Tablets - PDF

Summary

This document discusses various aspects of tablet manufacturing, including different types, properties, unit processes, advantages, disadvantages, limitations, and methods used in tablet manufacture. The document also touches on other compressed dosage forms, such as lozenges and implants.

Full Transcript

TABLETS

Prof Thiru Govender

Discipline of Pharmaceutical
Sciences
Advantages of Tablets
1. Enables accurate dosage of active → simple
to administer by patient.
2. Easy for bulk transport/ for patient to carry.
3. More stable than liquid preparations.
4. Drug release can be modified → to suit
specific purposes.
5. Mass production can be simple/ quick → has
low production costs.
Types of Tablets
Tablets to be swallowed whole
Effervescent tablets
Chewable tablets
Sublingual tablets
Sustained/ Controlled release
Coated tablets (prevent decomposition/
mask taste)
Multilayer tablets
Properties of Tablets
Desirable attributes:
1. Must be strong/resistant to abrasion → to
withstand handling during manufacture,
packaging, shipping and use.
2. Drug must be bioavailable.
3. Tablet must have uniform weight and drug
content.
4. Must have elegant appearance (colour, shape
markings).
5. Tablets must retain all functional attributes e.g.
stability.
Unit Processes
ž Properties of tablets are affected by formulation
and method of manufacture.
ž Main unit processes involved in tablet
manufacture include:
— Solid-Solid mixing
— Solid-Liquid mixing
— Milling (Size reduction)
— Drying
— Compaction
ž Strict temperature/humidity control is required.
ž Work area/procedures are designed to prevent
cross contamination.
ž3 Methods of Tablet Manufacture
— Wet Granulation
— Dry Granulation
— Direct Compression
 Steps in the Different Methods of Tablet Manufacture
Direct
Wet Granulation Dry Granulation
Compression
1. Milling of drugs & 1. Milling of drugs
1. Milling of drugs & excipients
excipients & excipients
2. Mixing of
2. Mixing of milled powders 2. Mixing of milled powders
ingredients
3. Compression into large, 3. Tablet
3. Preparation of binder solution
hard tablets, to make slugs compression
4. Mixing of binder solution with
4. Screening of slugs
powder to form wet mass

5. Coarse screening of wet mass 5. Mixing with lubricant &
using 6 to 12 mesh screen disintegrating agent

6. Drying of moist granules 6. Tablet compression
7. Screening of dry granules
through 14 to 20 mesh screen
8. Mixing of screened granules
with lubricant and disintegrant
9. Tablet compression
Wet Granulation
Direct compression is much simpler and less
expensive, therefore its important to
understand advantages of wet granulation.

Purpose: ↑ particle size of powder and obtain
uniform particles → this improves flow through
hopper into the dies.
 Advantages
1. Addition of binder improves cohesiveness and
compressibility → therefore can form agglomerates
(granules). Excipients are therefore modified and
compressibility is improved.
2. Lower compression pressure needed → leads to
improved tooling life and machine wear.
3. High dosage drugs with poor flow/ poor compressibility
need wet granulation for suitable flow/ cohesion.
4. The addition of drugs (low dosage)/ colour additives to
binder solution during manufacture→ provides good
distribution and uniform content.
5. Prevents segregations of components during
processing/ transferring/ handling.
6. Proper choice of solvent and binder→ can ↑
dissolution rate of hydrophobic drug.
Limitations
ž COST!!! → expensive because of labor,
time, equipment, energy and space
requirements.

ž Not suitable for thermolabile/ hydrolysable
drugs.
 Direct Compression
Does not require equipment and handling
expenses required in wetting/ drying
procedures.
Avoids hydrolysis of H2O-sensitive drugs
Most drugs – require compression vehicle to
aid compression.
Compression vehicle divided into 3 groups
based on disintegration/ flow properties
a) Disintegration agents with poor flow e.g.
microcrystalline cellulose, microfine cellulose and
directly compressible starch.
 b) Free flowing materials which do not disintegrate,
e.g. dibasic calcium phosphate
c) Free flowing powders which disintegrate e.g.
dextrose, sucrose, mannitol.

Method: Drug + Compression vehicle =
blended → and compressed directly.

