MIDTERM REVIEWER PDF

Summary

This document is a review of ointments, creams, and suppositories. Information on preparations, types, and uses are provided. It may be part of a pharmaceutical-related course, such as a pharmacy program, or similar.

Full Transcript

LANGA, AMHIL JEMINA J. | BSPh 2D
WHITE OINTMENT, USP
LESSON 6
This ointment differs from yellow ointment by
substitution of white wax (bleached and purified
OINTMENTS yellow wax) and white petrolatum in the formula.

Also known as Salve or Chrisma
ABSORPTION BASES
Semi-solid preparations that are applied to the skin or
mucous membranes, often containing medicine. Absorption bases are of two types:

Are easily spread, their plastic viscosity may be controlled by Those that permit the incorporation of aqueous solutions
modification of the limitation. resulting in the formation of water-in-oil (w/o) emulsions
(Hydrophilic petrolatum).
USES:
Those that are water-in-oil (w/o) emulsions (Emulsion bases)
Emollients – which makes the skin more pliable that permit the incorporation of additional quantities of
aqueous solutions (Lanolin).
Protective barriers – which prevents harmful substances
from coming in contact with the skin These bases serve as emollients but offer less occlusion
compared to oleaginous bases and are difficult to wash off
Vehicles – in which to incorporate medication. with water because their external phase is oleaginous (oily).

These bases help incorporate small amounts of aqueous
CLASSIFICATION BASED ON COMPOSITION solutions into hydrocarbon bases by first mixing them with
an absorption base.
OLEAGINOUS BASES Physical Properties: Anhydrous, water-insoluble, and non-
washable, but capable of absorbing water.
Also termed as Hydrocarbon bases.
Permit the inclusion of water-soluble medicaments through
When you apply it to the skin: prior solution and uptake of the solution as the internal
It has an emollient effect phase.
It protects against moisture loss
It acts as an occlusive dressing
It stays on the skin without drying out Hydrophilic Petrolatum, USP
It’s immiscible with water and hard to wash off
A white petrolatum combined with 8% white wax, 3%
Water and aqueous preparations may be incorporated, but stearyl alcohol, and 3% cholesterol which are added
only in small amounts with some difficulty. to a water-in-oil emulsifier.
When incorporating powdered substances into hydrocarbon Ingredients:
bases, liquid petrolatum (mineral oil) can be used as the Cholesterol
levigating agent. Stearyl alcohol
White wax
PETROLATUM, USP White petrolatum

Prepared from:
Is a purified mixture of semisolid hydrocarbons Aquaphor - which employs wool alcohol to render
obtained from petroleum. It is an unctuous mass, white petrolatum emulsifiable and is superior in its
varying in color from yellowish to light amber. ability to absorb water.
Polysorb - which uses Sobitan Sesquioleate and
It is also known as Yellow Petrolatum and Petroleum
Arlacel A as emulsifiers (Kessolin) and appears to be
Jelly.
superior to the USP base.
A good base for oil-soluble ingredients.
Lanolin, USP
Forms an occlusive film on the skin.

Absorbs less than 5% water under normal condition. Also known as: Anhydrous Lanolin or Wool Fat

Does not become rancid Is obtained from the wool of sheep, is a purified wax
like substance that has been cleaned, deodorized,
Wax may be incorporated to stiffen the base. and decolorized.

It contains not more than 0.25% water. Additional
White PETROLATUM, USP
water may be incorporated into lanolin by mixing.

Is a purified mixture of semisolid hydrocarbons from Contains a high percentage of alcohol, esters and
petroleum that has been wholly or nearby alcohol containing fatty acids.
decolorized. It is used for the same purpose as
petrolatum, but because of its lighter color, it is Absorbs twice its weight in water and melts between
considered more esthetically pleasing by some 36°C and 42°C.
pharmacists and patients.

