Industrial Pharmacy Lec 4 PDF

Summary

This document covers the topic of tablet coating in industrial pharmacy. It discusses the principles, processes, and evaluations related to the subject. The document was created by Mohammed A Albarki, PhD and is for a 4th stage course at a department of pharmacy.

Full Transcript

Lec 4:Tablet Coating

MUC- Pharmacy Department- Industrial Pharmacy I- 4th stage. – Spring 2023 Mohammed A Albarki, PhD 1
 Tablet Coating
Tablet coating is adapted from the food
preservation process.
The first air suspension coater was created by Dr.
Dale Wurster in 1950.
He introduced airflow in the tablet coating
machine and the perforated coating pans.
His work resulted in the first reproducible and
uniform tablet coating.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Tablet Coating Principles
Tablet coating is an additional step that increases cost; therefore, the decision to
coat a tablet is usually based on one or more of the following reasons:
1. To minimize undesirable taste, odor, or color of the drug.
2. To provide physical and chemical protection for the drug.
3. To control the release of the drug from the tablet.
4. To protect the drug from the gastric environment of the stomach with an acid-
resistant enteric coating.
5. To improve the pharmaceutical elegance by use of special colors and contrasting
printing.
6. To assist tablet movement and mobility, especially for patients with dysphagia
while swallowing.
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 Tablet Coating Process

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Tablet Coating
Three main parts in studying tablet coating:
Tablet Properties Coating compositions Coating Process

Ideal Tablet Shape for Non-Enteric Coating Coating Equipment
coating Materials
Tablet physical properties Enteric Coating Coating Process
Materials
Solvents Sugar Coating

Plasticizers Film Coating

Colorants Evaluation of Film and
Film defects
Opaquants
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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Preferred Tablet Properties for Coating
1. Tablets must possess the proper physical
characteristics:
To withstand the intense mechanical stress that results
from striking other tablets and the walls of the coating
machine, the tablet must be strong enough to resist
abrasion and chipping.
2. Tablet shape should be intact and free of
imperfections:
3. Tablet surfaces that are brittle, soften in the presence of
heat, or affected by the coating compositions tend to
become rough in the early phase of the coating process
and are unacceptable for film coating.
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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Preferred Tablet Properties for Coating
4. The physical shape of the tablet is important.
The coating includes covering the tablet with a tacky
polymeric material that before becoming completely
dry will form tacky semisolid and eventually to a
nontacky dry surface.
So, tablets need constant movement inside the coating
machine, or tablet agglomeration can occur.
The ideal tablet shape for coating is the sphere which
allows the tablet to roll freely in the coating pan with
minimal tablet-to-tablet contact.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Preferred Tablet Properties for Coating
The worst shape is a square flat-faced tablet in
which coating materials would collet between the
surfaces to glue them together.
That’s why coated tablets usually have round
surfaces.
5. Tablet surface hydrophobicity/hydrophilicity
should match that of the coating materials.
Coating materials must wet the tablet surface.
For this reason, surfactant may be added to the
coating solution.

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 Coating Compositions
Coating material can form a physical deposition on the
surface of the tablet such as sugar and wax coating.
Coating materials should have the following properties:
1. Soluble in solvent for coating preparation.
2. Able to produce elegant-looking products.
3. Stability in the presence of heat, light, moisture, air, and
the substrate being coated. Film properties should not
change with aging.

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 Coating Compositions
4. Essentially no taste, odor, or color.
5. Compatibility with common coating solution
additives.
6. Nontoxic and pharmacologically inert.
7. Should not tend to bridge/fill the debossed
tablet surfaces.
8. Resistance to cracking.

Note: No coating material fulfills all requirements
of an ideal coating material.

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 Coating Compositions: Film Forming Materials
Polymers are used to form the film around the tablet.
Can be classified into non-enteric and enteric materials.
Examples:
Non-enteric Materials: these materials tend to solubilize inside
the GI tract and release the drug.
a. Hydroxypropyl methylcellulose (HPMC).
b. Ethyl Cellulose (EC).
Enteric materials: these materials tend to solubilize depending
on the pH of the GI tract.
a. Hydroxypropyl Methyl Cellulose Phthalate (HPMCP).
b. Cellulose Acetate Phthalate.
c. Acrylate Polymers. 11
College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Non enteric Materials (Non Functional FC)
Hydroxypropyl methylcellulose (HPMC):
Available in different viscosity grades.
This polymer is the material of choice for air suspension and pan-spray coating
systems.
It is close to be an ideal coating polymer for film coating. The reasons for that are:
1. Solubility of the polymer in organic and aqueous solvents.
2. Noninterference with tablet disintegration and drug availability.
3. Flexibility (chip resistance) and absence of taste and odor.
4. Stability in the presence of heat, light, air and moisture.
5. Ability to incorporate color and other additives into the film without difficulty.
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 Hydroxypropyl methylcellulose (HPMC):
Non Ideal properties:
When used alone it tend to bridge and fill debossed tablet surfaces.
That is why its usually incorporated in a mixture with other polymer or
plasticizers to eliminate bridging or filling problem.