Direct compression agents must be free
flowing, inert, tasteless, colourless and
promote rapid disintegration
 Dry Granulation / Slugging
It is a dry method for moisture/ heat sensitive drugs.
Blend of powders → forced into die of tablet press →
forms a compacted mass = “slugs”
OR Powder blend is squeezed into a solid cake
between rollers = roller compaction.
Slugs/ roller compacts → milled/ screened to produce
granular form → this flows more uniformly.
Advantage: over direct compression → no
segregation of drug/ excipient can occur. Useful for
hydrolysable and thermolabile drugs
Disadvantage: lengthy process, high cost of
equipment.
Methods of Manufacture
ž Tablets are made by compressing drugs
and excipients on tablet press.

ž Tablet press:
— Hopper for holding and feeding granulation
— Feeding mechanism to feed the granulation
to the die cavity.
— Die + upper punch + lower punch to
compress tablets and eject for packaging.
ž First Stage: Lower punch is lowered to preset
point to form a cavity in the die to provide a
volume with correct fill weight of the tablet.
Shoe moves over to fill granules.

ž Shoe is pulled out of way → upper punch
descends into die to compress
powder/granules.

ž Lower punch is raised flush within surface of
the dies table → feed shoe ejects tablet as it
moves over → fill cycle is repeated.
Schematic of a
single-punch
tablet press
 The sequence of
events involved in the
formation of tablets
Tablet Excipients
Tablet = Active drug + Excipients

Excipients =
— Diluents,
— Moistening agents,
— Binding agents,
— Glidants,
— Disintegrants,
— Colour and flavor additives.
 Diluents (“Bulk Agents”)
ž Used to ↑ bulk of tablet → improves compression.
ž Are inert and can also improve binding/flow
properties.
ž Not required if drug dose is high. Tablet weight
should not be less than 70mg.
ž Widely used diluent = lactose → has pleasant
taste, dissolves in H2O rapidly, absorbs little
moisture, neutral in rxn. Deforms easily under
pressure.
ž Disadvantage : Expensive + Poor flow properties
ž Dicalcium phosphate is also used commonly →
it is insoluble, makes good hard, white
granules. Absorbs less moisture than lactose
and therefore used for hygroscopic drugs.

ž Other diluents
— Dextrose → hygroscopic
— Mannitol → freely soluble, used for chewable tablets
— Microcrystalline Cellulose → Excellent compression
→ has some disintegrating properties.
— Sucrose → Sweet taste, hygroscopic.
Moistening Agents
ž Required for wet granulation e.g. water.
ž When H2O cannot be used, alcohol is used.
ž Absolute alcohol is expensive → therefore
industrial methylated spirits used.
ž All traces of alcohol has to be removed
during drying.
Glidants
ž Improves flow properties of the granulations.

ž Act by ↓ interparticulate friction.

ž Common glidant = silica → added at 0.1%
w/w to powder/ granules
 Lubricants
ž Required to prevent adherence of granules to punch
faces and dies.
ž Ensures smooth ejection of tablet from the die.
ž Enhances flow properties of granules.
ž Talc and Mg stearate are commonly used.
ž Incorporated by blending with dry granules prior to
compression up to 1% w/w.
ž ↑ [lubricant] → Increases disintegration time → which
↓ dissolution because it is hydrophobic. Also causes ↓
bonding forces between granules.
ž Mixed for 2-5min only→ because overmixing ↑
disintegration time and causes loss of bonding in
tablet matrix.
Examples of Glidants / Lubricants
Name L or G [ ] in tablet (% w/w)
Stearates e.g
L 0.25 – 1
Magnesium
Talc L and G 1-2
PEG L 2-5
Starch G 2 - 10
Silica G 0.1 - 0.5
Disintegrants
ž Purpose: is to break up tablet and after
administration → to ↑ surface area of tablet
fragments and ↑ rapid release of drug.
ž Acts by swelling in the presence of water to burst
open the tablet.
ž Common disintegrant: Starch → acts by swelling.
ž Another mechanism: Those that do not swell, act
by capillary action i.e. liquid drawn through
capillary pathways within the tablet → therefore
this causes interparticulate bonds to rupture.
ž Incorporated in many ways:
— Added to other ingredients → and mix is
granulated.

— 2/3 can be added before wet granulation → and
remainder added in dry form to dried granules.

