This document discusses pharmacodynamics, which is the study of how drugs act on the body and their mechanisms of action. It describes different types of drug actions including local, systemic, and reflex actions. The mechanisms of drug action include effects on receptors as agonists, antagonists, or partial agonists. Other mechanisms are physical, chemical, interference with cell division or metabolic pathways, inhibition of enzymes, and effects on ion channels. Adverse effects are also discussed, including allergies, idiosyncrasies, side effects, overdose effects, tolerance, iatrogenic diseases, secondary effects, teratogenicity, drug dependence, and cytotoxic reactions.
2. Pharmacodynamics
Study of biochemical and physiological effects of drugs
and study of mechanisms of drug action in living
organisms
Action Mechanism of Action
5. Types of drug actions:
•local or topical action (the drug acts at site of application)
e.g. eye drops and skin ointment.
•Systemic or general action (the drug is absorbed and
distributed from site of administration) e.g. oral aspirin.
•Reflex or remote action (the drug acts at site to provoke an
effect away from its site of action) SC camphor cause irritation
and reflex stimulation of respiratory center.
6. Mechanism of action
Action on receptors ( Agonist /
antagonist)
Physical
Chemical
Interference with cell division
Interference with metabolic pathway
Inhibition of enzymes
Action on ion channel
8. Drug Receptor Interaction
Characteristic of interaction :
Affinity ( ability to bind to receptor).
Efficacy ( Ability to produce action)
DRUG (D) + RECEPTOR(R) ActionD - R
Affinity Efficacy
9. DRUG + RECEPTOR D-R
Action NO
Response
Drug is Agonist Drug is
Antagonist
12. Types of ligands
Agonists at the receptor display both a high affinity for the
receptor and also produce pharmacologic response e.g.
adrenaline and morphine
Partial agonists have high affinity for the receptors and weak
or moderate efficacy (less than that of a full agonist) e.g.
ergotamine, nicotine.
Antagonist is an agent that has an affinity for the receptor and
counteract the action of other drugs e.g. propranolol and
naloxone.
13. •Physical e.g. adsorption effect of kaolin in diarrhea.
•Chemical
Neutralization e.g.NaHCO3
(antacid) in treatment of hyperacidity.
Chelation : e.g.Sodium edetate for calcium
Desferrioxamine for ferric iron
•Interference with cell division e.g. anticancer drugs.
•Inhibition of enzymes Drugs can cause their effects by interfering
with the enzyme system e.g. aminophylline inhibits phosphodiesterase
enzyme
•Action on ion channel: local anesthetics block sodium channels.
Mechanism of action (contu.)
15. Adverse effects (cont.)
Allergy (Hypersensetivity)
Unpredictable abnormal response due to Antigen /Antibody reaction.
Idiosyncrasy (Pharmacogenetics)
Unpredictable abnormal response due to GENETIC abnormality
Hemolytic anemia in patient with favism (glucose 6- phosphate
dehydrogenase deficiency)
Side Effects:
Unavoidable Undesirable part of normal pharmacologic actions by
therapeutic dose of a drug
Over – Dose: (Toxicity)
Exaggerated normal action due to high dose of drug
16. Adverse effects (cont.)
Supersensetivity (Hypersusceptibility):
Exaggerated normal action in response to small therapeutic dose
Tolerance:
Decreased or failed response to normal dose of drug
Iatrogenic Diseases:
Drug-induced diseases e.g. Acute gastritis or peptic ulcer due to
NSAIDS .
Secondary Effects:
Bad effects consequent to normal therapeutic action of drugs
Taratogenecity:
Drug induced fetal abnormalities, especially when drugs are taken
in the first three months of pregnancy
17. Adverse effects (cont.)
DRUG DEPENDENCE
Psychological dependence : It is compulsive drug seeking
behaviour to obtain its pleasurable effects. E.g. cigrette
smoking, tobacco
Physical dependence : It is said to be present when withdrawal
of the drug produces adverse symptoms called withdrawal
syndrome and the patient craves for the drug. e.g. alcohol,
opioids
Cytotoxic Reactions:
Hepatotoxicity: Halothane& paracetamol.
Nephrotoxicity: aminoglycosides.
Ototoxicity: loop diuretics.
Ocular toxicity: ethambutol, chloroquine.
18. Drug – Drug Interaction
They will have a lecture in the second course