It is also known as White Petroleum Jelly Modified Lanolin, USP

Ingredients: Yellow wax, Petrolatum
Is a lanolin processed to reduce the content of free
lanolin alcohols and any detergent and pesticide
residue.
WATER-REMOVABLE BASES Polyethylene Glycol (PEG) Ointment, NF

Are oil-in-water emulsions commonly called Creams. Polyethylene glycol (PEG) is a polymer consisting of
Because the external phase of the emulsion is aqueous, ethylene oxide and water, represented by the formula
they are easily washed from the skin and are often called H(OCH₂CH₂)ₙOH, where “n” indicates the average
water-washable bases. number of oxyethylene groups. The numeric
designation of PEG corresponds to its average
They may be diluted with water or aqueous solutions. They
molecular weight.
can absorb serous discharges.
PEG having a molecular weight of:
Hydrophilic Ointment, USP Below 600: clear, colorless liquids

An oil-in-water emulsion employing Sodium Lauryl Between 600 - 1,000: semisolids
Sulfate as an emulsifying agent. It absorbs about 30%
to 50% W/W without losing consistency, and readily Above 1,000: wax-like materials
miscible with water and thus can be removed from the
As molecular weight increases, the viscosity of
skin easily.
PEGs also increases. (Directly Proportional)
Ingredients:
The range of average molecular weights for PEGs is
White petrolatum
from 200 to 8,000.
sodium lauryl sulfate
propylene glycol Ingredients:
stearyl alcohol PEG 3350
purified water PEG 400
methylparaben
propylparaben Consist of a blend of water-soluble polymeric glycol
that forms a semi-solid base capable of solubilizing
COLD CREAM water-soluble drugs and some water-insoluble drugs.
Compatible with a wide range of drugs.
A water-in-oil emulsion prepared by melting white
Contains 40% PEG 4000 and 60% PEG 400.
wax and spermaceti, expressed almond oil together,
adding hot aqueous solution of sodium borate, stir Only a small amount of liquid (less than 5%) can be
until cool added without affecting viscosity.

Mineral oil may be used to make a more stable cold The mixture can be made stiffer by increasing the
cream. PEG 4000 content to 60%.

Almond oil may be used to make a better emollient
base.
Propylene Glycol and Propylene
Glycol-Ethanol
VANISHING CREAM
Form a clear gel when mixed with 2% hydroxypropyl
An oil-in-water emulsion which contains large
cellulose
percentage of water as well as humectants (Glycerin,
Propylene glycol) - which retards surface evaporation This has become popular as dermatologic vehicles.
of the product.

The most common cream available in the market due
to large amount of water contained and an acid
(Stearic acid). An excess of stearic acid in the formula
helps to form a thin film when the water evaporates.
CLASSIFICATION BASED ON PENETRATION

Other Water-Removable Bases EPIDERMIC OINTMENTS
Dermovan - a hypoallergenic greaseless emulsion base.
Demonstrate no or at the most very slight penetration.
Unibase - a non-greasy emulsion base that absorbs about
30% of its weight in water and has a pH close to the skin. Petrolatum, Waxes, and their combinations

WATER-SOLUBLE BASES ENDODERMIC OINTMENTS

They do not contain oleaginous components. Possess some powers of penetration into the deeper layers
of the skin.
They are completely water washable and often referred to as
greaseless. Vegetable oils, Lard, Wool fat, Lanolin, and/or its
combinations
they soften greatly with the addition of water

Large amounts of aqueous solutions are not effectively DIADERMIC OINTMENTS
incorporated into these bases.
This penetrates the skin, providing a better opportunity for
They are mostly used for incorporation of solid substances. the absorption of medicaments.
 METHODS OF PREPARATIONS PACKAGING, STORING & LABELING

Ointments are prepared using two general methods: Ointments and other semisolid preparations
Incorporation and Fusion, depending on the nature of the are packaged in:
ingredients.
Large-mouthed ointment jars
Insoluble substances should first be reduced to the finest
possible form. Metal or plastic tubes

These substances are then levigated before incorporation. Semisolid preparations must be stored in:

