Introduction to Pharmacology and Pharmacokinetics

1
Introduction to Pharmacology and Pharmacokinetics

• Pharmacology 49.222
• Bill Diehl-Jones RN, PhD
• Faculty of Nursing and Department of Zoology

2
Agenda

• The instructor
• The course
• organization
• expectations/grading
• Introduction
• Purpose of drug therapy
• Principles of Pharmacokinetics

3
The Instructor

• Office 333 Helen Glass
• Lab 336 Helen Glass
• Phone 474-7136
• Email
• Bill_Diehl-Jones_at_umanitoba.ca
• Office Hours
• by appointment

4
The Course

• Introductory level course designed for nursing
  students
• Lecture notes are available on my website
• Physiological and pharmacological principles will
  be integrated

5
Optional Text

• It is currently in the U of M bookstore
• Primary text
• Lilly and Aucker, 2001

6
Core Concepts

• Introduction to Pharmacology
• General Principles
• Pharmacotherapeutics
• The Role of the Nurse
• Drug Issues in Society

7
Evaluation Methods

• Mid Term Test - 25
• Final Exam - 35
• Patient Information Pamphlet - 20
• Pop Quizzes (x 4) - 10
• Test/exam will be multiple choice, true false and
  matching

8
Why Do We Study Pharmacology?

• A. Its good for you
• B. You will be able to use fancy terms like
  bioavailabilty
• C. My instructor likes torture
• D. A competent nurse must understand why his/her
  patient is getting a medication, and HOW IT WORKS

9
Purpose of Drug Therapy

• to prevent, control or cure various disease
  states.
• To achieve this, the right drug dose must be
  delivered to the tissues
• Every nurse must know
• speed of onset of drug action
• intensity of drug effect
• duration of drug action

10
A Graphical Example
Lethal Dose
Drug Concentration
Peak Onset
Therapeutic Range
?
Duration
Sub- Therapeutic
Time in Hours
11
How Do We Study Pharmacology?
12
General Concepts
Pharmaceutical
Pharmacokinetics
Pharmacodynamics
Pharmacotherapeutics
13
How are Drugs Administered?
14
Routes of Drug Delivery
Parenteral (IV)
Inhaled
Oral
Transdermal
Parenteral (SC, IM)
Topical
Rectal
15
What Happens After Drug Administration?
Drug at site of administration
1. Absorption
Drug in plasma
2. Distribution
Drug/metabolites in tissues
3. Metabolism
4. Elimination
Drug/metabolites in urine, feces, bile
Modified from Mycek et al. (1997)
16
We are now talking about
Pharmacokinetics
17
Factors Affecting Drug Absorption

• Transport
• active vs. passive
• pH
• Physical factors
• blood flow
• surface area
• contact time

ATP
ADP Pi
A- BH
18
What Factors Affect Distribution?

• Blood flow
• brain vs. fat
• Capillary permeability
• differences in capillary structure
• Binding to proteins
• role of albumin

Endothelial cells in liver capillary
Endothelial cells in brain capillary
Glial cell
19
An Important ConceptBIOAVAILABIITY

• Defn
• Fraction of a drug that reaches systemic
  circulation after a particular route of adminn
• Affected by
• 1st pass metabolism (eg Lidocaine,
  propranolol)
• Solubility
• Instability (eg
  Penicillin G, insulin)

Injected Dose
Serum Concentration
Oral Dose
Time
20
Volume of Drug Distribution

• Drugs may distribute into any or all of the
  following compartments
• Plasma
• Interstitial Fluid
• Intracellular Fluid

Plasma (4 litres) Interstitial Fluid (10
litres) Intracellular Fluid (28 litres)
21
So What?

• Most drugs distribute into several compartments
  however
• Some drugs distribute into only one or two
  compartments
• Eg Aminoglycoside antibiotics
• Streptomycin
• Gentamycin

Arggh! I cant fit through these darn
fenestrations!
22
More So What?

• It takes time for a drug to distribute in the
  body
• Drug distribution is affected by elimination

1.5
Drug is not eliminated
Serum Concentration
1.0
Elimination Phase
0.5
Distribution Phase
Drug is eliminated
0
Time
0
23
Albumin Affects Distribution
Albumin

• Drugs bind differentially to albumin
• 2 drug classifications
• Class I dose less than available binding sites
  (eg most drugs)
• Class II dose greater than binding sites
  (eg sulfonamide)
• The problem
• one drug may out-compete the other

Drug X
Sulfonamide
24
Drug Metabolism(were still talking about
Pharmacokinetics)
25
Drug Metabolism

• First pass
• metabolism of drugs may occur as they cross the
  intestine or transit the liver
• eg nitroglycerin
• Other drugs may be destroyed before absorption
• eg penicillin
• Such reactions decrease delivery to the target
  tissues

26
Drug Metabolism (contd)
Drug

• Two Phases I and II
• Phase I conversion to lipophilic cpds
• Phase II conjugation
• Phase I involves the cytochrome P-450 system
• Ultimate effect is to facilitate elimination

Phase I
Oxidation Reduction Hydrolysis
Activation/Inactivation
Phase II
Glucuronidation
Conjugation Products
27
An Example of Phase I and IIBiotransformation
Phenacetin
-OC2H5
CH3CON- H
PHASE I
Paracetamol
-OH
CH3CON- H
PHASE II
OH
Glucuronic Acid Conjugate
-O-
-OH
HO
CH3CON- H
O
COOH
28
An Example of Drug Metabolism
29
First Pass Metabolism Occurs Primarily in the
Liver and Gut
30
Drug Elimination

• Most important route is the kidney
• May also involve bile, intestine, lung, breast
  milk
• What clinical scenarios may affect drug
  elimination?

31
Elimination of a drug is usually linked to renal
filtration, secretion and reabsorption.
32
Food for Thought

• What conditions might affect renal function (and
  therefore drug elimination)?
• What other organ systems are involved in drug
  clearance?

33
Important Point

• The pharmacokinetic profile of a drug also
  depends on its mode of administration

34
Example Intravenous Infusions

• Plasma concentration rises until elimination
  input
• Faster infusions get more drugs on board, but
  does not change the time to achieve a steady state

Fast Infusion
Slow Infusion
Time at which steady state is achieved
35
Example Intravenous Injection

• Peak plasma concentration of the drug is achieved
  at time 0
• There is no steady state concentration. Why?

100 mg injected
50 mg injected
36
Example Oral Dose

• A single oral dose will give you a single peak
  plasma concentration
• The drug concentration then continuously declines
• Repeated doses result in oscillations in plasma
  concentration

37
Are We Having Fun Yet?