Pharmaceutical Dosage Forms PDF

Summary

This document provides an overview of pharmaceutical solutions, including the need for dosage forms, various types of solutions, advantages, disadvantages, and preparation methods. This document also discusses the ingredients and the types of vehicles used in pharmaceutical solutions.

Full Transcript

01/04/1446

Pharmaceutical Dosage Forms

The Need for Dosage Forms
Providing the mechanism for the safe and convenient
delivery of accurate dosage.
To protect the drug substance from the destructive
influences of atmospheric oxygen or humidity (coated
tablets, sealed ampules)
To protect the drug substance from the destructive
influence of gastric acid after oral administration
(enteric-coated tablets)
To conceal the bitter, salty, or offensive taste or odor
of a drug substance (capsules, coated tablets, flavored
syrups)
To provide rate-controlled drug action (various
controlled-release tablets, capsules, and suspensions)

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The Need for Dosage Forms
To provide optimal drug action from topical administration sites
(ointments, creams, transdermal patches, and ophthalmic, ear,
and nasal preparations)
To provide for insertion of a drug into one of the body’s orifices
(rectal or vaginal suppositories)
To provide for placement of drugs directly in the bloodstream or
body tissues (injections)
To provide for optimal drug action through inhalation therapy
(inhalation aerosols)

Liquid Dosage
Forms
Solutions

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Objectives

After reading this chapter, the student will be able to:
1) Define the various types of liquid dosage forms.
2) List the advantages and disadvantages of using
liquid dosage forms.
3) Compare liquid dosage forms to solid oral dosage
forms.
4) Evaluate and select a proper solvent and delivery
system for a given solute, purpose, and/or
patient population.

Pharmaceutical solution

In pharmaceutical terms, solutions are
“liquid preparations that contain one or
more chemical substances dissolved in a
suitable solvent or mixture of mutually
miscible solvents
They are administered by many different
routes; they are often therefore classified by
the intended route (e.g., oral, otic (ear),
parenteral).
Solutions are also classified by the nature of
the formulation, or by the traditional name
which relates to the solvent system used,
such as syrups, elixirs, spirits and tinctures.

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Advantages of
pharmaceutical solutions
1) The drug is already dissolved in the solvent system,
hence drug action can be rapid, allowing their use
in emergencies, e.g., the use of adrenaline solution,
as an injection, for the treatment of anaphylaxis
2) When drug absorption is required prior to drug
action, for example, following oral administration,
the drug in a solution is already in a molecular form
and thus, available for absorption.
3) Solutions provide dose uniformity, and specific
volumes of the liquid solutions that can be
measured accurately.
4) Oral solutions are easily swallowed and are
beneficial for patients whom swallowing may be
difficult, e.g., children and geriatric
5) Solutions are easier to manufacture compared to
other dosage forms.

Disadvantages of solutions

1) Many drugs are unstable, and instability is
increased when a drug is present in solution.
2) Many drugs are poorly soluble in water. Their
formulation as a solution is challenging.
3) liquids are bulky and less easy for the patient to
carry, for example, the daily dose, compared to
solid dosage forms.
4) Liquids are also more expensive to transport,
which increases the medicine’s cost.
5) Solutions often provide suitable media for the
growth of microorganisms and may therefore
require the incorporation of a preservative.
6) Less stable than solid dosage forms
(precipitation, gas formation, color changes are
major signs of solution instability). Shorter shelf
life than solid forms

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Ingredients of
Pharmaceutical
Solutions:

1- Vehicles
Commonly, vehicles are solvents in which the
active and inactive ingredients are dissolved.
The choice of vehicles depends on the intended
use of the preparation and on the nature and
physicochemical properties of the active
ingredients.
Although water is the most commonly used
solvent, different non-aqueous vehicles can be
used.
Vehicles of both types will be studied in detail.

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2- The drug

The drug could be a small molecule like
aspirin, or a large biotherapeutic molecule,
such as insulin.
The drug is present as molecules or ions
throughout the solvent.
It is usual to ensure that the drug
concentration in a pharmaceutical solution is
well below its saturation solubility in order to
avoid the possibility of drug precipitating out
of the solvent as a result of subsequent
temperature changes during storage and use.

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3- The excipients
(Formulation additives)
Excipients – substances other than the drug which
are included in pharmaceutical solutions – are used
for a number of reasons, such as
To enhance product stability, bioavailability or
patient acceptability, aid in product manufacture.
The excipient must be non-toxic, non-sensitizing,
nonirritating, as well as compatible with all the
other components of the formulation.
The route of administration is important; many
excipients are acceptable by certain, but not all,
routes.
For example, the preservative benzalkonium
chloride is used in oral, but not nebulizer solutions,
as it causes bronchoconstriction.
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Examples of formulation additives

(1) Buffers
Buffers are compounds (solution) that resist changes in pH
upon the addition of limited amounts of acids or bases.
Changes in pH may arise due to interactions between an
ingredient in the formulation and the container, or from
changes in storage temperature.
The physiological pH of plasma and extracellular fluid is
7.4; therefore, ideally all solution products should be
formulated to this pH value.
However, there is likely to be an optimum pH value at
which the drug substance is most stable.
The solubility of the drug in the vehicle may also be
dependent on pH. Therefore, the pH chosen for a product
is likely to be a compromise between the requirements for
stability, solubility and physiological compatibility.
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2- Flavoring Agents
and perfume
Flavoring Agents used to mask the taste
of drugs, many of which have a very
unpleasant taste.
This is particularly useful in pediatric
formulation to ensure patient
compliance.
1- Naturally occurring flavorings such as
fruit juices (raspberry), aromatic oils
(orange and lemon oil), herbs and spices are
used for oral solutions.
2- Synthetic or artificial flavor are cheaper,
readily available, less variable in
composition and more stable than natural
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flavor.