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 Non enteric Materials (Non Functional FC)
Ethyl Cellulose (EC):
This material is completely insoluble in water and gastrointestinal fluids and
thus cannot be used alone for tablet coating.
It is usually combined with water-soluble polymers, e.g., HPMC, to prepare
films with reduced water solubility.
Advantages: The polymer is soluble in various organic solvents and is nontoxic,
colorless, odorless, tasteless, and quite stable to most environmental conditions.
Disadvantages:
EC without plasticizers tend to be brittle.

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 Enteric Materials
The most important reasons for enteric coating are:
1. To protect the drug from the stomach, e.g., enzymes
and certain antibiotics.
2. To protect the stomach from the drug, e.g.,
salicylates.
3. To deliver drugs optimally absorbed in the small
intestine to their primary absorption site in their most
concentrated form.
4. To provide a delayed-release component for repeat-
action tablets.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Enteric Materials
Ideal enteric coating material should have the following properties:
1. Resistance to gastric fluids.
2. Ready susceptibility or permeability to intestinal fluids.
3. Compatibility with the most coating solution component and the drug
substrates.
4. Stability alone and in coating solutions.
5. Formation of a continuous (uninterrupted) film.
6. No toxicity.
7. Reasonable cost.
8. Ease of application without specialized equipment.
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 Enteric Materials (mechanism)
The pH of the stomach varies from 1-5.
Enteric materials are either (mechanism of action):
1. water-resistance è digested or emulsified by intestinal
juices.
2. pH-sensitive materials. slowly swell and fall apart
when solvated or become permeable near and above
pH 5.
Usually, the enteric formulation is a combination of the
enteric technique above to achieve the desired action.
Because all available enteric material falls short in some
aspects.

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 Challenges for Enteric Coated Tablet
All enteric-coated tablets must pass the USP
disintegration test where the tablet has to stay intact for
at least 1 hour and disintegrate within 2 hours (for most
tablets).
Passing the test does not mean guaranteeing optimal
bioavailability. Several other challenges will face enteric
coated tablets inside the body:
1. The pH of the stomach varies from 1-5. Some patients
are having achlorhydria or hypochlorhydria.
2. The amount of gastric fluids may vary between
individuals; and for the same individual from time to
time.
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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Challenges for Enteric coated tablet
3. USP test does not require testing the drug amount in solution during the
disintegration test. In some cases, the drug can escape before tablet breakage so
the tablet will pass the USP test but may fail to protect the GI tract.
4. Some enteric-coated techniques use retardant polymer which depends on
hydrophobicity and is not pH dependent.
In this case, the polymer needs time to solubilize and allow the drug to release
so if the tablet travels so fast in the GI tract it may not have enough time to
solubilize and the tablet will fail to release its contents.

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 Coating Compositions: Enteric Materials
Cellulose Acetate Phthalate (CAP):
It has been used widely in the industry.
Disadvantage
Dissolving only above pH 6 and possibly delaying the
absorption of drugs.
It is also hygroscopic and relatively permeable to moisture
and gastric fluids. There may be a premature release of
some drugs.
CAP films are brittle and require some adjuvants to achieve
better film.

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 Enteric Materials
Acrylate polymers (Eudragit):
These polymers produce films that are resistant to gastric fluid and are soluble in
GIT fluid at pH 6-7.

Hydroxy Propyl Methyl Cellulose Phthalate (HPMCP):
These polymers dissolve at a lower pH (pH 5-5.5) and this solubility may result in
higher bioavailability of some drugs.