Levigation is done by mixing the substance with a small Well-closed containers to protect against contamination
amount of a compatible levigating agent or with the ointment
A cool place to prevent product separation due to heat
base itself.
Opaque or light-resistant containers if they are light-sensitive
INCORPORATION The USP directs labeling for certain ointments and creams,
including:
The substances are incorporated into the ointment by
levigation. Proper storage conditions

Dosing and administration instructions
Materials used for INCORPORATION method are:

MORTAR & PESTLE
LESSON 7
used to incorporate substances into an ointment
base, especially when large amounts or quantities
of liquid need to be mixed into the base.
CREAMS
OINTMENT SLAB
Are semi-solid preparations containing one or more
medicinal agents dissolved or dispersed in either an oil-in
consists of a ground-glass plate and is used with two
water emulsion or in another type of water-washable base.
5-6 inch full-blade hard steel spatulas
Patients and physicians prefer creams to ointments because
Alternative tools: Hard rubber or tested plastic
they are easier to spread and remove than many ointments.
spatulas.
The so-called Vanishing Creams are oil-in-water emulsions
OINTMENT MILL containing large percentage of water and stearic acid or
other oleaginous components.
Also known as: Unguator
After application of the cream, the water evaporates, leaving
an electronic mortar and pestle. behind a thin residue film of stearic acid or other oleaginous
component.
It can be operated manually or through computer
software.
PREPARATIONS
This device is ideal for producing ointments in
batches of 5 pounds or more.
Select Ingredients:
Mineral oils
OINTMENT PARCHMENT PAD Vegetable oils
Fatty alcohols
An ointment parchment pad should not have Fatty acids
prolonged contact with the ointment, as this may Fatty esters
cause the parchment to soften and tear.
Melt Solid Excipients:
Organic solvents such as ether, chloroform, and Melt the solid excipients during preparation.
alcohol should not be used for dissolving the drug,
as the drug may crystallize when the solvent Incorporate Emulsifying Agents:
evaporates. Add:
Nonionic surfactants
Detergents
FUSION Soaps

Form Soaps:
All or some components of an ointment are combined by Create soaps from:
melting them together and cooling the mixture with constant Fatty acids in the oil phase
stirring until it congeals. Hydrolyzed by a base in the aqueous phase during
preparation.
Components that do not melt are added to the congealing
mixture as it cools and is stirred.

Heat-labile substances and volatile components are added
last, when the temperature of the mixture is low enough to
prevent decomposition or volatilization.
 COMPOSITION APPLICATION AND USE

Topically applied onto the skin, eyes, nasally, vaginally and
Four (4) main ingredients of cold cream:
rectally.
Water
Oil Administered by the topical oromucosal routes.
Emulsifier
Thickening agent Antibiotic-containing gels can be administered by teat
infusion in veterinary medicine to treat mastitis.

APPLICATION AND USE
PACKAGING AND STORAGE
Primary application in topical skin products and in products
used on mucous membranes, such as rectally and vaginally. Should be stored in tight containers to prevent water loss.

The provision of a barrier to protect the skin. Avoid freezing.

To aid in the retention of moisture.
MISCELLANEOUS SEMI-SOLID DOSAGE FORM
As emollient (having the quality of softening or soothing the
PREPARATIONS
skin.)

As vehicle for drug substance such as local anesthetics,
anti-inflammatories, hormones, antibiotics, antifungals or
counter-irritants.
PASTES
Are semi-solid preparations intended for application to the
GELS skin

They are generally contain a large proportion of solid
Also known as Jellies. material (such as 25%) than ointments and therefore are
stiffer.
Are semi-solid systems consisting of dispersions of small or
large molecules in an aqueous liquid vehicle rendered jelly- When prepared with an oleaginous base they are greasy
like by the addition of a gelling agents. than their counterpart ointments due to the reduced amount
of the base.
Are semi-solid that can have properties ranging from soft
and weak to hard and tough.
PREPARATIONS
Are defined as a substantially dilute cross-linked system,
which exhibits no flow when in the steady-state.
Prepared like ointments by either:
Has been defined phenomenologically as a soft, solid or Direct mixing.
solid-like material consisting of two or more components, Heating to soften the base before incorporating comminuted
one of which is a liquid, present in substantial quantity and sieved solids.