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Certain flavors appeal to certain patient
populations; this must be borne in mind
by the formulator.
For example, fruit and bubble gum
flavors are acceptable to children, whilst
mint flavor is not.
In some cases, there are a strong
association between the use of a
product and its flavor content, for
example products intended for
indigestion are mint flavored as mint
used for its carminative effect.
Flavors such as menthol, peppermint oil,
and chloroform may act as desensitizing
agents by exertion of a mild anaesthetics
effect on the sensory taste receptor.

3- Coloring Agents
A coloring agent should correlate with the
flavoring agent, e.g., green with mint, red
with cherry flavor to improve the
attractiveness of the product.
Natural coloring agents are more acceptable
than synthetic ones. However ,they exhibit
the usual problem associated with natural
product, namely variation in availability and
chemical composition.
Synthetic dyes tend to give brighter colors
and are more stable.

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4- Preservatives
There are two strategies for preparation of
microbiologically accepted pharmaceutical product.
1) Minimize the access of M.O. From the sources
2) Formulate the product with inclusion of preservative
* Sources of contamination
1) Equipment: Should be as simple as possible to allow
cleaning in place.
2) Raw material: Raw material , particularly of natural origin
and water are a rich source of M.O.
Treatment applied to remove the microbial load such as
ionizing radiation , heat without affecting the material
adversely.
3) Personnel: Appropriate clothing must be available to
protect the product from body surfaces such as hood,
mask, gloves and boots.
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A preservative is included to inhibit the growth of any
microorganisms that may be accidentally introduced into
the product during repeated use by the patient.
Ideal Preservatives should be
1) Effective against wide spectrum of microorganisms.
2) Stable over its shelf life.
3) Nontoxic, non-sensitizing.
4) Free of taste and odor.
5) Compatible with other ingredients.
Examples: of the preservatives used in aqueous solutions
Alcohols:
Ethanol used in concentration > 10 %.
Propylene glycol used in 15–30 %.
Phenolics
Chlorocresol
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Examples: of the preservatives
used in aqueous solutions
Acids
Benzoic acid, effective at pH < 4.5 as non-ionized form, in
conc. 0.1- 0.5%.
Sorbic acid; effective in acidic pH in conc. 0.05 - 2%.
Esters
Methyl, ethyl, propyl and butyl parabens (Para-hydroxy
benzoic acid ester).
Effective and stable over a wide pH range (4-8).
Used in 0.2% conc.
Quaternary ammonium compound
Benzalkonium chloride.
Used externally in low conc. (0.002-0.02%).
Active over wide pH range (4 -10).
It is cationic so incompatible with anionic compounds. 19

5- Antioxidants

The oxidation reaction can be catalyzed by heat, light, and presence of heavy metals (Cu and Fe in waters).
e.g., Vitamins, essential oils and fats can be oxidized.
Methods used to slow the rate of oxidation:
1) Antioxidants are chemicals that have a lower oxidation potential than the drug substance and thus will react
with any oxygen present in preference to the drug.
Used to reduce the rate of drug degradation by oxidation and thus improve the shelf-life or expiry date.
In case of non aqueous solutions: e.g., Propyl gallate (PG), butylated hydroxyl anisole (BHA), butylated hydroxyl
toluene (BHT) and tocopherols (vitamin E).
In case of aqueous solutions: e.g., Sodium bisulphate and ascorbic acid (vitamin C)
2) Sequestering or chelating agents e.g., EDTA minimize the effect of trace elements.
3) Keep in cool place
4) Use of light resistant containers
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6- Sweeteners

Sweetening agents are added to improve the
palatability of oral solutions, for example:
Low MWT carbohydrates, particularly Sucrose, is
the most widely used sweetening agent. Sucrose
has advantages of being colorless, very soluble in
water and stable over a pH range of about 4-8.
Polyhydric alcohols such as sorbitol, mannitol and
glycerol also have sweetening power and can be
used in preparation for diabetic.
Artificial sweeteners such as saccharin sodium and
aspartame are suitable for diabetic patients. They
are sweeter than sucrose, exhibiting high water
solubility, stable over wide rang of pH.
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7- Isotonicity Adjusters

Solution for injection, for application to
mucous membrane and large volume
ophthalmic must made isotonic to
avoid pain and irritation.
Examples: Sodium chloride, potassium
chloride, mannitol, dextrose, glycerol.

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8- Viscosity
enhancement agents

It may be difficult for aqueous-based
topical solutions to remain in place on the
skin or in the eyes for any significant time
because of their low viscosities.
To counteract this effect, low
concentrations of gelling agents can be
used to increase the apparent viscosity of
the product.
Hydroxyethyl cellulose, polyvinyl alcohol,
carbomer 940.

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Liquid Dosage Forms
Solutions

Types of solutions

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Solutions can be classified according to the type of solvent in
which the active ingredients are dissolved into
1- Aqueous solution 2- Non-Aqueous solution
Types of 1- Aqueous solution:
solutions Aqueous solutions are homogeneous mixtures that are prepared
by dissolving a solid, liquid or gas in an aqueous medium
(vehicle).
Vehicle: This may be water, aromatic water.

