dosage form design (3)
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Chapter 5
Dosage Form Design:
Biopharmaceutical and
Pharmacokinetic Considerations
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Biopharmaceutic Considerations
Biopharmaceutics is the area of the study embracing the
relationship between physical, chemical and biological
sciences as they apply to drug and to drug action
ADME
Bioavailability - describe the rate and extent to which an active
drug ingredient or therapeutic moiety is absorbed from a
drug product and becomes available at the site of the drug
action.
Bioequivalence - refers to the comparison of bioavailabilities of
different formulations, drug products, or batches of the
same drug product.
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Bioavailability Data are used to determine:
1. The amount or proportion of drug absorbed from a
formulation or dosage form
2. The rate at which the drug was absorbed
3. The duration of the drug’s presence in the
biologic fluid or tissue; and, whencorrelated with patient response
4. The relationship between drug blood levels and
clinical efficacy and toxicity
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Terms Used To define The Type or Level Of
“Equivalency” Between Drug Products
Pharmaceutical Equivalents -are drug products that contain identical
amounts of the identical active ingredient. Example: the same salt or
ester of the same therapeutic moiety
Pharmaceutical Alternatives - are drug products that contain the
identical therapeutic moiety, or its precursor, but not necessarily in
the same amount or dosage form or as the same salt or ester.
Bioequivalent Drug Products - are pharmaceutical equivalents orpharmaceutical alternatives whose rate and extent of absorption do
not show a significant difference when administered at the same molar
dose of the therapeutic moiety under similar experimental
conditions, either single dose or multiple dose.
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Therapeutic Equivalent - has been used to indicate
pharmaceutical equivalent which, when administered to
the same individuals in the same dosage regimens, will
provide essentially the same therapeutic effect.
The most common experimental plan to compare
the bioavailability of two drug products is the simple
crossover design study.
(12 to 14 individuals, males between 18 to 40 years,same height and weight)
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How A Drug Passes Through The Body
1. Absorption = The site at which a drug enters
the body affects its rates of absorptiona. Skin c. Digestive Tract
b. Lungs d. Bloodstream
2. Distribution = Most drugs enter the bloodstream;many are then distributed to cells of various
organs
a. Bone e. Glands
b. Nerves f. Heart
c. Muscles g. Cells
d. Brain h. Other organs
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3. Metabolism = A drug is partially broken down,
usually in the liver, before or after distribution
a. Liver
4. Elimination = Finally, a drug is eliminated, mainly
via kidneys, but also in stools and tears or through
breathing
a. Breast milk c. Tears
b. Saliva d. Sweat
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APPROVAL REQUIREMENTS FOR GENERIC DRUG PRODUCTS
1. Contain the same active ingredients as the pioneer drug
(inert ingredient may vary)
2. Be identical in strength, dosage form, and route of
administration
3. Have the same indications and precautions for use and
other labeling instructions
4. Be bioequivalent
5. Meet the same batch to batch requirements for identity,
strength, purity, and quality
6. Be manufactured under the same strict standards of FDA’s
CGMP regulations as required for pioneer products.