When using a levigating agent, a portion of the base is
GELLING AGENTS used instead of a liquid to avoid softening the paste.

Macromolecules: Carbomer 934 Stiffness helps the paste remain in place after application.
Cellulose derivatives: Carboxymethylcellulose or
Effective for areas with serous secretions.
Hydroxypropylmethylcellulose
Natural gums: Tragacanth Not suitable for hairy parts of the body due to stiffness and
impenetrability.
Other agents:
Drug substance When prepared with an oleaginous base, pastes are
Water greasier than ointments because of the reduced amount of
Co-solvents: Alcohol and/or propylene glycol base used.
Antimicrobial preservatives: Methylparaben,
propylparaben, or Chlorhexidine gluconate
Stabilizers: Edetate disodium APPLICATION AND USE

PREPARATIONS Applied on the skin, but not suited for hairy parts of the
body– due to its stiffness and impenetrability.

Form Gels:
Disperse large organic molecules in the continuous phase. PRODUCTS
Example: Heat starch to disperse.

Cross-link dispersed molecules by changing the pH. ZINC OXIDE PASTE
Example: Use carbomers.
It is prepared by mixing 25% each of zinc oxide and starch
Reduce the continuous phase to form jellies. with white petrolatum.
Example: Use sucrose.

Disperse APIs uniformly by:
Vigorous mixing.
Milling.
Shaking (if less viscous).
PLASTERS PACKAGING OF SEMI-SOLID

Are solid or semi-solid adhesives masses spread upon a Topical dermatologic products
backing material or paper, fabric, moleskin or plastic. The
Jars
adhesive material used is a rubber base or a synthetic resin.
Tubes
Adhesive tape used to be official under the title Adhesive
Plaster, the use of this material being well known. Syringes

Ophthalmic, nasal, vaginal and rectal solid products
APPLICATION AND USE
Tubes
Applied to the skin to provide prolonged contact at the site. Syringes

Medicated plasters provide effects at the site of application.
They may be cut to size to conform to the surface to be
covered. LESSON 8
Unmedicated plasters provide protection or mechanical
support at the site of application.
SUPPOSITORIES
PRODUCTS Are solid dosage forms in which one or more active
pharmaceutical ingredients (APIs) are dispersed in a
Salicylic Acid Plaster suitable base molded or otherwise formed into a suitable
shape for insertion into the rectum to provide local or
use on the toes for the removal of corns with keratolytic systemic effect.
action of Salicylic acid (10-40% concentration)
Are solid dosage forms intended for insertion into body
orifices where they melt, soften, or dissolve and

GLYCEROGELATIN exert localized or systemic effects.

Derived from the Latin word supponere which means “to
Are plastic masses containing: place under”, as from sub (under) and ponere (to place).
Gelatin (15%)
Glycerin (40%) Used rectally, vaginally, and occasionally urethrally.
Water (35%)
LOCAL ACTION
and an added medicinal substance
(10%) as Zinc Oxide.
once inserted, the base melts, softens or dissolves,
distributing the medicaments it carries to the tissue of the
PREPARATIONS region.

Rectal - pain, constipation, irritation, itching, and
Softening the gelatin in water for about 10 minutes. inflammation associated with hemorrhoids or other anorectal
disorders.
Heat on a steam bath until the gelatin is dissolved.
Vaginal - contraceptives, antiseptics in feminine hygiene,
Add the medicinal substance mixed with glycerin.
antibacterial
Allow the mixture to cool with stirring until congealed.
SYSTEMIC ACTION

the mucous membranes of the membranes of the rectum
APPLICATION AND USE
and vagina permit the absorption of many soluble drugs.

