Pharmacology for Nursing PDF

Summary

This document provides an overview of pharmacology for nursing students. It covers topics such as drug mechanisms, agonists, antagonists, drug tolerance, and adverse drug reactions. This is a lecture or presentation, not a past paper.

Full Transcript

Pharmacology for Nursing
BY
Dr. Abeer M.R. Hussein
Pharmacodynamics
 MECHANISM OF DRUG ACTION
A) Receptor mechanisms:
1.Drugs act by binding to specific receptors
2.Drugs may act by inhibition of enzymes
3.Drugs may block an ion channel
B) Non-receptor mechanisms:
a)Direct chemical interaction:
b)Physical or physicochemical properties:
 AGONISTS & ANTAGONISTS
Endogenous physiological receptors
- Some drugs act by binding to receptors
which normally act as receptors for
endogenous substance as hormones,
neurotransmitters, and autacoids.
Examples of these receptors:
- Cholinergic, adrenergic, dopaminergic,
histaminic and opioid receptors.
Agonists and Antagonists:
- Drugs can either be agonists or antagonists
at their receptor sites.
Agonists: are drugs that bind to their targets
and form a drug-receptor complex producing
intrinsic activity. Agonists usually mimic (i.e.,
produce action similar to the action) of
endogenous regulatory substance.
Antagonists: are drugs that inhibit the action
of endogenous regulatory substances
(hormones, neurotransmitters or autacoids).
 DRUG ANTAGONISM
Definition: Means a decrease in the effect
of a drug when combined with another
drug.
Types:
-Pharmacological antagonism. -
Chemical antagonism.
-Physical antagonism
-Physiological or functional antagonism.
 Pharmacological antagonism:
A-Receptor or pharmacodynamic
antagonism:
-These antagonists may block the ability of
agonists to bind to the receptor
-Examples of competitive antagonists:
i)Propranolol (beta-blocker) competes with
beta- agonist for beta- adrenergic receptors.
ii)Prazosin competes with alpha agonist for
alpha adrenergic receptors.
iii)Atropine competes with acetylcholine at the
muscarinic receptors.
B-Pharmacokinetic or dispositional
antagonism:
- Some drugs can decrease effect of other
drugs by affecting: absorption,
metabolism or excretion
 Physiological or functional antagonism
- One drug produces physiological action
opposite to other drug through action on
different receptors.
- Example: Epinephrine is physiological
antagonist to histamine as epinephrine is
bronchodilator, vasoconstrictor and increase in
BP whereas, histamine produces
bronchoconstriction, vasodilation, and decrease
in BP. Both agents bind to different receptors
but produce opposite physiological response.
 Chemical antagonism:
- Chemical interaction between two drugs
to neutralize the action of each other as:
- Protamine (positively charged)
neutralizes heparin action (negatively
charged).
Physical antagonism:
- As activated charcoal causes adsorption
of strychnine
 DRUG TOLERANCE
Definition of tolerance:
Tolerance is the decrease in the intensity of
response of some drugs after repeated
administration.
Definition of tachyphylaxis (acute tolerance):
It is the rapid development of tolerance after one
dose or fewer doses
Prevention of tolerance:
By stop drug administration for short period (1-2
weeks), then give it in the previous dose.
 ADVERSE DRUG REACTIONS
- Adverse drug reaction may be predictable or
type-A reaction (as sedation with
antihistaminics and dry mouth with atropine)
or unpredictable or type-B reaction (as in
cases of allergy and idiosyncrasy).
Types of adverse drug reactions:
A) Toxic reactions:
1.Dose-related.
2.Usually reversible.
3.May be:
i)Pharmacological: usually extension of the
pharmacological action as severe hypotension after overdose
of antihypertensive or severe hypoglycemia after overdose
of antidiabetics. But the pharmacological reaction may not
relate to the main action as in cases of diarrhea with
antibiotics.
ii)Pathological toxic reaction: as hepatitis, nephrotoxicity
iii)Genotoxicity: due to alteration in DNA that causes
neoplasm.
B) Allergic reactions (hypersensitivity):
1.Dose- independent.
2.Due to previous sensitization of the immune
system.
3.The drug acts as hapten (incomplete antigen)
and combined with endogenous substance to
form antigenic complex which stimulates
antibodies formation.
-On second exposure, Ag-Ab reaction may occur
causing the typical allergic reaction (ranging
from skin rash............to anaphylaxis).
C) Idiosyncrasy:
1.Abnormal reaction to the drug, either severe reaction in a
very small dose or extremely insensitive to high doses.
2.The cause is due to genetic deficiency of enzyme or
genetic alteration in the function of receptors.
Examples:
a)Severe hemolytic anemia with alpha methyl dopa or
certain foods: due to deficiency of G-6-P dehydrogenase
enzyme. This enzyme is responsible for formation of reduced
glutathione that protect RBCs against any oxidizing agent.
b) Severe apnea with succinylcholine: due to deficiency of
pseudocholinesterase enzyme which responsible for
hydrolysis of succinylcholine within 5 minutes.
 FACTORS DETERMINING DRUG DOSAGE
1-Body weight and volume of distribution.
2-Age: infants and old age need reduction of adult dose.
Calculation of child dose:
Child dose = Adult dose × Age of child in years
Age in years +12

(OR)

Child dose = Adult dose × Weight of child in pounds.
150
3-Sex: female more sensitive to drugs due to small size of
the body, endocrinal difference.
4-Race: black race is less sensitive to ACEls (as captopril)
5-Route of administration: oral dose is usually more than
parenteral dose.
6-Drug dosage form and formulation.
7-Time of administration: as diazepam causes more
hypnotic effect if given at night
8-Pathological factors: as liver, and kidney diseases.
9-Genetic factors: as genetic difference in liver enzymes.
10-Presence of other drugs: as drug interaction may occur.
11-Development of tolerance, tachyphylaxis, or drug
resistance.
THANK YOU