A- Water
Water is the most commonly used solvent
due to its many advantages, such as
a) Its lack of toxicity and low cost.
b) Odorless and colorless
c) Physiological compatibility (Palatable,
Non-irritant for topical use)
d) Ability to dissolve wide range of material
(Have High dielectric constant)
Disadvantage of water as a solvent
a) Hydrolysable drugs (e.g., glycosides and
some esters e.g., aspirin) form unstable
solution when dissolved in water

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Types of water
1- Naturally occurring water
Containing varying amounts of dissolved
inorganic salts, usually sodium, potassium, and
iron; chlorides; and sulfates; along with organic
matter and microorganisms.
2- Drinking water (tap or potable water)
Water found in most cities, where water is
purified for drinking usually contains less than
0.1% of total solids.
Acceptable drinking water should be
Clear, colorless, odorless, and neutral or only
slightly acidic or alkaline.
Must meet the Public Health Service regulations
with respect to bacteriologic purity.

Tap water is not acceptable for the manufacture
of most aqueous pharmaceutical preparations or
for the extemporaneous compounding of
prescriptions because of the possible chemical
incompatibilities between dissolved solids and the
medicinal agents being added.
3- Purified Water, USP,
Purified Water, USP, has fewer solid impurities
than ordinary drinking water.
When evaporated to dryness, it must not yield
more than 0.001% of residue (1 mg of solids per
100 mL of water).
Is obtained by distillation, ion exchange, reverse
osmosis.
Purified Water, USP, is intended for use in the
preparation of aqueous dosage forms except those
intended for parenteral administration (injections).
Water for Injection, USP; Bacteriostatic Water for
Injection, USP; or Sterile Water for Injection, USP,
is used for injections.

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Preparation of
purified water

1- Distillation Method
Many of the contaminants found in water are inorganic
minerals, metals etc.
Those types of contaminants have very high melting
points, much higher than the boiling point of water. So,
as the water (with its contaminants) is boiled, the pure
water turns into steam and is captured and cooled and
thus becomes purified water.
Generally, the first portion of aqueous distillate (about
the first 10% to 20%) must be discarded because it
contains many foreign volatile substances usually found
in drinking water.
Also, the last portion of water (about 10% of the original
volume of water) remaining in the distillation apparatus
must be discarded and not subjected to further
distillation because distillation to dryness would result
in decomposition of the remaining solid impurities to
volatile substances that would distill and contaminate
the previously collected distillate. 8

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2- Ion Exchange Method
The ion exchange equipment generally passes
water through a column of cation and anion
exchangers consisting of water-insoluble
synthetic polymerized resins of high molecular
weight.
These resins are mainly of two types:
(a) The cations, or acid exchangers, which
permit the exchange of the cations in solution
(in the tap water) with hydrogen ion from the
resin, and
(b) The anions, or base exchange resins, which
permit the removal of anions.

The processes are indicated as follows, with Cation exchange
M+ indicating the metal or cation (as Na+)
X− indicating the anion (as Cl−).
Water purified in this manner, referred to Anion exchange
as demineralized or deionized water.
Advantages of Ion Exchange over distillation
a) The requirement of heat is eliminated
b) Simpler equipment and ease of
operation,
c) Minimal and low-cost maintenance, and a
more mobile facility.

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Reverse Osmosis

Osmosis is defined as the
spontaneous diffusion of solvent from a
solution of low solute concentration (or
a pure solvent) into a more
concentrated one, through a
semipermeable membrane.
The flow of the water (as the solvent)
can be stopped by applying pressure,
equal to the osmotic pressure, to the
concentrated solution.

Reverse Osmosis

Principle: The flow of the water can be reversed
by applying a pressure greater than the osmotic
pressure of the concentrated solution (e.g., tap
water), and the pure water could be obtained.
The filtered portion is called the permeate
because it has permeated the membrane.
The retained water which contains the
concentrated contaminants that did not pass
through the semipermeable membrane is called the
reject or concentrate.
Reverse osmosis removes virtually all viruses,
bacteria, pyrogens, and organic molecules and
90% to 99% of ions.
In large scale production: a pressurized stream
of water is passed parallel to the inner side of a
filter membrane core.
A portion of the feed water, or influent, permeates
the membrane as filtrate, while the rest of the
water exit the system without being filtered.

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3- Aromatic Waters
Aromatic waters is defined as clear, saturated
aqueous solutions of volatile oils or other aromatic
or volatile substances.
Used mainly for their flavoring properties, although
they might be used for their medicinal effect.
Examples include peppermint water, Rose water
and anise water, which also have carminative
properties, and chloroform water, which also acts as
a preservative.
Aromatic waters suffer from deterioration (cloudy
appearance) with time due to volatilization,
decomposition or mold growth, so they should be
freshly prepared in small suitable quantity and
protected from light and heat.
Aromatic waters are no longer in widespread use.

Preparations of Aromatic Waters

Aromatic water can be prepared by two methods:
distillation and solution
1- Distillation method
The odoriferous drug is distilled in a suitable still
(distillation unit), with a sufficient quantity of water, until
the specified volume of aromatic water has been
collected.
The aromatic water is set aside for 12 hours, then filtered
if necessary.
If the volatile oil in distillate is present in small quantities,
the distillate is returned several times to be redistilled
with more fresh drug.
Thus, giving rise to the commercial terms double distilled,
triple distilled, or quadruple distilled, according to the
number of re-distillations. This process is called
“Cohobation” = redistillation)

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Old distillation
method

Distillation
method

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2- Solution method
Triturate about 1 part or the specified
amounts of the odoriferous substance
with 15 parts of talc powder (Increases
the "surface; area of volatile substance
to ensure saturation of water
(distributing agent).
Then gradually add of recently boiled and
cooled distilled water, in successive small
portions, and agitate the mixture
frequently for 15 minutes.
Set aside for 12 hours, filter and pass
sufficient amount of the water through
the filter to produce 1000 parts of almost
clear filtrate.