Applied to the skin for longer residence. Rectal - is frequently as the site for the systemic absorption

They are melted before application, cooled to slightly above Vaginal - is not as frequently used for this purpose.
body temperature, and applied to the affected area with a
fine brush.
APPLICATION AND USE
Following application, the glycerogelatin hardens, is usually
covered with a bandage and is allowed to remain in place for
a period of weeks. Suppositories come in various shapes and weights. They
should be easy to insert into the intended orifice without
causing discomfort and stay in place as needed.
PRODUCTS
Are intended for insertion into body orifices where they melt,
soften, or dissolve and exert localized or systemic effects.
Zinc Gelatin

Use in the treatment of varicose ulcers.

It was also known as “Zinc Gelatin boot” due to its ability to
form a pressure bandage.
 TYPES OF SUPPOSITORIES WATER-SOLUBLE and WATER-MISCIBLE BASES

Polyethylene Glycols (PEG)
RECTAL
Polymers of ethylene oxide and water, available in various
Are inserted into the rectum with the fingers. chain lengths, molecular weights, and physical states.

Are cylindrical and have one or both ends tapered. Commonly used molecular weights include: PEG 300, 400,
600, 1000, 1500, 1540, 3350, 4000, 6000, 8000.
Some are shaped like a bullet, a torpedo, or the little finger.
Properties of Polyethylene Glycols (PEG)
Length:
Usually about 32 mm (1 ½ inches) Water-soluble but with slow dissolution.
Does not melt at body temperature; dissolves slowly in
Weight: body fluids.
Adult: 2 g (made of cocoa butter, pencil-like shape) In rectum and vagina (limited fluids), they dissolve slowly
Infants: 1 g but soften and spread.

Polyethylene Glycols (PEG) at Room Temperature
VAGINAL
PEG 300, 400, 600 – clear, colorless liquid
Also called Pessary or Pessaries
PEG 1000 – white semi-solid
Are usually globular, oviform, or cone-shaped
PEG 1500, 1540 – fairly firm semi-solid
Weight
about 5 g - when made cocoa butter base PEG 3350, 4000, 6000 – firm, wax-like solids

[ Weights may vary depending on the base use and the
Glycerinated Gelatin
individual manufacturer’s product ]

Prepared by dissolving: Granular gelatin (20%), Glycerin
URETHRAL (70%) and Adding a solution or suspension of medication
(10%)
Also called Bougies
Tends to absorb moisture due to glycerin’s hygroscopic
Are slender, pencil-shaped intended for insertion into the nature. (Must be protected from atmospheric moisture to
male or female urethra. maintain consistency.)

Size Female Male Commonly used in vaginal suppositories for prolonged,
localized medicinal action.
Diameter: 3-6 mm
Slower to soften and mix with physiological fluids than
Length: 70 mm (7 cm) 140 mm (14 cm) cocoa butter (Provides a more prolonged release.)
about 2 g about 4 g Can also be formulated into urethral suppositories by
Weight: (when made of (when made of dissolving: Granular gelatin (60%), Glycerin (20%) and
cocoa butter) cocoa butter) Medicated aqueous portion (20%)

BURGINARIUM Easier to insert than cocoa butter-based suppositories:
Cocoa butter is brittle and softens rapidly at body
same as urethral suppositories but shorter and thinner. temperature.

TYPES WITH RESPECT TO THE VEHICLE OR BASES USED
BASES
first type
FATTY or OLEAGINOUS BASES
Prepared with Cocoa/Cacao Butter or Theobroma Oil.
Cocoa Butter (Theobroma Oil)
CACAO BUTTER
Most widely used suppository base.
Softens with additives like phenol, camphor, chloral
Ideal for rectal suppositories; less suitable for vaginal and hydrate, and other volatile oils.
urethral use. This can be countered by adding wax or spermaceti to raise
the melting point in warm weather
White wax can replace part of cocoa butter to adjust melting
point. THEOBROMA OIL

Melts at body temperature, allowing the suppository to act
Hydrogenated Fatty Acids of Vegetable Oils effectively.

