Tablets - University of Southern Mindanao PDF

Summary

This presentation from the University of Southern Mindanao details various types and aspects of tablets, including advantages and disadvantages. The presentation covers topics such as compressed tablets, molded tablets, properties of tablets, and different components of tablets.

Full Transcript

UNIVERSITY OF SOUTHERN MINDANAO

TABLETS
 TABLETS
▪ Solid Preparations – one or more active ingredients and are
obtained by compressing uniform volumes of particles.
 TABLETS - Advantages
1. Offers greatest dose precision and the least content
variability
2. Lightest and most /compact of all oral dosage.
3. Best combined properties of chemical, mechanical,
microbiologic stability of all the oral forms.
4. Convenience of administration.
 TABLETS - disadvantages
1. Drugs resist compression into dense compacts, owing to
their amorphous nature of flocculent quality.
2. Poor wetting, dissolution properties – difficult or
impossible to formulate and manufacture as a tablet that
will provide adequate or full drug bioavailability.
3. Drugs with Bitter-tasting, Objectionable odor, sensitive to
oxygen or atmospheric moisture n may require
encapsulation or entrapment prior to compression or the
tablets may require coating.
 COMPRESSED TABLETS (CT)
▪ Types of CT
▪ Sugar-coated tablets (SCT)
▪ Film-coated Tablets (FCT)
▪ Enteric-Coated (ECT)
▪ Multiple Compressed Tablet (MCT)
▪ Layered Tablets
▪ Press-Coated Tablets
▪ Controlled-Release Tablets
▪ Tablets For Solution
 COMPRESSED TABLETS (CT)
▪ Types of CT
▪ Effervescent Tablets
▪ Compressed Suppositories or Inserts
▪ Buccal or Sublingual Tablets
 COMPRESSED TABLETS (CT)
▪ Sugar-Coated Tablets
▪ Beneficial in covering-up drug substances possessing
objectionable tastes or odors, or protecting material
sensitive to oxidation.
 COMPRESSED TABLETS (CT)
▪ FCT
▪ Covered with thin layer of film of a water-soluble material
▪ A number of polymeric substance with film-forming
properties may be used.
 COMPRESSED TABLETS (CT)
▪ ECT
▪ Substance that resist solution in gastric fluid but
disintegrate in the intestine.
▪ Used for tablets containing drug substances which are
inactive or destroyed in the stomach, for those which
irritate the mucosa, or as a means of delayed release of
the medication.
 COMPRESSED TABLETS (CT)
▪ MCT
▪ Layered Tablets
▪ Prepared by compressing tablet granulation.
▪ The operation maybe repeated to produce multilayered tablets
of two or three layers
▪ Press-coated Tablets
▪ Referred to as dry-coated
▪ Prepared by feeding previously compressed tablet into a
special tableting machine and compressing another
granulation layer around the preformed tablets
 COMPRESSED TABLETS (CT)
▪ CRT
▪ Prolonged-release or Sustained- release
▪ 3 types
1. Those which respond to some physiological condition to
release the drug, such as enteric coating
2. Those that release the drug in relatively steady, controlled
manner, and
3. Those that combine combinations of mechanisms to release
“pulses” of drugs, such as repeat action tablets.
 COMPRESSED TABLETS (CT)
▪ Tablets for Solution
▪ Preparing solutions or imparting given characteristics to
solutions must be labeled to indicate that they are not be
swallowed.
▪ Example: Halazone Tablets for Solutions or Potassium
Permanganate Tablet for solution
 COMPRESSED TABLETS (CT)
▪ Effervescent Tablet
▪ tablets.
 COMPRESSED TABLETS (CT)
▪ Compressed Suppositories or Inserts
▪ Vaginal Suppositories
▪ Example: Metronidazole Tablets
 COMPRESSED TABLETS (CT)
▪ Buccal and Sublingual Tablets
▪ Small
▪ Flat oval tablets
▪ Buccal – Inserting into buccal pouch dissolve or erode
slowly
▪ Sublingual – under the tongue
▪ Example:
▪ Progesterone Tablets (Buccal)
▪ Nitroglycerine, Isoproterenol HCl, Erythrityl
Tetranitrate
 MOLDED TABLETS OR TABLET TRIOTURATES (TT)