Types of aqueous
solutions
1- Simple & Effervescent Mixtures:
Douches
Enemas
Gargles
Mouthwashes
Ophthalmic solutions
Nasal solutions
Otic solutions
Irrigation solutions
2- Sweet or viscid aqueous solution:
Syrups- Linctuses- Mucilage- Jellies

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1- Douches
A douche is an aqueous solution directed
against a part or into a cavity of the body.
It functions as a cleansing or antiseptic agent.
An eye douche, used to remove foreign
particles and discharges from the eyes.
Pharyngeal douches are used to prepare the
interior of the throat for an operation and
cleanse it in suppurative conditions.
Similarly, there are nasal douches and vaginal
douches.
Douches most frequently are dispensed in the
form of a powder with directions for dissolving
in a specified quantity of water (usually warm).

1-Vaginal Solutions
Vaginal Douches
Solutions may be prepared from powders or from liquid
solutions or liquid concentrates.
In using liquid concentrates, the patient is instructed to add the
prescribed amount of concentrate (usually a teaspoonful or
capful) to a certain amount of warm water (frequently a quart).
Powders are used to prepare solutions for vaginal douche, that
is, for irrigation cleansing of the vagina.
The powders themselves may be prepared and packaged in
bulk or as unit packages. The user simply adds the prescribed
amount of powder to the appropriate volume of warm water
and stirs until dissolved.

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◦ Among the components of douche powders are the
following:
1) Astringents, for example, zinc sulfate
2) Antimicrobials, for example, oxyquinoline sulfate,
Quaternary ammonium compounds and povidone
iodine
3) Detergents, for example, sodium lauryl sulfate
4) Salts, for example, sodium citrate and sodium
chloride
5) Aromatics, for example, menthol, thymol,
eucalyptol, methyl salicylate
6) Anesthetics or antipruritics (menthol, phenol)

2- Enemas
They are aqueous solution for rectal administration of drug
for cleansing (evacuating), diagnostic or therapeutic reasons.
Enema has two types:
1- Retention enema:
They may be used to affect the general system by absorption
(systemic action for therapeutic reasons) e.g.,
aminophylline, nutritive, sedative, or they may also be used
to affect a local disease or retained in the intestine without
absorption (local effects e.g., hydrocortisone) or diagnosis
e.g., barium Sulphate.
In the case of aminophylline, rectal administration minimizes
the undesirable gastrointestinal reactions associated with
oral therapy.
Clinically effective blood levels of the agents are usually
obtained within 30 minutes following rectal instillation.
Corticosteroids are administered as retention enemas as
adjunctive treatment of some patients with ulcerative colitis.

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2- Evacuation Enemas
Rectal enemas are used to cleanse and evacuate
the bowel from its contents.
Commercially, many enemas are available in
disposable plastic squeeze bottles containing a
premeasured amount of enema solution.
The agents are solutions of sodium phosphate and
sodium biphosphate, glycerin and docusate
potassium, and light mineral oil.
Instruction from a pharmacist is advantageous to
ensure that the patient correctly uses these
products.
The patient should be advised to gently insert the
tip of the product with steady pressure and be told
that it is not absolutely necessary to squeeze all of
the contents out of the disposable plastic bottle.
The patient should be told that the product will
most probably work within 5 to 10 minutes.

3-Topical Oral (Dental) Solutions

A variety of medicinal substances are employed topically in
the mouth for a number of purposes.
Some of these products, such as teething lotions and
toothache drops, are medicated, whereas others are used
for hygienic purposes, such as dentifrices, and many of the
mouthwashes.
Examples:
▪ Benzocaine: Indicated for temporary relief of pain and
irritation in the mouth associated with teething, and canker
sores.
Eugenol: Dental analgesic. Applied topically to dental
cavities and having an aromatic odor of clove.

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4. Gargles

Gargles are aqueous solutions frequently
containing antiseptics, antibiotics, and/or
anesthetics
Used for treating the pharynx and
nasopharynx by forcing air From the lungs
through the gargle that is held in the throat.
Many gargles must be diluted with water prior
to use.

5. Mouthwashes

Mouthwashes are aqueous solutions (may be
concentrated form) containing one or more
active ingredients intended to act in the
mouth.
Mouthwashes can be used for two purposes,
therapeutic and cosmetic.
Therapeutic washes can be formulated to
reduce plaque, gingivitis, dental caries and
stomatitis.
Cosmetic mouthwashes may be formulated to
reduce bad breath through the use of
antimicrobial and/or flavoring agents.

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Ingredients in Mouthwashes
Mouth washes generally contain the following D- Surfactants:
excipients
Non-ionic and anionic surfactants aid in the
A- Alcohols: (10-20% in MW) solubilization of flavors and in the removal of
debris by providing foaming action.
May function as a preservative or as a solubilizing agent
for some flavoring agents. Cationic surfactants such as cetylpyridinium
chloride are used for their antimicrobial properties,
B- Humectants: such as glycerin and sorbitol (5-20%)
but these tend to impart a bitter taste.
Increase the viscosity of the preparation.
E- Flavors
Enhance the sweetness of the product.
Used in conjunction with alcohol and humectants
Improve the preservative qualities of the product. to overcome disagreeable tastes.
C- Coloring agents: The principle flavoring agents are peppermint,
Used in these products to impart attractiveness. cinnamon, menthol or methyl Salicylate.

5. Ophthalmic solutions

Eye drops are fluid preparations which are applied
by dropping into the conjunctival sac.
Eye drops are usually dispensed in bottles equipped
with a dropper device.
Eye lotions are fluid preparations intended for
bathing or rinsing the eye.
Both should be clear, sterile, isotonic with lachrymal
fluid and possess physiological pH (7.4).

