Introduction of pharmacology.pdf

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Pharmacology introduction - level 2 Dr/ Butheina Al-Amrani

General pharmacology

Mid exam 30 marks
Practical exam 20 marks
Final exam 50 marks
Total 100 marks

Lectures
1. Pharmacokinetics and pharmacodynamics
2. Autonomic nervous system
3. Antibacterial and antifungal drugs
4. Autocoids

Reference
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Pharmacology: The study of the effects of drugs on the function of living organisms.

Drug : It is an active chemical that is used for diagnosis, prevention, treatment of a
disease.

Drug nomenclature
A drug generally has three categories of names:
(a) Chemical name It describes the substance chemically, e.g:
N-(4-hydroxyphenyl)ethanamide.

(b) Non-proprietary name It is the name accepted by scientific authority :
acetaminophene

(c) Proprietary (Brand) name It is the name assigned by the manufacturer:
Paracetamol, Panadol, Amol, Adol and Paramol

Pharmacology

Pharmacodynamics
Pharmacokinetics

What the drug does to the body

What the body does to the drug

ADME: Mechanism of action
Pharmacological action
Absorption
Adverse effect
Distribution
metabolism
excretion

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Pharmacology introduction - level 2 Dr/ Butheina Al-Amrani

Pharmacokinetics
I. Absorption: the uptake of drug through biological membranes
Mechanisms of absorption of drugs from the Gastrointestinal tract:

1. Passive diffusion: passive (no force needed) absorption of a drug with the
concentration gradient

2. Facilitated diffusion: Drugs enter the cell through specialized
transmembrane carrier proteins, moving with concentration gradient

3. Active transport: drug entry by Energy-dependent active transport and
moving drugs against a concentration gradient
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4. Endocytosis and exocytosis : Endocytosis involves engulfment of a drug
by the cell membrane and transport into the cell.
Exocytosis is the reverse of endocytosis

Factors Affecting Absorption Are:

1. Area of absorbing surface
2. Vascularity of the absorbing surface
3. pH
4. contact time absorption surface
5. Expression of P-glycoprotein

Influence of pH
Most drugs are weak acids or weak bases, i.e. their ionization is pH dependent
(contrast strong electrolytes that are nearly completely ionized at acidic as
well as alkaline pH).
Unionizes drugs are absorbed while ionized drugs are not absorbed

BIOAVAILABILITY: is the total proportion of the drug that reaches the systemic
circulation from the site of administration
Bioavailability of drug injected I.V. (intravenous ) is 100%

Bioavailability = plasma concentration X 100
Total drug concentration

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Pharmacology introduction - level 2 Dr/ Butheina Al-Amrani

Example 1
100 mg of drug X is given orally, 70mg was absorbed to the systemic circulation
What is the bioavailability of this drug ?

Example 2
10 mg of drug Y is given I.V.
What is the bioavailability of this drug ?
What is the amount of the drug in blood ?

Factors that influence bioavailability
1. First-pass metabolism
2. Solubility
3. Drug form
4. Chemical stability

Bioequivalence
Two drug formulations are bioequivalent if they show comparable bioavailability and
similar times to achieve peak blood concentrations.

Therapeutic equivalence
Two drug formulations are therapeutically equivalent if they are pharmaceutically
equivalent with similar clinical and safety profiles.

II. DISTRIBUTION:

Factors that influence DISTRIBUTION
1. Total body water
2. Binding to plasma and tissue proteins
3. Blood flow
4. Capillaries permeability
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Volume Of Distribution
volume of distribution (Vd) : is the apparent volume in which drug is
distrusted in all body tissue assuming the drug is uniformly distributed and the
body behaves as a single homogeneous compartment.

Vd = dose administered I.V.\ plasma concentration.

