question 27

Dry Granulation

Answer 27

• Roller Compression
• Alternative method to direct compression
• No water or heat required (advantage!)

Question 28

Dry Granulation Disadvantages

Answer 28

• Active and/or diluent powders must have cohesive properties
• Granules are formed ONLY when those properties are present, other will only have powders

Question 29

Ink-jet Printing

Answer 29

• New technology

- Makes tablets with specific architectures

Question 30

Properties of Good Tablets (5)

Answer 30

1. Physical stability - remains as whole drug during dispensing, manufacturing, and transport
2. Chemical Stability - amount of drug present as labels, beyond expiration date
3. Esthetic Appearence - free of chips/cracks, contamination, and uneven coloring
4. Bioavailability
5. Weight and content uniformity - varies from source to source (different manufacturers

Question 31

Problems in Tabletting (6)

Answer 31

1. Capping
2. Improper fill
3. Picky or sticky
4. Crumbling
5. Mottled Tablets
6. Non-releasing tablets

Question 32

Capping

Answer 32

• When top of tablet separates or laminates after compression
• Usually from trapped air - lowered compression force from induced die feeders

Question 33

In-Vitro Tests of Finished Tablets (7)

Answer 33

1. Content Uniformity
2. Weight uniformity
3. Tablet density/diameter
4. Hardness
5. Friability
6. Disintegration
7. Dissolution

Question 34

Hardness

Answer 34

• Amount of force needed to break tablet

- Tablet hardness tester tests for this

Question 35

Friability

Answer 35

• Friabilator tests this

- Tendency of tablet to crumble (weight loss in shipping)

Question 36

Disintegration

Answer 36

• USP disintegration tests
• Tests for time of disintegration in various fluids (37C)
• Tests in water, simulated gastric fluid, simulated intestinal fluid, and specialized buffer fluid

Question 37

Dissolution

Answer 37

• Utilize paddle or basket apparatus most commonly
• Take out sample at specific times and test to determine concentration via UV spectrometer or HPLC
• Other methods are used as well like reciprocating cylinder (III), flow-through (IV), and others for various delivery systems

Question 38

Factors Affecting Disintegreation

Answer 38

• Addition of disintegrants
• Manufacturing methods - wet or direct
• Pressure used for compression
• Tablet Hardness

Question 39

Q-Value

Answer 39

• Percent of dose that should be dissolved at a specific time (at least __% withing __mins dissolves)
• 6+6+12 tablets tested until specifications are met
• Similar procedure for capsules
• Multiple Q-values for ER products with many time points
• For enteric, slightly different procedure utilized

Question 40

Factors Affecting Dissolution

Answer 40

• Particle Size of drug
• Solubility of drug in solvent
• pH of solvent
• Temperature of media
• Rate of mixing
• Excipients in formulation

Question 41

Multiple Compressed Tablets

Answer 41

• Several reasons for multiple compression tablets
• Separates incompatible compartments
• Make each layer release at a different rate
• Unique marketing

Question 42

Chewable Tablets

Answer 42

• Designed to be chewed
• Good for people who have difficulty swallowing
• Softer than regular tablets
• Critical considerations for formulations are organoleptic properties and selections of diluents, flavors, and colors

Question 43

Organoleptic Properties

Answer 43

• Taste
• Flavor
• Aftertaste
• Mouthfeel
• Toothpacking

Question 44

Oro-Dissolving or Dispersing Tablets

Answer 44

• Designed to disintegrate or dissolve in mouth
• Good for people with difficulty swallowing
• Disadvantages = weak, moisture sensitive, organoleptic properties must be considered
• Various manufacturing methods

Question 45

Other Tablet Types (2)

Answer 45

1. Buccal - designed to slowly dissolve and can be systemic or local
2. Sublingual - dissolves rapidly, rapid absorption and onset (nitroglycerin)
   - Both small and flat
   - Avoids gastric fluids and first pass metabolism

Question 46

Vaginal Tablets

Answer 46

• Large and flat - tend to be oval or elliptical
• Dispensed with applicator
• Used to deliver anti-infection agents or homones

Question 47

Effervescent Tablest

Answer 47

• Contain excipients that react with water to make CO2
• Acid-base reaction (acids = citric acid and tartanic acid, salt = sodium bicarbonate)
• Few other excipients required - binders (low concentration of PVP), lubricants, flavors/sweeteners

Question 48

Effervescent Tablet Pros and Cons

Answer 48

Pros

• Rapid dissolution
• Carbon dioxide can help mask the taste to an extent

Cons

• Special production facilities
• Packed in hermetically sealed containers
• More expensive
• Increased sodium concentrations

Question 49

Pills

Answer 49

Solid dosage forms compounded by pharmacist.

-Damp mass rolled into pill tile or filled into molds

Question 50

Problems with Compounding Pills

Answer 50

• Lack of physical/chemical characterizations of components
• Lack of processing controls
• No control of disintegration

Question 51

Proper Packaging/Storage

Answer 51

• Important to maintain stability
• Tablets and capsules should be in tightly sealed container and a cool, dry place (like a potato!!)
• Bulk packaging usually contains desiccants to absorb moisture
• Photolytic drugs are packaged in opaque containers to protect from light

Question 52

Protecting Drugs After Dispensing

Answer 52

• Usually packaged in amber vials to help maintain stability

- Nitroglycerin is an example of an exception. Must be kept in its ORIGINAL container

Question 53

Proper Administration

Answer 53

• Important to obtain therapeutic benefit
• Take tablets with a glass of water to allow for easier swallowing and to minimize esophageal sticking
• Rule of thumb is 8 oz of water
• If they have reflux, recommend that the patient takes the medication at least an hour before lying down
• Number of tricks to swallow tablets/capsules easier