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 Coating Compositions: Solvents
To dissolve or disperse polymer and other additives.
Ideal solvent:
1. It Should dissolve or disperse the polymer system.
2. It should easily disperse other coating solution components into the solvent
system.
3. Small concentrations of polymers (2 to 10 %) should not result in an extremely
viscous solution, which will create coating problems.
4. It should be colorless, tasteless, odorless, inexpensive, non-toxic, inert, and
nonflammable.
5. It should have a rapid drying rate.
6. It should have no environmental impact.
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 Solvents
The most widely used solvents (either alone or in combination) are water,
ethanol, chloroform, and acetone.
Because of environmental and economic considerations, water is the solvent of
choice; however, several polymers cannot be applied as aqueous solutions.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Coating Compositions: Plasticizers
A plasticizer is a non-volatile material that when incorporated with the film
former, improves the flexibility and adhesion properties of the resulting film.
Without a plasticizer, most of the polymers tend to pack together in a rigid
three-dimensional honeycomb arrangement.
When used in the correct proportion, the plasticizers impart flexibility to the
polymer by decreasing their molecular rigidity.
A combination of plasticizers may be needed to achieve the desired effect.
The concentration of the plasticizer(s) depends on many factors including the
polymer type method of application, and the manufacture’s recommendation.

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 Coating Compositions: Plasticizers
Recommended levels of plasticizers can range from 1-50% w/w of the film
former.
Some of the commonly used plasticizers are castor oil, glycerin, low molecular
weight polyethylene glycol (PEG) (200-400 series), Tweens, and Spans.
In aqueous coating, water-soluble plasticizers, e.g., PEG are used.
Conversely, castor oil and Spans are used primarily for organic coating solutions.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Coating Compositions: Colorants
They may be soluble in the solvent or suspended as insoluble powders.
Lakes pigments have become the colorants of choice for sugar or film coating
systems, as more reproducible colors are achieved.
Lakes pigments will produce a more evenly distributed color every time.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Coating Compositions: Opaquants
These are very fine inorganic powders used in the coating solutions to provide
more pastel colors and increase film coverage.
These opaquants can provide a white coating or mask the color of the tablet core.
Colorants are much more expensive than opaquants and less colorant is required
when opaquants are used.
The most commonly used material for this purpose is titanium dioxide.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Coating Process
Tablet coating is the application of coating materials to moving tablets with the
concurrent use of heated air to facilitate the evaporation of the solvent.
1. The distribution of the coating materials is done by the continuous movement of
the tablets in the coating pan.
During the coating process, the tablets move through an application zone (in
front of the nozzle) in which a portion of the tablets receive some of the
coating materials.
2. With the help of hot air, the tablets are mostly in the drying phase and are
recycled repeatedly through the application zone until the desired coat is
achieved.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
Coating Equipment
 1- Conventional Pan System
It consists of a spherical pan mounted angularly on a
stand. The pan is rotated by a motor.
Heated air is directed into the tablet bed and is
exhausted by means of ducts.
The coating materials (solution) are applied to the
tablets by either ladling or spraying on the rotating
tablets.
Using spraying is preferred because:
a) It is faster.
b) Distributes the coating materials more evenly.
c) Reduces the drying time.
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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 2- Perforated Pan System
It is the most widely used machine in tablet coating.
It consists of a perforated drum that rotates in a
closed chamber.
Drying air is passed through the tablets and is
exhausted through perforations in the drum.
Perforated pan coaters are efficient with high
coating capacity and can be automated completely
for both the sugar and film coating processes.
The coating solution is applied to the surface of the
rotating bed of tablets through spraying nozzles that
are positioned inside the drum.
https://youtu.be/SXEduweiViw
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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
Types of Coating & Processing
 Sugar Coating
It was commonly used in the past, although it may be used nowadays due to the
excellent appearance it gives to tablets.
The sugar coating involves several steps, the duration of which ranges from a few
hours to several days. è needs time
A successful product greatly depends on the skill of the operator. This is
especially true in the pan-ladling method in which the coating solution is poured
over the tablets.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Sugar Coating
The sugar-coating process involves the following steps:
sealing, sub-coating, syruping (smoothing), finishing and
polishing.

Sealing (Seal Coating):
To prevent moisture penetration into the tablet core, a
sealing coat is applied.
Without a sealing coat, the overwetted tablets would absorb
excess moisture, leading to tablet softening or
disintegration and affecting the physical and chemical
stability of the finished product.

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 Sugar Coating Process: Seal Coating
Shellac is an effective sealing agent, but tablet
disintegration and dissolution times may prolong upon
aging because of the polymerization of the shellac. Original Tablet

Zein is another material that has been used as an effective
sealing agent. Prolongation of dissolution times has not
been reported for zein on aging.

Sealed Tablet

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Sugar Coating Process: Subcoating
The subcoating is applied to round the edges and build up the
tablet size. Sugar coating can increase the tablet weight by 50-
100%.
The subcoating step consists of applying a sticky binder solution
(e.g. gelatin or sugar solution) to the tablets followed by a
dusting of a subcoating powder (e.g. talc powder) and then
drying.
Subsequent sub-coats are applied in the same manner until the
desired thickness is achieved.
Note: any coat should not be applied unless the previous one is
completely dry.