Drugs that have a volume of distribution 42, the drug is thought to be distributed in
tissues more than extracellular compartment

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Pharmacology introduction - level 2 Dr/ Butheina Al-Amrani
Example
1. If 10 mg of drug is injected into a patient and the plasma concentration is C =
1 mg/L what is the Vd?
2. A 40-year-old male patient (70 kg) was recently diagnosed with infection
involving methicillin-resistant S. aureus. He received 2000 mg of vancomycin
as an IV loading dose. The peak plasma concentration of vancomycin was
reported to be 28.5 mg/L. what is The apparent volume of distribution ?
3. 10 mg of drug X is given to a patient. After eqlibrium the plasma
concentration was 1mg/ml. What is the volume of distribution of this drug

Redistribution: Highly lipid-soluble drugs get initially distributed to organs
with high blood flow, i.e. brain, then its redistributed to other organs

blood-brain barrier : The capillary endothelial cells in brain have tight
junctions and lack large intercellular pores called blood-brain barrier. Only
lipid-soluble drugs are able to penetrate the central nervous system.

Passage across placenta: Cross of drugs from the mother to the fetus through
placenta

III. BIOTRANSFORMATION (Metabolism) : Biotransformation means chemical
alteration of the drug in the body
(i) Inactive → active
(ii) Active → another active drug
(iii) Activate → inactive drug

Biotransformation reactions can be classified into:
1) Nonsynthetic/Phase I/Functionalization reactions
a) Oxidation
b) Reduction
c) Hydrolysis

(2) Synthetic/Conjugation/ Phase II reactions
a) Glucuronide conjugation
b) Acetylation
c) Methylation
d) Sulfate conjugation
e) Glycine conjugation
f) Glutathione conjugation
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Microsomal enzymes: These are located on smooth endoplasmic reticulum in liver,
also in kidney, intestinal mucosa and lungs. They metabolize almost all drugs

For example of microsomal enzyme : cytochrome P 450

Microsomal enzyme inhibition cause :-
1. Increase effect of drugs that are inactivated by metabolism
2. Decrease effect of the drugs that are activated by metabolism.

Microsomal enzyme induction cause:-
1. Decreased effect of drugs that are inactivated by metabolism
2. Increased effect of drugs that are activated by metabolism.
3. Tolerance
4. Intermittent use of an inducer may interfere with adjustment of dose of another
drug prescribed on regular basis, e.g. oral anticoagulants, oral hypoglycaemics,
antiepileptics, antihypertensives.

First Pass Metabolism
All orally administered drugs are exposed to drug metabolizing enzymes in the liver
(where they first reach through the portal vein).

IV. Elimination removal of the drug from systemic circulation through any route
Urine
Feaces
Hepatic metabolism

Renal elimination
Clearance (CL): estimates the amount of drug cleared from the body per unit of
time. It depends on glomerular filtration rate (GFR)
CL= 0.693 x Vd/ t1/2

Site of drug renal elimination
Glomerular filtration : depend on Glomerular filtration rate (GFR) may
diminish significantly in renal disease
Proximal tube secretion
Distal tube reabsobtion : some non-ionized non conjugated drug may return
back to system circulation this may be decrease for acidic drug by alkalization
of urine

Total body clearance
CL total = CLhepatic + CLrenal + CLpulmonary + CL other

First order kinetics
The rate of elimination is directly proportional to the drug concentration, CL
remains constant

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Pharmacology introduction - level 2 Dr/ Butheina Al-Amrani

Zero order (linear) kinetics
The rate of elimination remains constant irrespective of drug concentration,
CL decreases with increase in concentration; or a constant amount of the drug
is eliminated in unit time

Plasma half-life: The Plasma half-life (t1\2) of a drug is the time taken for its plasma
concentration to be reduced to half of its original value.

Example
The volume of distribution and clearance determined of the drug X are 40 L
and 2.0 L/hour, respectively. what is the most likely half-life of the drug ?

Therapeutic Window (index)
The therapeutic window is the safe range between the minimum therapeutic
concentration and the minimum toxic concentration of a drug.

Drug indication:
The basis for initiation of a treatment for a disease or of a diagnostic test

Drug contraindication:
Any special symptom or circumstance that delay the use of a remedy

Over-the-counter (OTC)
medication that can be purchased without a medical prescription

Off-label use
The use of pharmaceutical drugs for an unapproved indication or in an unapproved
age group, dosage, or route of administration
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Drug dosage regimen
1. Continuous infusion regimens
With continuous IV infusion, the rate of drug entry into the body is constant.
Most drugs exhibit first-order elimination,

Following initiation of a continuous IV infusion, the plasma concentration of a drug
rises until a steady state (rate of drug elimination equals rate of drug administration) is
reached, at which point the plasma concentration of the drug remains constant.