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6. Nasal solutions
Nasal solutions are usually aqueous solutions designed to
be administered to the nasal passages in drops or sprays.
Although many of the drugs are administered for their
local sympathomimetic effect (ephedrine sulfate or
naphazoline hydrochloride) to reduce nasal congestion, a
few other official preparations are administered in spray
form for their systemic effect.
Lypressin Nasal Solution USP for its systemic effect for the
treatment of diabetes insipidus.
Intranasal drug administration offers rapid absorption to
the systemic circulation.
This route is safe and acceptable alternative to the
parental administration.

7. Otic solutions
These solutions occasionally are referred to as
aural preparations and intended to be
administered to the ear.
The main classes of drugs used for topical
administration to the ear include analgesics,
antibiotics and anti-inflammatory drugs.
The main solvents used in these preparations
include glycerin or water.
The viscous glycerin vehicle permits the drug to
remain in the ear for a long time.
This is of very important use in some preparations
especially those intended to remove ear wax.

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8. Irrigation solutions

Irrigation solutions are used to
wash or bathe surgical incision,
wound, or body tissues.

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LIQUID DOSAGE
FORMS
SOLUTIONS

Types of aqueous
solutions
1- Simple & Effervescent Mixtures:
Douches
Enemas
Gargles
Mouthwashes
Ophthalmic solutions
Nasal solutions
Otic solutions
Irrigation solutions
2- Sweet or viscid aqueous solution:
Syrups- Linctuses- Mucilage- Jellies

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 Syrups
Definition:
Syrups are concentrated aqueous preparations
of a sugar or sugar substitute with or without
flavoring agents and medicinal substances.
1-Non-medicated Syrups:
R/ EP USP and BP
a) Simple syrup, which contains only sugar with (W/W) (W/V)
water.
b) Flavored syrup: if flavoring agents is added to Sucrose 667 gm 850 gm
syrup but not medicinal substances.
Purified Water ad 1000 gm 1000 ml
These syrups are intended to serve as pleasant-
tasting vehicles for medicinal substances to be
added in the extemporaneous compounding of
prescriptions.

2- Medicated syrups
Are commercially prepared from the
starting materials, such as sucrose,
purified water, flavoring agents,
coloring agents, the therapeutic agent,
and other necessary and desirable
ingredients.
Medicated syrups are employed in
therapeutics for the value of the
medicinal agent present in the syrup
such as antitussive and anti-histaminic
syrup.

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 Components of
Syrups
Most syrups contain the following
components in addition to the purified
water and any medicinal agents present:
a) The sugar usually sucrose, or sugar
substitute used to provide sweetness
and viscosity;
b) Antimicrobial preservatives;
c) Flavoring agent; such as orange oil or
vanillin and
d) Coloring agent (green with mint, brown
with chocolate)

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Sucrose- and Non-sucrose
Based Syrups

Sucrose is the sugar most frequently employed in
syrups.
Polyhydric alcohols (polyols) such as glycerol,
propylene glycol or sorbitol may be added to retard
crystallization of sucrose or to increase solubility of
other drugs.
They give both viscosity and sweetness to the
preparation, but they are glycogenetic material
(materials converted to glucose in the body) which
are not suitable for use by the diabetic patients.
For diabetic patients, Non-glycogenetic
substance as methylcellulose, hydroxyethyl
cellulose are used to give the required viscosity to
the preparation.
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 Sucrose- and Non-sucrose Based Syrups

So, to add the required sweetness,
artificial sweeteners as saccharin
sodium, cyclamate sodium, aspartame
must be added.
Saccharin sodium is 300 to 550
times as sweet as sucrose, but it has
bitter aftertaste.
Cyclamate sodium is 30 to 40 times
as sweet as sucrose and has less
bitter aftertaste.
Aspartame is 200 times as sweet as
sucrose without bitter aftertaste.

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Preservation of syrups

As syrups are nearly saturated solutions of sucrose, if
properly stored, they do not need any preservatives.
This is because these solutions do not contain free
water, so they are anhydrous medium with respect to
growth of microorganisms.
A problem arises, however, when pharmacists must
add other ingredients to syrups that can result in a Preservative In Use Concentration
decrease in the sucrose concentration. (%w/v)
This may cause a loss of the preservative effectiveness Benzoic acid 0.1%
of the sucrose (sucrose in lower concentrations Sorbic acid 0.2%
provides an excellent nutrient media for molds). Ethanol 15-20%
Methylparabens, 0.1%.
This can be overcome, by calculating the quantity of a
preservative to add to the formula to maintain the propylparabens, and
preservative effectiveness of the final product. butylparabens

8

4
Preparation of
Syrups
Syrups are prepared by one of four
general methods, depending on the
physical and chemical characteristics of
the ingredients.

1 Solution of the ingredients with the aid of heat

Solution of the ingredients by agitation without
2 the use of heat
Preparation of
Syrups
Addition of sucrose to a prepared medicated
3 liquid or to a flavored liquid

Percolation of either the source of the medicating
4 substance or the sucrose.

5
1- Solution with the Aid of Heat

Syrups are prepared by this method when
1) It is desired to prepare the syrup as quickly as
possible and
2) The syrup’s components are not damaged or
volatilized by heat.
In this method,
The sugar is generally added to the purified water,
and heat is applied until the sugar is dissolved.
Then, other heat-stable components are added to
the hot syrup, the mixture is allowed to cool, and
volume is adjusted to the proper level by the
addition of purified water.
If heat labile agents or volatile substances, such as
volatile flavoring oils and alcohol, are to be added,
they are generally added to the syrup after the
solution is cooled to room temperature.

