2. Before FDA approval
• Rx company must clearly state in what form or
forms the drug will be manufactured
• Rx company must clearly state what routes of
administration are determined safe and effective
2
3. Classification According to its physical properties
– Gaseous dosage forms
– Liquid dosage forms
– Semisolid dosage forms
– Solid dosage forms
3
5. Classification According to its physical
properties
• Gases
– Gases
• medicinal gases
• inhalation/volatile anaesthetics (vaporised before
administration by inhalation)
– Aerodispersions of solid particles
• (e.g., inhalation antiasthmatics)
• liquid particles (inhalation antiasthmatics or sprays)
5
6. Classification According to its physical
properties
• Liquid dosage forms
1. Solutions
• one homogenous phase, prepared by dissolving one or
more solutes in a solvent
• never need to be mixed
• drug fully dissolved
2. Emulsions
• a dispersion system consisting of two immiscible liquids
• o/w or w/o
• cloudy appearance
3. Suspensions o
• w in liquid phase
solid particles(undissolved) are dispersed
• Not intended for systemic administration of drugs with
high potency
6
7. Types of Solutions
• Elixirs
– alcohol & water base with added sugar & flavoring
– Taken orally
– Ex. Antihistaminic elixirs
• Syrups
– sugar, 1 water soluble active ingredient & flavoring
thicker
• Tinctures
– alcohol & water base used topically
– a solution that has alcohol as the solvent.
7
8. Liquid Sprays
• Water & alcohol base
• pump or aerosol spray
• some dispensed as foams
8
9. Suspensions
• Contain fine, undissolved particles of a drug
suspended in a liquid base
• Important to always shake before use
• gel-suspended in a thicken water medium- does
not have to be shaken
9
10. Classification According to its physical
properties
• Semisolid dosage forms
– Unshaped (without specific physical shape)
1. Gels
• A semisolid systems
• solid, jelly-like material that can have
properties ranging from soft and weak to
hard and tough
• a liquid phase is constrained within a 3D
cross-linked matrix.
10
11. • Semisolid dosage forms
– Unshaped (without specific physical shape)
2. Creams – semisolid emulsion systems (o/w, w/o)
containing more water.
• o/w creams
– more comfortable and cosmetically acceptable as they
are less greasy and more easily water washable
• w/o creams
– accommodate and release better lipophilic API,
moisturizing, Cold creams
Hydrocortisone cream
11
12. • Semisolid dosage forms
– Unshaped (without specific physical
shape)
3. Ointments
– Semisolid emulsion of oil and water- main
ingredient oil
– Oleaginous (hydrocabon) base: Petrolatum
(Vaseline – white, yellow)
12
13. Classification According to its physical
properties
• Semisolid dosage forms
– Shaped
1. Suppositories
• different shapes
Glycerin suppositories
• Melting/dissolving at body temperature
• Oleaginous (cacao butter, adeps neutralis) or
aqueous (glycerinated gelatine)
• Types:
– Rectal
– Vaginal
– urethral
13
14. • Solid suppository is melted within the ampula recti, API is dissolved and is absorbed
• It can gets into the systemic circulation (Middle & inferior haemorrhoidal veins Iliac
vein inferior vena cava – bypassing liver there is no first pass effect)
• It can pass through portal circulation: via Superior haemorrhoidal veins Inferior
mesenteric vein Hepatic portal Liver (First Pass effect can take place). It becomes
to be more important when supp. is position too high in rectum.
• Storage: cool place!
14
15. 1. Suppositories (for rectal administration)
• Preferred:
– when drug is destroyed in GI tract
– + vomiting
– unconscious,
– difficulty swallowing
• Major disadvantages:
1. Inconvenient.
2. Rectal absorption of most drugs is frequently erratic and unpredictable.
3. Some suppositories "leak" or are expelled after insertion.
15
16. Rectal suppositories are commonly used for:
1. Laxative purposes = glycerin or bisacodyl
2. Tx of hemorrhoids by delivering a moisturizer or vasoconstrictor
3. Delivery of many other systemically-acting medications
Glycerin suppositories
= promethazine or aspirin
4. General medical administration purposes:
– the substance crosses the rectal mucosa into the bloodstream;
– Ex: paracetamol(acetaminophen), diclofenac, opiates,
and eucalyptol suppositories.
paracetamol
16
18. 2. Pessaries (vaginal suppositories)
– Tx gynecological ailment (candidiasis)
– Inserted in vaginal tract
– Globular, oviform or cone-shaped
– Weigh between 3-5 g
– Instruction:
• quickly dip supp in water before insertion.
• Wear sanitary napkin to protect nightwear and linens
– Purpose:
• contraceptives
• feminine hygiene antiseptics
• bacterial antibiotics
• to restore the vaginal mucosa.
18
19. Advantages of vaginal suppositories:
1. there is less drug degradation compared to oral administration
2. The dose can be retrieved if necessary
3. There is the potential of long term drug absorption with various
intrauterine devices (IUDs).