The steady-state plasma concentration (Css) is directly proportional to the infusion
rate.

2. Multiple IV injections\ oral
When a drug is given repeatedly at regular intervals, the plasma concentration
increases until a steady state is reached

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Maintenance dose:
Drugs are generally administered to maintain a Css within the therapeutic window. It
takes four to five half-lives for a drug to achieve Css.

The dosing rate can be determined by knowing the target concentration in plasma
(Cp), clearance (CL) of the drug from the systemic circulation, and the fraction (F)
absorbed (bioavailability)
Dosing rate = (Target C plasma ) CL
F

Loading dose: the dose administered to achieve the desired plasma level rapidly
followed by a maintenance dose to maintain the steady state

Loading dose = Vd x Css
F

Pharmacodynamics
Pharmacodynamics is the study of drug effects on the body (mechanism of action,
pharmacological action and adverse effects)

Drugs produce their effects by interacting with a discrete target biomolecule, which
usually is a protein.

RECEPTOR = It is defined as a macromolecule or binding site located on the
surface or inside the cell that recognize the drug and initiate the response to it.

Ligand Any molecule which attaches selectively to particular receptors or sites

Effect of drug on receptor
1.Agonist An agent which activates a receptor to produce an effect
a. partial agonist
b. full agonist

2. Antagonist An agent that prevents the action of an agonist on a receptor, but does
not have any effect of its own

-Competitive antagonism (equilibrium type) The antagonist is chemically
similar to the agonist, competes with it and binds to the same site to the
exclusion of the agonist molecules.
-non Competitive antagonism The antagonist competes with the drug on
different binds site.
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3. Combined Effect Of Drugs (SYNERGISM)
When the action of one drug is facilitated or increased by the other. Synergism can be:
a. Additive : drugs A + B = effect of drug A + effect of drug B
b. Potentiation: effect of drug A + B > effect of drug A alone + effect of drug B
alone

Receptor groups: four major categories,
a) ion channels : eg GABA receptor, Nicotinic receptor
b) G protein : α and β receptor
c) enzymes : insulin receptor
d) Intracellular : steroid receptor

Desensitization of receptors
Repeated or continuous administration of an agonist may lead to decease in the
responsiveness of the receptor

Dose-Response Relationship

The effect of the drug on a receptor depend on the concentration of the drug.
As the concentration of the drug increase the response of the receptor increase.
until all the receptors are occupied , the response reach maximum effect.
The response effect will be plateau with increase of drug concentration

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Pharmacology introduction - level 2 Dr/ Butheina Al-Amrani

Potency: a measure of the amount of drug necessary to produce an effect of a given
magnitude

Efficacy: This is the ability of a drug to illicit physiologic response when it
interacts with a receptor. Efficacy is measured by (Emax)

Adverse Drug Effects

1. Side effects
These are unwanted but often-unavoidable pharmacodynamics effects that occur
at therapeutic doses.

2. Secondary effects/ secondary infection / superinfections
Suppression of bacterial flora by drug cause growth of opportunistic pathogens
for example:
Corticosteroids activates latent tuberculosis
Antibiotics cause diarrhea

3. Toxic effects
Excessive pharmacological action of the drug due to overdosage or prolonged use.

4. Idiosyncrasy
The drug interacts with some unique feature of the individual due to genetic
mutation and produces the uncharacteristic reaction.

5. Drug allergy
It is an immunologically mediated reaction
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6. Drug dependence
Drug dependence is a state in which use of drugs for personal satisfaction

7. Drug withdrawal reactions
Sudden stop of the drug results in adverse effects.

8. Teratogenicity
Drug cause fetus abnormalities when administered to the pregnant mother.

9. Carcinogenicity
It refers to capacity of a drug to cause genetic defects and cancer respectively.

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