▪ Made from moist materials using a triturate mold which
gives them shape of cut sectioning of a cylinder
▪ Types
▪ Dispensing Tablets (DT)
▪ Hypodermic Tablets (HT)
 PROPERTIES
▪ Freedom from defects such as chips, cracks, discoloration,
and contamination
▪ Should have strength to withstand the rigors of the
mechanical treatment involved in production, packaging,
shipment and dispensing
▪ Should have chemical and physical stability to maintain its
physical attributes over time.
▪ Must be able to release the medicament in a reproducible
and predictable manner.
 COMPONENTS
▪ Essential Components
▪ Compressed Aides
▪ Supplementary Components
 COMPONENTS
▪ Essential Components
▪ Diluents or bulking agents
▪ Make up the major portion of the tablet
▪ Lactose USP (Hydrous, Anhydrous)
▪ Coarse Granular: 60-80 mesh
▪ Regular: 80-100 mesh
▪ Spray-dried: 100- 120 mesh
 COMPONENTS
▪ Essential Components
▪ Lactose USP (Hydrous, Anhydrous)
▪ Advantages
▪ Inexpensive
▪ Readily Soluble
▪ Stable and Generally inert
▪ Not softened by the frictional forces of compression
due to its high melting point (202C)
 COMPONENTS
▪ Essential Components
▪ Lactose USP (Hydrous, Anhydrous)
▪ Disadvantages
▪ Binders may have to be added when presence of drugs
or some other substance interfere with cohesion.
▪ Lubricants required
 COMPONENTS
▪ Essential Components
▪ Lactose Spray-dried Special Advantages
▪ Flow from the Hoppe d/t spherical Granules
▪ Flow property maintain even when wet granulated,
provided the particles have not been broken by high-
speed grinding
▪ Can be tableted without addition of binders
▪ Used for direct Compression methods
 COMPONENTS
▪ Essential Components
▪ Starches
▪ Derived from Wheat, corn, rice, and potato
▪ Used as Binders and Disintegrants
▪ Provide a moisture balance even though moisture content is 12-14%.
▪ Stabilized hygroscopic drugs
▪ Protects tablets from deterioration before use
 COMPONENTS
▪ Essential Components
▪ Mannitol (powder/ granular)
▪ Advantages
▪ Highly desirable for water-sensitive drugs
▪ Appropriate for chewable tablets because of its
taste and negative heat of solution.
▪Disadvantages
▪ Expensive
 COMPONENTS
▪ Essential Components
▪ Sorbitol
▪ Advantages
▪ Used for direct tableting
▪Disadvantages
▪ Very hygroscopic above 65% relative humidity
▪ It may be blinded with mannitol or other excipients
to reduce its moisture pick-up.
 COMPONENTS
▪ Essential Components
▪ Sucrose
▪ Advantages
▪ Provides additional Sweetness
▪ Serves as binder since it has cohesive properties
▪ Contributes to dissolution of the tablet since it is
readily soluble
 COMPONENTS
▪ Essential Components
▪ Sucrose
▪Disadvantages
▪ Somewhat hydroscopic so that its ratio in the
formula should be small
▪ Tends to turn brown in contact with acidic and basic
substances.
 COMPONENTS
▪ Essential Components
▪ Microcrystalline Cellulose (avicel)
▪Advantages
▪ Used for direct compression formulation
▪ At 5-15% concentration in wet granulations:
a. Minimizes case-hardening of tablets
b. Reduces tablet mottling
 COMPONENTS
▪ Essential Components
▪ Microcrystalline Cellulose (avicel)
▪Disadvantages
▪ Presence of drug may necessitate addition of
lubricant to formulation
▪ Expensive
 COMPONENTS
▪ Essential Components
▪ Binders
▪ The choice of binding agents depends on the binding
forces required to form granules and its compatibility
with other ingredients as revealed by stability studies.
▪ Influence the characteristic of the compressed tablets
▪ Disintegration?
▪ Excessive wear of Punches and disc – d/t heavy
pressure
▪ Mottling of tablets
 COMPONENTS
▪ Essential Components
▪ Binders
▪ Water and Alcohols?
▪ Lactose and Starch?
▪ Binders used as a solution is more effective than the
same amount of binder which is dispersed in dry form
and moistened with the solvent.
▪ The binding sol’n. can easily penetrate the film of
adsorbed air coating each particles of the powder
blend
 COMPONENTS
▪ Essential Components
▪ Binders
▪ Recommended Binding Solutions:
1. Starch paste: aq. Sol’n of corn starch 10-2-% w/w
2. Aq. Gelatin Solution: 10-20% w/w
3. Aq. Glucose solution: 25-50% w/w
4. Alcoholic Solution of ethylcellulose 5% w/w
 COMPONENTS
▪ Essential Components
▪ Disintegrants
▪ The rate with which the API is released from the tablet
matrix is measured by disintegration time of the tablet.
▪ Factors affecting disintegration time:
1. Disintegrants
2. Its selections
3. Its quantity
4. Mode of addition to the formulation
 COMPONENTS
▪ Essential Components
▪ Disintegrants
▪ Classification
1. Starches (corn and potato)
2. Clays (Bentonite and Beegum)
3. Cellulose (Methylcellulose, Na CMC,
microcrystalline cellulose)
4. Algins (alginic acid and Sodium Alginate)
 COMPONENTS
▪ Essential Components
▪ Disintegrants
▪ Classification
5. Gums ( Locust bean, Karaya, Guar, Tragacanth, and
Agar)
6. Effervescent mixtures
 COMPONENTS
▪ Compressed Aides
▪ Lubricants
▪ Glidants
▪ Anti-adhesive