Includes Kernel oil and Cottonseed oil. second type

Glycerin with Higher Molecular Weight Fatty Acids Prepared with Glycerin and Gelatin.

Fat-based compounds with glycerin and higher molecular Water-soluble or water-miscible bases.
weight fatty acids, such as: Palmitic acid & Stearic acid
Used to provide continuous medicating or germicidal action.
Examples include Glyceryl Monostearate and Glyceryl
Created by mixing an aqueous solution or suspension of the
Monopalmitate.
medicament with glycerin and gelatin.
third type PACKAGING & STORAGE

Glycerin or Soap Suppositories made from Castile soap.
PACKAGING
Acts partly by mechanical means and partly by dissolving to
Glycerin and glycerinated gelatin suppositories are
produce mild irritation.
packaged in tightly closed containers to prevent moisture
Primarily stimulates peristalsis when present in the rectum. changes.

Commonly used for small children as an alternative to Suppositories with a cocoa butter base are individually
laxatives. wrapped or placed in compartment boxes to prevent contact
and adhesion.

METHODS OF PREPARATIONS Suppositories containing light-sensitive drugs are
individually wrapped in opaque materials, like metallic foil,
MOLDING (FUSION) to protect from light exposure.

STORAGE
Suppository Molds
Cocoa butter suppositories must be stored below 30°C and
Principal method for commercial suppository production preferably in a refrigerator (2°C to 8°C).

Capable of producing 6–12 or more suppositories Glycerinated suppositories can be stored at controlled room
temperature (20°C to 25°C).
Molds are made from stainless steel, aluminum, brass,
nickel-copper alloys, or plastic Suppositories made from a polyethylene glycol base may
be stored at usual room temperature.
Common bases used include cocoa butter, polyethylene
glycol, and glycerinated gelatin

Mineral oil is used for lubrication THE 3 OFFICIAL BASES

Preparation Steps
Cocoa Butter or Theobroma Oil
1. Melting the base
High Molecular Weight Polyethylene Glycol (PEG)
2. Incorporating medicaments
3. Pouring the melted mixture into molds Glycerinated Gelatin
4. Allowing it to cool and solidify into suppositories
5. Removing the formed suppositories from the mold

Lubrication of the Molds INSERTS
Cocoa butter or polyethylene glycol usually do not Are solid dosage forms that is inserted into a naturally
require lubrication as they contract on cooling for easy occurring (nonsurgical) body cavity other than the mouth or
removal rectum, including the vagina and urethra.

Glycerinated gelatin typically requires lubrication; a thin
layer of mineral oil applied with a finger is sufficient VAGINAL INSERTS

Special Considerations Usually ovoid in shape

Thermolabile drugs and insoluble powders require Packaged with a plastic inserter for easy placement
careful handling; insoluble powders may settle during within the vagina
pouring, causing non-uniform drug distribution
Contains the same types of anti-infective and
Hard crystalline materials should be dissolved in a minimal hormonal substances as vaginal suppositories
solvent volume before incorporation, examples include
iodine and merbromine
APPLICATION AND USE
Vegetable extracts can be incorporated by moistening with
a few drops of alcohol and levigating with melted cocoa Tablets are intended to disintegrate within the
butter vagina, releasing their medication

Some are gelatin capsules containing medication
COMPRESSION
for intravaginal release

Is generally employed when cocoa butter is used as a base.
PREPARATIONS
Capable of producing a 2 g suppository.
Filler: Lactose
Preparation:
Disintegrating Agent: Starch
Uniform mixture of drug and base (hand-rolling method)
Mixture is placed into a chamber mold. Dispersing Agent: Polyvinylpyrrolidone
Mold is then cooled.
Lubricant: Magnesium Stearate
HAND ROLLING & SHAPING

Involves molding the suppository with the fingers after the
formation of plastic mass.
MEDICATION STICKS ADVANTAGES

Avoids GI absorption issues from pH, enzymes, and drug
Convenient form for administering topical medications interactions with food or other drugs.
Development is notable due to its connection with the history Suitable alternative for patients with vomiting or diarrhea.
of cosmetics, which parallels human history
Bypasses the first-pass effect.
Cylindrical in shape, generally ranging from 5-25 g
Noninvasive, more convenient than injections.
Used for both cosmetics and medical purposes, includes
styptic pencils and lip balm sticks which became available in Provides extended therapy with a single application,
the early 1940’s. improving patient compliance.