Caution must be exercised against using excessive heat.
Sucrose, a disaccharide, may be hydrolyzed into
monosaccharides, dextrose (glucose), and fructose
(levulose).
This hydrolytic reaction is inversion, and the combination of
the two monosaccharide products is invert sugar.
The sweetness of the syrup is altered because invert sugar is
sweeter than sucrose, and the colorless syrup darkens
because of the effect of heat on the levulose portion of the
invert sugar.
When the syrup is greatly overheated, it becomes amber
colored as the sucrose caramelizes.
Syrups so decomposed are more susceptible to fermentation
and to microbial growth than the stable, undecomposed
syrups.
Because of the decomposition by heat, syrups cannot be
sterilized by autoclaving.

6
 2- Solution by Agitation Without the Aid of Heat

To avoid heat-induced inversion of sucrose, a syrup may
be prepared without heat by agitation.
On a small scale, sucrose and other ingredients are
dissolved in purified water by placing the ingredients in
a vessel larger than the volume of syrup to be prepared,
permitting thorough agitation of the mixture.
This process is more time consuming than the use of
heat, but the product has maximum stability.
Huge glass-lined or stainless-steel tanks with
mechanical stirrers or agitators are employed in large-
scale preparation.
When solid agents are to be added to a syrup, it is best
to dissolve them in minimal amount of purified water
and incorporate the resulting solution into the syrup.
When solid substances are added directly to a syrup,
they dissolve slowly because the viscous nature of the
syrup does not permit the solid substance to distribute
readily throughout the syrup and because a limited
amount of available water is present in concentrated
syrups.

3- Addition of Sucrose to a Medicated
Liquid or to a Flavored Liquid

Occasionally, a medicated liquid, such as a
tincture or fluidextract, is employed as the source
of medication in the preparation of a syrup.
Many tinctures and fluidextracts contain alcohol-
soluble constituents and prepared with alcoholic or
hydroalcoholic vehicles.
If the alcohol-soluble components are desired
medicinal agents, some means of rendering them
water soluble is employed.
However, if the alcohol-soluble components are
unnecessary components of the corresponding
syrup, they are generally removed by mixing the
tincture or fluidextract with water, allowing the
mixture to stand until separation of the water-
insoluble agents is complete, and filtering them
from the mixture.
The filtrate is the medicated liquid to which the
sucrose is added in preparation of the syrup.
If the tincture or fluidextract is miscible with
aqueous preparations, it may be added directly to
simple syrup or to a flavored syrup.

7
 4-Percolation

In the percolation method, either sucrose may be
percolated to prepare the syrup, or the source of the
medicinal component may be percolated to form an
extractive to which sucrose or syrup may be added.
This latter method really is two separate procedures: first
the preparation of the extractive of the drug and then the
preparation of the syrup.
When preparing percolated sucrose, purified water is
allowed to pass through a bed of crystalline sucrose, where
a cotton is placed in its neck, thus dissolving sucrose and
forming syrup.
An example is ipecac syrup, which is prepared by adding
glycerin and syrup to an extractive of powdered ipecac
obtained by percolation.
This syrup is commonly used in the management of
poisoning in children when evacuation of the stomach
contents is desirable.

2. Linctuses

Linctus is a viscous preparation usually prescribed for
the relief of cough and sore throat.
It usually consists of a simple solution of the active
agent in a high concentration of sucrose often with
other sweetening agents such as glycerol.
The syrup content has a demulcent and sedative action
on the mucous membranes of the throat.
The dose volume is small (5 ml), and to prolong the
demulcent action they should be taken undiluted
sipped and swallowed slowly.
Examples are Codeine Linctus in sucrose syrup.

8
3. Mucilage
The official mucilages are thick, viscid, adhesive
liquids, produced by dispersing gum in water, or
by extracting the mucilaginous principles from
vegetable substances with water.
The mucilages all are prone to decomposition,
showing appreciable decrease in viscosity on
storage, they should never be made in quantities
larger than can be used immediately, unless a
preservative is added.
They are used in herbal medicine chiefly for
suspending more active medicinal substances,
for soothing irritated internal or external
surfaces and for their local action as palliatives.

4. Jellies
Jellies are a class of gels in which the
structural coherent matrix contains a
high portion of liquid, usually water.
They are similar to mucilages, in that
they may be prepared from similar
gums, but they differ from the latter in
having a jelly-like consistency.
These preparations also may be
formulated with water from acacia,
gelatin, carboxymethylcellulose,
hydroxyethyl cellulose, and similar
substances.

9
 The need for non-aqueous solvents appeared to
1) Ensure complete solubility of all ingredients at all storage temperatures.
2) They are also important if the drug is unstable in the aqueous medium.
3) In addition, because body fluids are aqueous, the use of oily vehicle
provides a depot action for injections, as the oily injections releases
drugs into the surrounding tissues in a rate slower than that if the drug
II- Non-Aqueous in aqueous medium.
This section is, therefore devoted to groups of non-aqueous solutions:
Solutions 1) Alcoholic or hydroalcoholic solutions (elixirs, tinctures and spirits),
2) Ethereal solutions (collodions),
3) Glycerin solutions (glycerites),
4) Oleaginous solutions (liniments and oleo-vitamins).

Examples of commonly used
organic liquids

1- Alcohols, including polyhydric ones (i.e., those
containing more than one hydroxyl group per molecule)
Ethanol is the most common organic solvent used in
pharmaceutical solutions. It is often used as a co-solvent in
oral, topical and parenteral solutions.
Propylene glycol (CH3CH(OH)CH2OH) contains 2 hydroxyl
groups per molecule. It is often used as a co-solvent in
oral, topical, parenteral and otic solutions.
Glycerol contains 3 hydroxyl groups per molecule. It is
widely used as a solvent or co-solvent with water, in oral
and parenteral solutions.
Low molecular weight polyethylene glycols (PEGs)
with the general formula HOCH2(CH2CH2O)nCH2OH. These
are used as solvents or co-solvents with water or ethanol.
Used in parenteral solutions.

