Basic Pharmacology Lecture 2 PDF

Summary

This document contains lecture notes on basic pharmacology, specifically focusing on drug absorption. It details the pharmacokinetics of drug absorption process, various routes of administration, and factors influencing drug absorption. The document also includes illustrations and tables.

Full Transcript

Basic
Pharmacology
CPB 303
Lecture 2
Hadeer Osama Abou-Hany
 Pharmacokinetic (Absorption)
Absorption is the movement of a drug from the site of
administration to the systemic circulation through a
biological membrane.

Site of administration → Routes of administration
Systemic circulation → Bioavailability
Biological membrane → Mechanisms of Transport
 What happens after administration of the drug?

AUC
Minimum toxic concentration (MTC)
Onset
Duration
Cmax
Tmax
MEC
MTC

The Y-axis shows the plasma drug concentration, and the X-axis shows the time in hours
❑AUC, the area under the curve, represents the total drug exposure integrated over time and is an
important parameter for both pharmacokinetic and pharmacodynamic analyses.
❑MEC (Minimum Effective Concentration): The lowest concentration of a drug in the
bloodstream that produces a desired therapeutic effect. Below this concentration, the drug
is considered ineffective.
❑Onset, time form drug administration till appearance its pharmacological effect.
❑Duration, time form appearance of the drug pharmacological effect till the disappearance of this
action. i.e. the time between two MEC.
❑Cmax , the maximum concentration of the drug in plasma.
❑The time it takes to reach the Cmax is called the Tmax.
❑MTC (Minimum Toxic Concentration): The lowest concentration of a drug that produces toxic
effects.
Test Your Knowledge!

Absorption of IV preparation = ……………..
Bioavailability of IV route = ………………
 Routes of Drug
Administration

Systemic Local
Topical/skin
Enteral Ocular drops
Enteral Parenteral Inhalation

Oral Intravenous
Rectal Intramuscular
Sublingual Subcutaneous
Intradermal
Intrathecal
Routes of administration

Oral Route: The drug is administered
through the gastrointestinal tract (stomach
or intestines), e.g. tablets, capsules, and
syrup.
Intravenous Route: Medication is directly
injected into the bloodstream, bypassing
the need for absorption.
Intramuscular: The drug is delivered into a
muscle.
Subcutaneous: Medication is introduced
beneath the skin.
Sublingual: The drug is placed beneath the
tongue for absorption.
 Route Advantages Disadvantages Factors affecting
absorption
Oral 1. Most common 1. Unsuitable for many patients → 1. GIT motility and emptying:
2. Convenient Unconscious, Children, Elderly, and ↑ the motility → ↓ the absorption
✓ Tablets
✓ Capsules
3. Cheap and patients suffering from vomiting 2. Food: ↓ absorption of many
economic 2. Unsuitable for many drugs like drugs like tetracycline in the
✓ Syrups
4. For local action a) Irritant drugs presence of Ca.
✓ Effervescent
on GIT and b) Undergoing 1st pass metabolism 3. Intestinal blood flow (splanchnic
granules
systemic actions c) Decomposed by HCl ex: Penicillin blood flow)
5. Reversible. d) Digested by gastric enzymes ex: insulin 4. Particle size: ↓ particle size → ↑
(proteins) absorption
e) Highly polar (water soluble) 5. Dosage from
3. Delayed onset of action 6. Chemical interactions with food
or other drugs that may affect pH
and dissociation
First Pass Metabolism (Enterohepatic Circulation)

✓ After drug absorption from upper part of the GIT
→ it will reach the portal circulation WHY AUC of oral route is
✓ Then portal vein will reach the liver where the lower than AUC of IV
drug may be metabolized before reaching the site route?
of action
✓ Ex: nitroglycerine
 Route Advantages Disadvantages Factors affecting
absorption
Sublingual 1. Direct absorption from 1. The drug must be palatable. 1. Blood flow
sublingual mucosa 2. The dose must be small
2. Rapid onset
3. No 1st pass metabolism
→ suitable for
nitroglycerine
Rectal 1. No 1st pass metabolism if 1st pass metabolism if the drug 1. Blood flow
the drug is absorbed from absorbed form upper part
lower part
2. Rapid absorption
3. for unconscious patients
4. Systemic or local effect
Route Advantages Disadvantages Factors affecting
absorption
IM 1. Common 1. Not suitable for irritant drugs 1. Blood flow to the muscle
2. Rapid onset 2. Small volume of injection 2. Amount of fat deposition
3. Suitable for suspensions (maximum 10 ml) around the muscle
4. Long duration 3. Delayed onset compared to IV ✓ The lower the fat content, the
5. Suitable for sustained route higher the absorption rate
release preparations
6. Easy