19
20. 3. Urethral suppositories
– Alprostadil = tx severe erectile dysfunction
– Diminished since dev’t of oral impotence medications.
20
21. Classification according to its physical
properties
• Solid dosage forms
– Unshaped (without specific shape)
- powders for external/internal use
– Shaped
- Tablets
- Capsules
- Transdermal patches
21
22. Classification according to the route of
administration
• Dosage forms
– for systemic administration
• p.o.
• s.l. and buc.
• rectal
• parenteral
• transdermal
• inhalation
– for local administration
• Topical (on the skin or mucosa)
– Into/onto - the eye, nose, ear
- the oral cavity
- the vagina, rectum
- the skin
• Local parenteral (viz Parenteral above)
22
23. Pharmaceutical dosage forms for
systemic administration
• Generations of dosage forms
– 1st gen. – conventional (unmodified) release of API
– 2nd gen. – controlled release of API (CR)
– 3rd gen. – targeted distribution drug delivery systems
23
24. Conventional vs. controlled release
dosage forms
• I. Gen.
– Disintegration of the dosage form and dissolution of API is spontaneous process;
– drug absorption and distribution is based only on physico-chemical properties of API
• II. Gen.
– The release of API is under control of the drug delivery system (temporal control)
– Advantages:
– Avoids fluctuations of plasma drug concentration better safety and efficacy
– Decreased frequency of drug administration (often once daily admin) better compliance
– Can be much more economical (better cost-effectiveness)
24
25. Tablets
• Drug form which contains dried powdered active
drug
• Contains binders and fillers to provide bulk and
proper size
• Many different types of tablets
1. Conventional = can be divided
2. Coated = not to be divided
25
26. • Sustained release (SR)
– release of the initial API dose & further
prolonged release
• Controlled release (CR)
– properly controlled release of API
• Pulsatile release
– Rapidly released after a certain period of
time on the basis of time-controlled
disintegration mechanism
26
28. Chewable Tablet
• Solid dosage containing API with or without
suitable diluents that is intended to be chewed
• Producing pleasant tasting residue in the mouth
• Easily swallowed, no after-taste
28
29. Scored Tablets
• Indented line running across
the top
• Can easily be broken into
two pieces with a knife to
produce two doses
29
30. Dispersible Tablet (Tablet for
Suspension)
• intended to be placed in liquid prior to
administration.
30
31. Effervescent Tablets
– not a final dosage form
– Containing mixtures of acids (citric acid/tartaric acid) and
sodium bicarbonate
– Which release carbon dioxide when dissolved in water
– Intended to be dissolved or dispersed in water before
administration
• Rapid absorption rapid on-set of action
• Avoids potential tablet adhesion to mucosa and local irritation
31
32. Enteric Tablets
• Delayed release dosage form
• Covered with a special coating that resists stomach acid
• but dissolves in the alkaline environment in small intestines
• stable at the highly acidic pH
• breaks down rapidly at a less acidic pH
• Coatings made of:
– Fatty acids, Waxes
– Shellac, Plastics
– Plant fibers
32
33. • Coated (not to be divided)
Advantages:
– To mask unpleasant taste or smell of API
– To avoid of adhesion in esophagus (to facilitate swallowing and/or
avoid release of API and local adverse rxns)
– To ensure drug stability
– To provide enterosolvent coating
• To overcome – possible degradation of API in the stomach and possible local
irritation/adverse reactions in the stomach
33
35. Lozenges- Tablets
• Formed with a harden base of sugar , water and flavorings
• never swallow
• dissolve slowly in mouth
• Containing 1 or more API
• Intended to dissolve/disintegrate slowly in the mouth
35
37. Soft gelatin- Capsule
• Manufactured in one piece in which the drug is in
a liquid form inside the soft shell
37
38. Hard shell- Capsule
• Manufactured in two pieces that fit together and
hold the drug which is in a powder or granular
form
38
39. Transdermal Patches
• Consist of a multi-layered disk of a drug reservoir, a
porous membrane and a adhesive layer to it to the skin
39
40. Pellet/Bead
Gentamicin implantable pellet
• Drug can be implanted in the body in the form of a
pellet or bead that slowly releases into tissue
40
41. Parenteral Drugs
• Drugs administered other than the alimentary canal
1. Inhalation
• Drugs administered by nasal/oral-respi route
• Nebulizers, aerosols
– Forms of Inhalation
1. Gaseous/volatile drugs
2. Suspended tiny droplets in aerosols
3. Inhaler/puffer (to the lungs)
4. Nebulizer (mist inhaled into lungs)
41
42. Advantages of Inhalation:
1. Pulmonary administration offers large surface alveolar area for
diffusion of drug into pulmonary circulation.