 COMPONENTS
▪ Compressed Aides
▪ Lubricants
▪ Prevent friction and wear
▪ True Lubricant action is particularly required immediately after
compression of the tablet within the die to reduce the friction
between the inner die walls and tablet edge during the
ejection cycle.
▪ Poor Lubrications→?
▪ Help granules Slip and slide
 COMPONENTS
▪ Compressed Aides
▪ Glidants
▪ Improve the flow characteristics of granulation by reducing the
interparticulate friction.
▪ Eliminating the problem associated with the flow of materials
from larger through smaller apertures in the tablet presses
▪ Serve to assure smooth and uniform flow at all times
 COMPONENTS
▪ Compressed Aides
▪ Anti-adhesive
▪ To prevent tablet granulation or materials from sticking to the
faces of the punches and the die walls
 COMPONENTS
▪ Supplementary Components
▪ Colorants
▪ Flavors and Sweeteners
▪ Adsorbents
 COMPONENTS
▪ Supplementary Components
▪ Colorants
▪ BFAD or FDA Approved
▪ Approved colorants
▪ FD & C
▪D & C
▪Mottling – increase in Colorant used
▪Pastel colors are preferred
 COMPONENTS
▪ Supplementary Components
▪ Colorants
▪ Several Approaches to the addition of colorants to a tablet
formulation:
1. Most common method is to incorporate a soluble dye
in the binding solution prior to the granulating
process. (o.3% max conc.)
2. Adsorbed the dye on starch or Ca sulfate from its aq.
Sol’n. the resultant powder is dried and blended with
other ingredients
3. It may also blended dry with a portion of the diluent
and distributed during the dry mixing operation with
the rest of the formulation.
 TABLET PRESSES
Basic Elements of tablet press
1. Hopper
2. Feed Frame
3. Dies (controlling the size and shape of the tablet)
4. Punches (compacting the material)
5. Cams (guiding the panches
▪ The basic mechanical unit tablet compression involves the
preparation of two steel punches within the steel die cavity.
▪ The tablet assumes the shape of the punches and die used.
▪ Weight of the tablet?
▪ Thickness?
 Types of Compression Machine
1. Single Punch
2. Multistational rotary presses
 Care of Compression Machine
▪ Proper maintenance of punches or die
 Care of Compression Machine
▪ Some practical rules in the care and handling of the toolings
are:
1. Do not allow the punches to drip on the concrete or
similar hard surface which will chip the fine edges
2. Never allow the upper and lower punch faces to come in
contact with each other → bend or flatten out the fine
sharp edges of the pinches which causes capping of the
tablet.
 Care of Compression Machine
▪ Some practical rules in the care and handling of the tooling
are:
1. After production, toolings are removed from the machine,
washed thoroughly in warm soapy water, then dried with
a clean towel or cloth. A coating of oil should then be
applied to protect from the atmospher.
2. Storage of hard paper tubes in which punches are shipped
from the factory, or hanging then in wooden racks after
thorough lubrication is recommended
 Care of Compression Machine
▪ Tablet machine should received the best possible care to
insure maximum operating efficiency. Observe the following
rules:
1. Keep the machine clean
2. Keep parts properly lubricated
3. Avoid overloading
4. Insert dies carefully
 Tablet Granulations
▪ Granulations – is a pharmaceutical process that attempts to
convert powdered materials into aggregates called granules
▪ Properties:
1. Fluidity (hopper into feed frame)
2. Compressibility
 Tablet Granulations
▪ Good tablet Granulation should:
1. Contains particles which approach spherical shape.
2. Present a range of particle size that resembles normal
distribution curve, with a small percentage of coarse and
fine particles and with the rest in the narrow range
between.
3. Uniform Distribution of all ingredients in the formulation
4. Possess compressible components that will confer
physical strength and form of the tablet.
 Methods
1. Dry Methods
a. Direct Compression
b. Granulation by compression
2. Wet Methods
a. Wet Granulations
b. Special Procedures/ related granulation process
 Dry Methods
▪ Preferred Method
▪ Do not required the equipment and handling expenses required in
wetting and drying procedures
▪ May obviate loss of activity with those drugs are moisture- and heat-
sensitive.
 Direct Compression
Presents several drawbacks namely:
1. Its limited few crystalline substance, such as inorganic salts
(NaCl, NaBr, KCl) which may be compressed directly; the vast
majority of medicinal agents are rarely so easy to tablet.
2. Compression of a single substance may produce tablets that
do not disintegrate.
3. Other components, may interfere with the compressibility of
the active ingredient thus minimized the usefulness of the
method
4. The effective dose of many drugs is so small that direct
compression would be impractical and uneconomical.
 Granulation by compression
▪ Dry Granulation
▪ Precompression or
▪ Double Compression Method