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 Sugar Coating Process: Syrup (smoothing/coloring) Coating
The purpose of this step is:
1. To hide the imperfections in the tablet surface caused by the
sub-coating step and
2. To impart the desired color to the tablet.
This step perhaps requires the most skill.
The first syrup coats usually contain some suspended powders
and are called “grossing syrups”.
In general, no color is added until the tablets are quite
smooth because premature application to rough tablets can
produce a mottled appearance in the final tablets.
In the subsequent syruping steps, syrup solutions containing
the dye are applied until the final size and color are achieved. 37
College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Sugar Coating Process: Finishing and Polishing
Finishing: in the finishing step, a few clear coats of syrup may be applied.
Polishing: the desired luster (gloss) is obtained in this step. The tablets can be
polished in clean coating pans by using certain wax (e.g. beeswax, carnauba
wax).

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Film Coating Process
It is preferred over sugar coating because:
1. It is faster.
2. More economic.
3. The versatility of film-forming polymers that can be used
4. It slightly increases the final tablet weight (only 2-5%).
Film coating involves the same equipment and methods as in sugar
coating, as follows:

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Pan Spray Method for Film Coating
The introduction of spraying
equipment was an evolution in the
film coating process.
Spraying allows an important
advantage which is automatic
control of the liquid application.

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 Pan Spray Method: Control Variables
Whatever the coating is carried out in, a conventional or perforated pan, certain
process variables should be controlled to ensure good product quality.
1. Pan variables: the pan shape, load, and rotational speed all affect the mixing of
the tablets.
Uniform mixing is essential for depositing the same quantity of the film on
each tablet.
Speeds that are too slow may cause localized overwetting, resulting in tablets
sticking.
Speeds that are too high may not allow enough time for drying before the same
tablets are reintroduced under the spray; which results in rough tablets.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Pan Spray Method Control Variables
2. Spray variables: the spray variables to be controlled:
a) The rate of liquid application. Correct Distance

b) The degree (size and size distribution) of atomization.
Atomization that is too fine leads to some droplets
drying before reaching the surface è rough tablet or
excess dust in the pan.
Too large an atomization will lead to overwetting.
Too Far Distance
c) Nozzle to bed distance (affects the amount of
coating solution applied to a tablet each time it passes
in front of it).

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Pan Spray Method: Control Variables
3. Drying air variables:
The temperature, volume, and rate are parameters of the process air that need to be
controlled to obtain an optimum drying environment.
The heat sensitivity of the film-forming material and tablet core largely
determines the upper temperature that can be applied.
The temperature applied is between 50-90 ℃ (for most drugs).

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 Evaluations of Coated Tablets
Will involve:
Evaluation of the general appearance such as color (hue and continuity), size, and
physical defects on the coating
Performance of the tablet: drug release characteristics, long-term stability of
coated product.
In general, visual inspection is sufficient to define relative coated tablet quality.
A practical qualitative measure of the resistance of a coated tablet to abrasion
can be obtained by merely rubbing the coated tablet on a white sheet of paper.
Strong films remain intact and no color is transferred to the paper; very soft coats
are readily "erased" from the tablet surface to the paper.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Film Defects
Variations in formulation and processing may result in
unacceptable quality defects in the film coating.
1. Sticking and picking: overwetting or excessive film
tackiness causes the tablets to stick to each other or the
coating pan.
On drying, the point of contact of the film may remain
adhered to the pan or another tablet.
2. Roughness: a rough or gritty surface is a defect often
observed when the coating is applied by a spray. Some of
the droplets may dry too rapidly before reaching the
tablet bed resulting in a deposit on a tablet surface.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Film Defects
3. Orange peel effects: inadequate spreading of the
coating solution before drying caused a bumpy or
“orange peel” effect on the coating.
This indicates spreading is impeded by: 1- too
rapid drying or 2- high solution viscosity.
4. Bridging and filling: during drying, the film may
shrink and pull away from the sharp corners resulting
in a “bridging” of the surface depression.
This problem results from inadequate plasticizers.
à Adjusting the amount of plasticizer or using
another one will solve the problem.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating
 Film Defects
Blistering: When coated tablets require further
drying in ovens, the solvent from the core is too
rapidly evaporated, and the effect of high
temperature on the strength, elasticity, and adhesion
of the film may result in blistering.

è solution: Milder drying will solve this problem.

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College of Pharmacy- Industrial Pharmacy II- 5th stage- First Semester Tablet Coating