— Can be added in dry form all at once to dried
granules. Not popular because e.g. starch
between granules may decrease bonding –
which will produce soft tablets.
Examples of Disintegrants
Substance [ ] in tablet (% w/w)
Alginic acid 2 - 10
MCC Up to 10
Na starch glycollate 1 - 10
Starch 2 - 10
Crosslinked PVP
 Binding Agents (Adhesive)
ž Act as adhesives to bind powders together →
therefore provides bonding to form granules.
ž Also helps to bind granules together during
compression.
ž Too little binding agent → leads to soft granules
ž Too much binding agent → leads to hard, large
granules
ž Can be added to formulation via 2 ways (depends on
granulation method):
— As a powder in the formulation (dry granulation/slugging)
— As a solution to mixed powders (wet granulation)
ž Criteria for selection
— Must be compatible with other tablet components.
— Must impart sufficient cohesion for normal
processing, but must allow tablet to disintegrate and
drug to dissolve to be bioavailable to patient.
ž Common binding agents:
— Starch → common, good (2% used in formulation).
Incorporated in mucilage in H2O.
— Gelatin → Forms gel in cold water, therefore warm
solution used, is a strong adhesive
— Polyvinyl pyrollidone (PVP) → soluble in H2O and
alcohol → releases drug faster.
Examples of Adhesives & Concentration
in Granulating Fluid

[ ] in Granulating
Substance
Fluid (% w/w)
Gelatin 5 - 20
Glucose 50
PVP 2 - 10
Starch mucilage 5 - 10
Sucrose Up to 70
 Colour Additives
ž Has aesthetic value.
ž Distinguishes one product from another during
manufacture.
ž Identifies medication to patient.
ž Pastel shades - more common - less likely to
show mottling than darker colours.
ž Colours must be certified by Food and Drug
Administration on (FDA).
ž Colourant is added to binder liquid during wet
granulation→ allows uniform dispersion and colour
distribution to produce homogenous granulation
and tablets.
 Flavours
ž Used to mask bitter, sour, salty and other
unpleasant taste of drugs in liquid or solid dosage
forms e.g. chewable tablets.
ž Salt → may be used to overcome excessive
sweetness.
ž Chocolate - good masking agent for bitter tastes
such as quinine.
ž Raspberry - good for salty tastes such as
ammonium chloride.
ž Other fruit flavours, cherry, orange, mint.
Evaluation of Tablets
ž All evaluated for chemical, physical and
biological properties.

ž Describes total quality of tablet formulation
according to method of manufacture in its
package/ container under specific storage
conditions.
ž Tablet Thickness
ž Hardness
ž Disintegration
ž Dissolution
ž Colour
ž Unique Identification Markings
ž Weight
ž Friability
ž Content Uniformity/ Assay
 Tablet Thickness
ž Should be controlled within 5% or less of standard
value.
ž Any variation should not be apparent to the unaided
eye to maintain product acceptance by patient.
ž If thickness/ volume differs → it leads to packaging
problems.
ž Tablet thickness generally controlled by tablet weight.
ž Measured by micrometer.
Hardness
ž Tablet requires certain amount of strength, or
hardness to withstand mechanical shocks of
handling in manufacture, packaging and
shipping.
ž Must also be able to withstand reasonable
abuse when in the hands of the consumer.
ž Tablet hardness is NB for tablet disintegration
and also dissolution.
ž Important to monitor hardness for drug products
that have real/potential bioavailability problems or
sensitive to dissolution release profiles as a
function of compression force.

ž Tablet hardness defined as force required to break
a tablet in a diametrical compression test: tablet
placed between 2 anvils, po applied to the anvils
and crushing strength that causes tablet to break
is recorded e.g. Monsanto, Erweka.

ž Factors that might alter tablet hardness = machine
speed, changes in particle size, distribution of
granules.
ž Appropriate balance between minimum
accepted tablet hardness to have adequate
friability and maximum acceptance hardness
to have adequate dissolution is required.
ž A hardness of approx. 5kg → is minimal for
uncoated tablets, Chewable tablets may be
softer.
Weight
ž Tablet dimensions / density of mix determines
weight.
ž Weight of tablet will determine amount of
weight variation allowed by USP e.g.