Today, medication sticks provide pharmacists, patients and Prolongs activity of drugs with short half-lives through
primary care providers with a unique, convenient, relatively controlled release.
stable, easy-to-prepare dosage form for the topical delivery
of drugs. Allows rapid termination of drug therapy by removing the
application.

APPLICATION AND USE Enables quick identification in emergencies due to visible
features on the delivery system.
They come in different sizes and shapes, are readily
transportable, and can be applied directly to the affected site
of the body. DISADVANTAGES

The stick is pushed up from the bottom or using a screw- Only relatively potent drugs are suitable for transdermal
type device to raise the stick. delivery due to skin’s natural barrier limiting drug entry.

Some patients may experience contact dermatitis at the
PREPARATIONS application site, potentially requiring discontinuation of use.

Medication sticks are prepared similar to suppositories
(except that the melt is poured into the administering device, PATCHES
or tube.)
Designed to deliver a consistent and controlled dosage for
extended systemic therapy.
PACKAGING
Due to the skin’s barrier properties, only a few drugs
They are generally packaged in an applicator tube for topical possess the necessary physicochemical and therapeutic
administration, and the applicator can be adjusted to properties for sustained transdermal delivery.
continually expose new, fresh stick from inside the tube.
Successful transdermal products include scopolamine,
nicotine, estradiol, fentanyl, testosterone, and glyceryl
trinitrate patches.
MODIFIED-RELEASED DOSAGE FORMS AND
DRUG DELIVERY SYSTEMS The Lidoderm 5% patch (Lidocaine) includes adhesive
TRANSDERMAL DRUG DELIVERY material with 5% lidocaine on a nonwoven polyester felt
SYSTEM (TDDSs) backing, covered with a PET film release liner, removed
before application.

The patch measures 10 x 14 cm, with each containing 700
Facilitates drug passage through the skin into general mg of lidocaine in an aqueous base.
circulation for systemic effect.

Percutaneous Absorption: APPLICATION AND USE
Evident through measurable blood levels, detectable
drug/metabolite excretion in urine, and patient response to To treat post herpetic neuralgia.
therapy.
Applied to intact skin to cover the most painful area.
Therapeutic blood concentration is determined by
comparing patient response to drug blood levels. Depending upon the direction for use, the patient can apply
up to three patches, only once for up to 12 hours within a
Ideal drug penetration reaches the underlying blood supply 24-hour period.
without accumulating in dermal layers.

Examples:
Transdermal Scopolamine
TAPES
Transdermal Nitroglycerin Suitable for delivering drugs directly to the skin.
Transdermal Clonidine
Transdermal Nicotine Composed of a drug impregnated into a flexible, durable
Transdermal Estradiol fabric or synthetic material, coated with an adhesive.
Transdermal Testosterone
Transdermal Contraceptive System Drug typically in a dry state; adhesive layer secures the tape
Transdermal Methylphenidate without additional bandaging.

Unlike transdermal patches, it does not control the drug
release rate.

Drug content is specified per surface area relative to the
tape’s skin-exposed surface.
Applying an occlusive dressing over the tape can increase
drug delivery to deeper skin layers and may enhance
systemic absorption.

APPLICATION

A portion of the tape slightly larger than the area to be
treated is cut and removed from the backing paper.

It should be applied to folds in the skin but rather to a
smooth skin surface.

t should be applied to dry skin.