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Some Factors Which Can influence The
Bioavailability Of Orally Administered Drugs
I. Drug Substance Physiochemical
Properties
II. Pharmaceutical Ingredients and
Dosage Form Characteristics
III. Physiologic Factors and Patient
Characteristics
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Some Factors Which Can influence The Bioavailability Of
Orally Administered Drugs
I. Drug Substance Physiochemical Properties
A. Particle Size
B. Crystalline or Amorphous Form
C. Salt FormD. Hydration
E. Lipid/Water Solubility
F. pH and pKa
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Some Factors Which Can influence The
Bioavailability Of Orally Administered Drugs
II. Pharmaceutic Ingredients and Dosage Form Characteristics
A. Pharmaceutical Ingredients
1. Fillers 7. Surface Active Agents
2. Binders 8. Flavoring Agents3. Coatings 9. Coloring Agents
4. Disintegrating Agents 10. Preservative Agents
5. Lubricants 11. Stabilizing Agents
6. Suspending Agents
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Some Factors Which Can influence The Bioavailability Of Orally Administered
Drugs
B. Disintegration Rate (Tablets)
C. Dissolution Time of Drug in Dosage Form
D. Product Age and storage Conditions
III. Physiologic Factors and Patient Characteristics
A. Gastric Emptying Time
B. Intestinal Transit Time
C. Gastrointestinal Abnormality or Pathologic Condition
D. Gastric Contents
1. Food
2. Other Drugs
3. Fluid
E. Gastrointestinal pH
F. Drug Metabolism (gut and during first passage through liver)
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Examples Of Drugs That Undergo Significant Liver Metabolism and Exhibit Low
Bioavailability when Administered by First-pass Routes
Drug Class Examples
Analgesics Aspirin, meperidine, Pentazocine
Propoxyphene
Antianginal Nitroglycerin
Antiarrhythmics Lidocaine
Beta-adrenergic Labetolol, Metoprolol, Propranolol
blockers
Calcium channel Verapamil
blockers
Sympathomimetic Isoproterenol
amines
Tricyclic Desipramine, Imipramine,
antidepressants Nortriptyline
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Several Examples of Biotransformations occurring
within the body are as follows:
1. Acetaminophen Conjugation Acetaminophen glucuronide (active)
(inactive)
2. Amoxapine Oxidation 8-hydroxy-amoxaphine
(active) (inactive)
3. Procainamide Hydrolysis p-Aminobenzoic acid
(active) (inactive)
4. Nitroglycerin reduction 1-2 and 1-3 dinitroglycerol
(active) (inactive)
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Some compound under full, partial no
biotransformation
1. Lisinopril (zestril) - does not go metabolism,
excreted unchanged
2. Verapamil (Calan) - 12 metanolites, the most
prevalent is norverapamil
3. Diltiazem (Cardizem) - partially metabolizedto desacetyldiltiazem
4. Indomethacin (Indocin) - metabolized in part
to desmethyl, desbenzoyl, and
desmethylbenzoyl
5. Propoxypehene napsylate (Darvon N) -
metabolized to norpropoxyphene
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Routes Of Drug Administration
TERM SITE
oral mouth
peroral (per os, p.o.) gastrointestinal tract via mouth
sublingual under the tongue
parenteral other than GIT (by injection)
intravenous vein
intraarterial artery
intracardiac heart
intraspinal/intrathecal spine
intraosseous bone
intraarticular joint
intrasynovial joint-fluid area
intracutaneous/intradermal skin
subcutaneous beneath the skin
intramuscular muscle
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Routes Of Drug Administration
TERM SITE
epicutaneous (topical) skin surface
transdermal skin surface
conjunctival conjunctiva
intraocular eye
intranasal nose
aural ear
intrarespiratory lung
rectal rectum
vaginal vagina
urethral urethra
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DOSAGE FORM/DRUG DELIVERY SYSTEM APPLICATION
Route Of Administration Primary Dosage Forms
oral tablets, capsules, solutions, syrups
elixirs, suspensions,magmas, gels
and powders
sublingual tablets, troches or lozenges
parenteral solutions, suspensions
epicutaneous/transdermal ointments, creams, infusion pumps
pastes, plasters, powders, aerosols
lotions, transdermal patches, discs
conjunctival contact lens inserts, ointments
intraocular/intraaural solutions, suspensions
intranasal solutions, sprays, inhalants, oint.
Intrarespiratory aerosols
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DOSAGE FORM/DRUG DELIVERY SYSTEM APPLICATION
Route Of Administration Primary Dosage Forms
rectal solutions, ointments, suppositories
vaginal solutions, ointments, emulsion foams,
tablets, inserts, suppositories, sponge
urethral solutions, suppositories
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Factors That Determine A Dosage Regimen
Activity, Toxicity Pharmacoknetics
Minimum therapeutic dose Absorption
Toxic Dose Distribution
Therapeutic index Metabolism
Side effects Excretion
Dose-response relationship
Clinical Factors Other Factors
Clinical State of patient Management of Therapy Age, weight, urine pH Multiple drug therapy Tolerance-dependence
Condition being treated Convenience of regimen Pharmacogenetics-
idiosyncrasy
Existence of other disease states Compliance of patient Drug interactions
Dosage
Regimen
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