< 80mg 10 % difference
80 - 250 7.5 %
> 250mg 5%

ž Weight of tablet directly relates to potency.
 Content Uniformity / Assay
ž Composite sample of tablets taken, ground up, mixed
and analysed to produce an average potency value
(Assay). Must be e.g. 95-105% of stated value.
ž Weight is not used as a potency except for tablets
where drug is 90 - 95 % of formulation.
ž To ensure uniform potency → Content Uniformity Test
is applied. 30 tablets selected randomly → 10 tablets
are assayed individually.
ž Preparation complies with test if each individual
content is 85 - 115% of the average content.
ž Impurities/Degradation products are also quantified.
 Friability
ž Is another measure of strength.
ž Related to tablets ability to withstand shock,
abrasion without crumbling during manufacturing,
shipment, packaging and patient use.
ž Tablets which powder, chip and fragment when
handled leads to lack of elegance, poor consumer
acceptance, and causes tablet weight variation
and content uniformity problem.
ž Laboratory friability testing machine: Roche
Friabilator
— Subjects a number of tablets (20) to abrasion and
shock by using a plastic chamber revolving at 25
rpm, dropping tabs a distance of 6 inch. within each
revolution.
— Pre-weighed tablet sample are placed in a friabilator
→ this is operated for 100 revolutions → tablets rare
then dusted and reweighed.
— Acceptance: Loss in weight = 0.5 – 1 %
— If capping is observed - tablets are unacceptable
irrespective of weight loss.
— Factors affecting friability = moisture content of
granules, conditions of particles.
Disintegration
ž For drug to be available → it has to be in
solution.

ž First step → breakdown of tablets into smaller
particles/ granules= DISINTEGRATION
Test: Uses 6 glass tubes, 3 inch. long,
open at top, held against a 10-mesh
screen at bottom end of the basket rack
assembly.

One tablet placed in each tube, rack is
placed in 1-litre beaker of water (gi fluid
etc) at 37 ± 2°C→ tablets remain 2.5cm
below surface of liquid on their upward
movement.
 Std motor driven device used to move the basket
assembly with the tablets up and down through a
distance of 5-6 cm at a frequency of 28-32 cycles
per minute.
Disks may be placed on top of tablets to prevent
floating.

ž To comply with USP, tablets must disintegrate
and all particles pass through 10 mesh screen in
specified time.
ž Factors affecting disintegration: compression po,
amount of binder, lubricant and disintegrant and
also test parameters.
Dissolution
ž Orally administered drugs must be in solution
before absorption takes place.
ž Rate of drug absorption determined by drug
dissolution from the tablet.
ž Design of the tablet and dissolution profile may
determine total amount of drug absorbed / rate
of absorption.
ž NB to determine whether tablet releases drug
contents when placed in GIT.
ž In vitro dissolution testing of tablet done to
achieve above.
ž Objectives:
— Release of drug is close as 100% as possible.
— Rate of release is uniform batch to batch.
— Rate of release does not change with time.

* See previous (physical pharmacy) notes for
Dissolution Testing instruments and factors
influencing release rate
Colour
ž Colour used for rapid ID and consumer
acceptance.

ž NB for colour to be uniform from tablet to
tablet, lot to lot.

ž Evaluation is normally subjective
(Spectrophotometric techniques may be
used).
Unique Identification Markings
ž Unique markings also used for rapid ID.

ž May be embossing, engraving and printing.

ž Increased No. of items compressed on tablet
→ can cause ↑ problems of sticking/ picking.
Problems in Tablet Manufacture
ž Binding
ž Sticking
ž Capping and Lamination
ž Chipping and Cracking
 Binding
ž Due to insufficient lubricant.
ž Refers to resistance of tablet to ejection because of
adherence to die wall.
ž With sufficient lubrication: tablets are smooth, have
glossy edges/ sides.
ž With insufficient lubrication: tablets have rough sides/
edges and scratches caused by abrasion on ejection.
ž Other causes of binding
— Rapid and excessive expansion of tablets.
— Granulation too cold or too warm.
— Worn dies and high moisture content.
Remedies:
1. ↑ lubrication
2. Use more efficient lubrication
3. Improve method of lubricant addition
4. Modify moisture / size of granulation
5. Taper dies
Sticking
ž Also known as filming / picking.
ž Due to incompletely dried / improperly
lubricated granulations.
ž Some of the granulation sticks to punch faces.
ž Tablets may chip or break if picking occurs on
the lower punch or may pull apart from the
upper punch.
ž May also be due to loss of polish of the punch
faces → leads to dull, roughened punch faces.
Remedies:
1. ↓ moisture content of granulation
2. Change or ↓ the lubricant
3. ↑ proportion of binder in the granulation
4. Clean punch faces with 5% light mineral
oil in isopropanol
Capping and Lamination
ž Capping → top/ upper segment of tablet is
cracked around the edge or separated as a cap.
ž Due to air entrapped in the die which is
compressed as the punches move together to
apply po, then expands when po is released.
ž Common with granulations having large % of
fines.
ž Excess moisture of granules/ too little or too
much of lubrication will also cause capping.
ž Laminating → caused by some factors as above
but ↑ses at high speed.
ž Tablet split/ crack on sides by air expansion
when po is released.
ž May also be due to poorly cohesive granules