10
2- Fixed vegetable oils

They are non-volatile oils and are mainly
triglycerides of fatty acids.
Examples include corn oil, sesame oil,
arachis oil, almond oil, soya oil, cottonseed
oil, castor oil.
Historically, they have been used for
intramuscular administration.
They are used to a lesser extent now due
to their irritancy and the possibility of
allergic reactions to certain oils.
They are being replaced by synthetic
alternatives such as ethyl oleate.

3- Ethyl ether:
Used as a co-solvent with ethanol in collodions.
4- Dimethyl sulfoxide
Used as a carrier for idoxuridine (anti-
herpesvirus) for topical application to the skin.
5- Esters
Such as ethyl oleate, benzyl benzoate, ethyl
ethanoate:
These are used as a vehicle in certain
intramuscular injections.

11
 Elixirs
Elixirs are clear, sweetened hydroalcoholic solutions
intended for oral use and are usually flavored to
enhance their palatability.
Compared with syrups, elixirs are usually less sweet and
less viscous because they contain a lower proportion of
sugar and consequently are less effective than syrups in
masking the taste of medicinal substances.
However, because of their hydroalcoholic character,
elixirs are better able than aqueous syrups to maintain
both water-soluble and alcohol-soluble components in
solution.
Also, because of their stable characteristics and the ease
with which they are prepared (by simple solution), from
a manufacturing standpoint, elixirs are preferred to
syrups.
A disadvantage of elixirs for children and for adults who
choose to avoid alcohol is their alcoholic content.

In addition to alcohol and water, other solvents,
such as glycerin and propylene glycol, are frequently
employed in elixirs as adjunctive solvents.
Although many elixirs are sweetened with sucrose or
with a sucrose syrup, some use sorbitol, glycerin,
and/or artificial sweeteners.
Elixirs having a high alcoholic content usually use an
artificial sweetener, such as saccharin, which is
required only in small amounts, rather than sucrose,
which is only slightly soluble in alcohol and requires
greater quantities for equivalent sweetness.
Elixirs containing more than 10% to 12% of alcohol
are usually self-preserving and do not require the
addition of an antimicrobial agent.
Example of medicated elixirs are
Phenobarbital Elixir, Theophylline Elixir, Bronchicum
Elixir, and Bisolvon Elixir.

12
 Preparation of Elixirs
Elixirs are usually prepared by simple solution with agitation
Alcohol soluble and water-soluble components are generally
dissolved separately in alcohol and in purified water,
respectively.
Then the aqueous solution is added to the alcoholic solution,
rather than the reverse, to maintain the highest possible
alcoholic strength at all times so that minimal separation of
the alcohol-soluble components occurs.
Frequently, the final mixture will be cloudy, principally because
of separation of some of the flavoring oils by the reduced
alcoholic concentration. If this occurs, the elixir is usually
permitted to stand for a prescribed number of hours to ensure
saturation of the hydroalcoholic solvent and to permit the oil
globules to coalesce so that they may be more easily removed
by filtration.
Talc, a frequent filter aid in the preparation of elixirs, absorbs
the excessive amounts of oils and therefore assists in their
removal from the solution.

Tinctures

Tinctures are alcoholic or hydroalcoholic
solutions prepared from vegetable materials
or from chemical substances.
When they are prepared from chemical
substances (e.g., iodine), tinctures are
prepared by simple solution of the chemical
agent in the solvent.
Depending on the preparation, tinctures
contain alcohol in amounts ranging from
approximately 15% to 80%. The alcohol
content protects against microbial growth
and keeps the alcohol-soluble extractives in
solution.
Because of the alcoholic content, tinctures
must be tightly stoppered and not exposed to
excessive temperatures.
Example of Medicated tinctures taken orally is
Opium Tincture.

13
27

14
II- Non-Aqueous
Solutions
Presented by
Islam Kamal Abdallah

1
 Spirits
Spirits, sometimes known as essences, are alcoholic or
hydroalcoholic solutions of volatile substances.
The concentration of the alcohol is usually more than 60%.
Due to the greater solubility of volatile substance in alcohol
than in water, spirits contain greater concentration of
volatile substances than aromatic water.
Some spirits are used internally for their medicinal value,
some applied externally and a few by inhalation, while a
large number as flavoring agents.
The latter group provides a convenient and ready means of
obtaining the volatile oil in the proper quantity. For
example, a spirit may be used in the formulation of
aromatic waters or other pharmaceuticals that require a
distinctive flavor.

Spirits
When taken orally, they are generally mixed with a portion
of water to reduce the pungency of the spirit.
Spirits must be stored in tight, light resistant containers,
and in a cool place.
Examples:
1. Aromatic ammonia spirit (a respiratory stimulant to
prevent or treat fainting),
2. Camphor spirit (For the temporary relief of minor
aches, muscle and joint pain associated with arthritis,
strains, brusies and simple backache.),
3. Compound orange spirit (as a carminative, flavored
spirit, and a diluent for aqueous internal preparation.
4. Peppermint spirit (stomach/intestinal disorders such as
upset stomach, cramps, irritable bowel syndrome-IBS)

2
 Preparation of Spirits
a- Simple solution
This is the method by which the majority of spirits are
prepared.
Aqueous ingredients are dissolved in water; oils are
then dissolved in alcohol.
The aqueous solution is added gradually to the
alcoholic one.
Set aside for 24 hours, then filter.
b- Solution with maceration
In maceration process, the plant material is placed in
pieces or powder, depending on convenience, in a
container full of menstruum and let stand for three or
more days, shake frequently until complete extraction
of plant material.
After this, the material is strained and the remaining
solid is squeezed to remove all the remaining liquid.
The obtained liquid is clarified by decantation or
filtration.
The maceration is performed at room temperature.