IV 1. Rapid onset 1. Injected drug cannot be removed
2. Suitable for from body (Irreversible)
emergencies 2. Drug should be water soluble
3. Large volume of 3. Not suitable for drugs which
injection a) cause hemolysis
4. Suitable for b) suspension or emulsion
unconscious patients c) containing pyrogen
5. Suitable for irritant d) lipid soluble
drugs
6. No 1st pass metabolism
1- Which of these routes could be reversible
(IV- IM- Sublingual- Oral)
2- Oral preparations should be pyrogen free?
(True – False)
3- Oral route is the most suitable route for large volume preparations
(True – False)
4- High amount of fat deposition around the muscle increase the absorption of IM
preparations?
(True – False)
 Route Advantages Disadvantages
SC 1. More rapid onset compared to oral route 1. Small volume of injection
2. Long duration of action (1.5 ml maximum)
3. Self-administered 2. Not suitable for irritant
4. Suitable for lipid soluble and water soluble drugs
drugs
Intraperitoneal 1. Used experimentally only
IP 2. Large surface area of the peritoneum
3. High blood flow
Route Inhalation Intranasal Intrathecal Topical
Aerosols Drops Injection Cream
form
Dose
Sprays Spray Ointments
Inhaler Lotion
1) Large surface area The action of the drug Administration of 1. Targeted
leading to rapid may be the drug directly application
absorption a) Local action in the into the (application at the
2) May be used for nasal cavity cerebrospinal fluid site of action)
Advantage

a) local action: b) Systemic action (CSF) 2. Small amount
(albuterol is used as through absorption required
bronchodilator for from the nasal mucosa 3. Less systemic side
treating asthma effects
with low systemic
side effects
b) systemic action:
general anesthetics
▪ General anesthetics ▪ nasal decongestant ▪ Pain ▪ Clotrimazole is
▪ ▪
Examples

Albuterol for desmopressin Management applied as a cream
asthma ▪ calcitonin (Morphine) to treat
▪ cocaine by intranasal ▪ Local dermatophytosis
sniffing Anesthesia ▪ Tropicamide: drops
to dilate the pupil.
Factors affecting drug absorption
Factors Related to the Patient: Factors Related to the Drug:

Site of Administration Ionization:
The drug must exist in a unionized, lipid-soluble
form for effective absorption
1. Vascularity: Lipid Solubility:
▪ Increased blood flow enhances drug A drug must exhibit lipid solubility with some water
absorption. solubility to facilitate absorption.
Drugs with complete water insolubility, like BaCl2,
▪ For example, beneath the tongue (sublingual)
are not absorbed.
facilitate rapid absorption.

Surface Area: Valence:
▪ A larger surface area generally leads to Some drugs, such as iron, are absorbed in specific
increased absorption. ionic states.
For example, ferrous iron (Fe++) is absorbed, while
▪ For instance, the alveoli in the lungs, with their
ferric iron (Fe+++) is not.
extensive surface area of 200 square meters,
promote rapid absorption.
1- Oral Bacl2 is completely absorbed?
(True – False)
3- The onset of oral nitroglycerine (NG) is lower than the sublingual NG.
(True – False)
4- The concentration of drug where the abortion rate is equal to the
elimination rate?
(Cmax – Tmax – MIC- MTC)
Factors Related to the Patient: Factors Related to the Drug:

Circulation: The presence of shock can reduce Molecular Weight:
absorption. Smaller drugs are generally absorbed more efficiently
Consciousness than those with higher molecular weight.
Presence of Nausea and Vomiting
Food intake: Pharmaceutical Preparation:
→ For example, Griseofulvin, an antifungal medication, Factors like dosage form (tablet, capsule, syrup),
has increased absorption when taken with fatty meals manufacturing method, particle size, and shape
influence drug absorption.

Presence of Other Drugs: Physical Characteristics:
▪ Some medications can decrease the absorption of Amorphous drug forms are typically absorbed more
other drugs. readily than crystalline forms.
▪ For instance, epinephrine reduces the absorption of Chemical Properties:
Some drugs can form non-absorbable complexes with
local anesthetics by causing localized
ions like calcium.
vasoconstriction, leading to decreased blood flow and
absorption.
1- Why adrenaline is combined with local
anesthetic preparation for tooth extraction?
2- ………….. decreases the absorption of
Tetracycline while ……….. increases the
absorption of Griseofulvin.