▪ The methods involves compaction of finely divided
powdered materials into large, poorly formed but firm
masses called “SLUGS”.
 Dry Granulation Methods includes the following
Steps:
1. Weighing of the Ingredients
2. Mixing of ingredients in a suitable mixer or blender.
3. Slugging Using flat face punches 7/8 to inch diameter
4. Dry screening of slugs through a mesh screen (by hand) or
through fritzpatrick comminuting mill.
5. Lubrication through as suitable blender
6. Compression into final tablets.
 Wet Methods
▪ Most widely used and most general method of preparing
tablet granulation that will satisfy the physical requirements
for the compression of good tablets.
▪ Disadvantages:
▪ It involves separate steps
▪ Required Longer processing time
▪ Labor cost is High
 Wet Methods
▪ Steps
1. Weighing of ingredients
2. Mixing them in a suitable mixer or blender
3. Granulation into a damp mass by the addition of binding
solutions
4. Screening the mass by forcing through a 6 or 8 mesh
screen.
5. Drying in suitable ovens of fluid bed dryers
 Wet Methods
▪ Steps
1. Dry Screening through smaller mesh screen
2. Lubrication in a suitable blender
3. Compression into final tablets
 Tablet Characteristics
1. Diameter Size
2. Shape
3. Thickness
4. Weight
5. Hardness
6. Disintegration Time
7. Dissolution
 Problems
1. Chipping
2. Capping
3. Lamination
4. Mottling
5. Weight Variation
6. Hardness Variation
7. Double Impression – lower punches