Methods for extraction
Maceration, percolation, infusion and
decoction are the most important
methods for extraction.
In infusion, cold or boiling water is
used as menstruum (extracting
solvent). This extraction technique is
used for plant with soft structure as
leaves. Drug constituents could be
volatile.
In decoction the drug is boiled in
water, and this is used for plant with
hard structure such as roots. Drug
constituents must be non-volatile.

3
 Collodions (Ethereal solutions)

Collodions are liquid preparations containing pyroxylin (a
nitrocellulose) in a mixture of ethyl ether and ethanol
with or without added medicinal substances.
They are applied to the skin by means of a soft brush or
other suitable applicator.
When the ether and ethanol have evaporated, leave a
film of pyroxylin on the surface.
This provide as occlusive protective film to the skin and
when the collodion is medicated, it leaves a thin layer of
that medication firmly placed against the skin.
Collodions, is highly flammable and must be stored away
from flame in well-closed containers, protected from
light.
Collodion is applied to the skin for the protection of small
cuts and abrasions.

℞/
Pyroxylin 4g
Ether 75 ml
Alcohol 25 ml
Fiat: Collod., Mitte i
Preparation
Dissolve pyroxylin in ether and alcohol using a
suitable beaker and glass rod.
Transfer to well-stoppered bottle equipped with
either an applicator or a brush.
Store at temperature not exceeding 30° C in airtight
container.
N.B.:
The film is useful in holding the edges of an incised
wound together.
However, its presence on the skin is uncomfortable
because of its inflexible nature.
The following product, which is flexible, has a
greater appeal where a pliable film isobtained

4
 Examples of the
official collodions
1- Flexible Collodion
Flexible collodion is prepared by adding 2% camphor
and 3% castor oil to collodion.
The castor oil renders the product flexible, permitting
its comfortable use over skin areas that are normally
moving, such as joints, fingers, and toes.
The camphor makes the product waterproof.
Physicians frequently apply the coating over bandages
or stitched incisions to make them waterproof and to
protect them from external stress.
2- Salicylic Acid Collodion
Salicylic acid collodion is a 10% solution of salicylic
acid in flexible collodion.
It is used for its Keratolytic effects, especially in the
removal of corns from the toes.

Glycerites
Glycerins or glycerites are solutions or mixtures of medicinal substances
in not less than 50% by weight of glycerin.
Most of the glycerins are extremely viscous and some are of a jelly-like
consistency.
Because of the high percentage of glycerin, they are viscous, hygroscopic
and heavy preparations.
Being hygroscopic, they should be stored and dispensed in tightly closed
containers.
The advantages of using glycerin in these preparations:
1) It has a wide range of solvent power, allowing solutions of greater
strength to be made than are possible with water or alcohol.
2) It is of good sweet taste.
3) It is used as a preservative and does not become rancid.
4) The liquid glycerites are readily miscible with water and for this reason
serve as stock solutions, which may be diluted readily with water or
alcohol.

5
 Examples of the official glycerites:
1- Glycerin of Starch
℞/
Starch 10 gm
Benzoic acid 0.2 gm
Distilled Water 20 ml
Glycerin ad 100 gm
It should be freshly prepared.
It is translucent, jelly-like mass, composed chiefly of starch paste in
glycerin.
This preparation is used as emollient and demulcent and is used directly for
these effects or as a vehicle for other substances to be employed locally.

2. Glycerol of Boric Acid
It is used as antibacterial and when diluted with
glycerin can be used for its antiseptic effect as
throat paint.
3. Glycerol of tannic acid
It is used for its astringent action in treatment of
sore throat.
When diluted with water can be used in
stomatitis, pharyngitis, and tonsillitis.
4. Glycerol of Phenol
It contains 10% of phenol in glycerin.
It is used for antiseptic action as ear drops.

6
 Liniments
Liniments are solutions of various substances in oil, alcoholic
solutions of soap.
These preparations are intended for external application and
should be so labeled.
Liniments usually are applied with friction and rubbing of the
skin, the oil or soap base providing for ease of application and
massage.
Alcoholic liniments are used generally for their rubefacient,
counterirritant, mildly astringent, and penetrating effect. Such
liniments penetrate the skin more readily than do those with
an oil base.
The oily liniments, therefore, are milder in their action but are
more useful when massage is required.
The vehicle for a liniment should therefore be selected for the
type of action desired (rubefacient, counterirritant, or
massage) and also on the solubility of the desired
components in the various solvents.
For oleaginous liniments, the solvent may be a fixed oil such
as almond oil, peanut oil, sesame oil, or cottonseed oil or a
volatile substance such as wintergreen oil or turpentine, or it
may be a combination of fixed and volatile oils.

Liniments
Liniments are not applied to skin areas that are
broken or bruised because excessive irritation
might result
Liniments are one of the least desirable forms of
externally applied liquids from the patient's
view-point because
1. Its application must be repeated over a period
of time
2. The patient is required to extent effort on
application
3. May leave a noticeable film on the surface or
may stain clothing.
4. Its removal from the surface may be difficult.
5. Its appearance and odor may not be pleasing.
Examples of official liniments:
1) Liniment of Calamine: It is used as
protective in dermatitis.
2) White Liniment: It is used as rubefacient

7
Oleovitamins
They are preparations using fish
liver oil (or fish liver oil diluted
with vegetable oil) or a solution of
vitamin concentrate (usually
vitamin A & D) in fish liver oil.
Vitamin A, D and E preparations
are official in National Formulary.
It should be stored in tight
containers and protected from
light.

8