Remedies:
1. Remove some/ all of fines
2. ↑ or change lubricant
3. Dry or moisten granulation
4. ↑ binder concentration
Chipping and Cracking
ž Chipping → pieces broken / chipped out of
the tablet. May occur on faces but usually on
edges.
ž May be due to sticking / damaged punches.
ž Cracking → tablets that are cracked
anywhere, but often in the centre of the top.
Remedies:
1. Replace or reface nicked / chipped
punches
2. Improve granulation by ↑ binder/wetting
of granulation
3. Polish punch tips
4. Remove some/ all fines
5. ↓ granule size
Lozenges
ž Are compressed tablets → at least 18mm in
diameter.
ž Has no disintegrant → is sucked to dissolve in
mouth.
ž Flavours added
for palatability
2 types of lozenges:
1. Produces a local effect in mouth or throat e.g.
contain antiseptic / antibiotic.
— Must be palatable / slowly soluble.
— Contains some sucrose, lactose and gelatin solution for
smooth taste.
— Compressed between flat-faced punches→ allows
greater po to be applied.

2. Produces a systemic effect e.g. lozenge
containing vitamin supplements.
— Are sucked → provides palatable way of administering
vitamins.
Sublingual & Buccal Tablets
ž Tablet placed under the tongue (sublingual) or in
side of the cheek (buccal) → produces
immediate systemic effect → drug directly
absorbed through mucosa.
ž Examples are isoprenaline sulphate
(bronchodialator) and glyceryl trinitrate tablets
(vasodialator).
ž Tablets → small and flat → no disintegrant →
compressed lightly to produce fairly soft tablet.
ž Sucrose used for sweetness.
 SUBLINGUAL

BUCCAL
Implants
ž Are small pellets of drug only without excipients
ž 2-3mm in diameter – prepared in aseptic manner
to be sterile.
ž Inserted into body tissues by surgical procedures
→ then slowly absorbed over period of months.
ž Used for hormones e.g. testosterone, stilboestrol
ž Produced manually → die filled by hand since
drug does not normally flow.
ž Particle size normally large for slow rate of
absorption
PELLET
 Effervescent Tablet
ž Tablet broken up by internal
liberation of CO2.
ž Increases palatability.
ž When alkali metal carbonates or
bicarbonates combined with tartaric
/ citric acid → CO2 is liberated when
tablet placed in H2O.
ž H2O soluble lubricant added to
prevent insoluble “scum” on water
surface.
ž Sweetness achieved with saccharin.
 Chewable Tablets
ž Attractive alternative for pxts with difficulty in
swallowing/ children who have not yet learnt to wash
tablets down with water.
ž Can be taken at any time place when water is not
available.
ž Mannitol use as chewable base diluent → has
pleasant, cooling sensation in mouth → alsomasks
taste of unpleasant excipients/ drugs.
ž Prepared by wet granulation.
ž Granules must not be too hard → must have high
amounts of flavouring agent (for palatability).
ž Disintegrant not required (because tablet is broken by
teeth).
 Multilayer Tablets
ž Consists of several different granulations →
compressed, on top of each other → forms single
tablet composed of > 2 layers.
ž Each layer fed from separate feed frame with
individual weight control.
ž Mainly used for incompatible substances –
virtually no reaction takes place.
ž Dust extraction important during compression to
avoid cross
contamination.
Sustained Release Tablets
ž Designed to release drug slowly after ingestion.
Advantages:
— ↓ frequency of administration, therefore improved
patient compliance (ie: 1-2 tabs to be taken
daily)
— Activity can be extended throughout the night -
no need to be awakened
— In hospital → has time saving benefit for nurses
— Has reduced peak-through fluctuations →
therefore ↓ side effects.
Disadvantages:
— Cost → tablets – more per unit dose than
conventional dosage form.
— Accidental poisoning → special treatment
problems.
— Large dose used → therefore ↑ physical size
→ therefore swallowing problems.
— Failure of drug release mechanism → causes
dose dumping.
 Example
ž Consider the following formulation for 1 tablet in mg:
Drug X 500
Lactose 160
Polyvinyl pyrollidone in ethanol 28
Magnesium stearate 0.5

ž What method of manufacture is used?
ž What is wrong with the formulation.?
ž What are functions of above excipients.?
ž What is weight of 1 tablet.?
ž What is weight of 100 000 tablets.?