2. Rapid entry of drug to the blood stream
3. Direct application of drug to the bronchial tree and alveolar tissues
4. Fastest method, 7-10 secs for the drug to reach the brain
5. User can titrate (regulate) the amount of drug they are receiving.
42
43. Disadvantage of Inhalation:
1. Difficult to administer, some have difficulty in using inhalers
2. Particles are trapped in the cilia and mucus in the respiratory tract
3. Drugs may serve as irritant to alveoli and respiratory tract
4. Unpredictable amount of drugs delivered to the lungs
5. Most addictive route of administration as it hits the brain so quickly.
6. Difficulties in regulating the exact amount of dosage.
43
44. 2. Injection
• Drug is administered by means of a syringe puncturing the
body
• Administered in
– Vein = IV
– Muscle = IM
– Subcutaneous = SC
44
45. Forms of Injection:
1. Liquid for injection IV (vein)
2. Liquid for intra-arterially (Arteries)
3. Liquid for subcutaneous (directly beneath the skin)
4. Liquid for intramuscular (within large muscles)
5. Liquid for intrathecal (within the sheath or at the spinal
subarachnoid space)
45
46. Advantages of Injection
1. Outcome can be predicted in a short period of time
2. Reach the target sites rapidly
3. Drugs given intra-arterially are used to localize drugs into certain
tissues with few exposure of drug to other tissues.
4. Effective for administration of radio opaque dyes for diagnostic
purposes.
5. Effects seen within few minutes.
6. Convenience in 1 time administration that has a long acting effect
(ex. Depo-Provera, a birth control shot that works for 3 months)
46
47. Disadvantages of Injections:
1. self-administration may be difficult with most of the injection routes
2. High risk for addiction due to the quick onset of action of most injectable drugs.
3. Risk of HIV and other infectious diseases transmission if needles are accidentally
shared.
4. most dangerous route of administration because the drug is not screened by the body’s
natural defenses, placing the client at risk of developing hepatitis, abscesses, and
infections from undissolved particles or additive/contaminants.
5. Risk of air boluses (bubbles) which can be fatal may occur during drug administration
especially when drugs are not prepared properly.
6. Need for observing strict asepsis as this provide a port entry for microbes that can
cause infection
47
48. 3. Topical/Dermatologic
– Drugs applied to the surface of the skin/mucous
membrane
1. Iontophoresis
• Use electric current to drive the ionized form of medications
through the skin
2. Phonophoresis
• Use ultrasound waves as driving force to propel drug
through the dermis.
48
49. Forms of Topical/Dermatologic Drugs
1. Ointments
2. Creams
3. Gel
4. Paste
5. Powder
6. Liniment (muscular stiffness/pain)
7. Lotion
8. Transdermal patch
9. epicutaneous
49
50. Advantages:
1. Applied directly to skin/membranes to treat itself
2. Bypasses systemic absorption
3. Direct action
4. Easy to apply
5. Safe and effective method of administering medications
6. Provides a slow, controlled release of the drugs into the body
7. Effective in maintaining plasma levels at constant levels for
prolonged period of time.
50
51. Disadvantages:
1. Poorly absorbed systemically through epidermis and are not intended
for systemic tx.
2. Some drugs applied to the mucous membranes are also absorbed to
some degree that may cause adverse effects.
3. Drugs that cannot penetrate the skin will unlikely be an effective
agent administered by this route.
4. Drugs that are easily degraded by the enzymes present in the skin
will cause failure of the drug to meet its therapeutic effects.
51
52. 4. Instillation & irrigations
Instillation
– Administered in drop form or
– Administered into the body cavity by means of catheter
and stays in place after administration.
Irrigation
– Administering drugs that stays for a while and are
removed minutes after it is administered.
52
53. 1. Opthalmic Administration
– Eye medications
Eye drops
• Saline-containing liquid
• Used as vector to administer medication in the eye
• May contain steroids or topical anesthetics
Advantage:
• Direct contact on the target site
Disadvantages:
• Intolerance to bright light
• Excess use may discourage the eyes to produce tears naturally = increase
dependence on drugs
53
55. 2. Otic administration
– Ear drops (antibiotics & steroids for otitis externa)
Advantage:
• Has direct contact to affected site
Disadvantage:
• Client has to be kept in position for 2-3 min to facilitate drops
to reach the affected area
• Head tilted slightly toward the unaffected side
55
57. 3. Nasal administration
– Intransal route (into the nose)
– Ex decongestant nasal sprays.
Advantage:
• Direct contact to affected site
Disadvantage:
• Client may become uncomfortable when asked to maintain
position (head tilted backward) for 5 mins after instillation of
drops
57
58. 4. Vaginal administration
– Vaginal, ex:
• Topical estrogens
• Antibacterial
– Advantage:
• Direct contact to affected site.
– Disadvantage:
• May cause severe vaginal wall irritation
58
59. 5. Rectal administration
– Advantages:
• Direct contact
• Ease in application
– Disadvantages:
• Vaginal and rectal suppositories melts easily even
before application.
59