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Pharmacokinetics

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Title: Pharmacokinetics


1
Pharmacokinetics
  • David R Bell

2
Concentration and toxicity
3
Toxicity and concentration
concentration
In
Out
4
Routes
  • Input
  • Oral
  • Dermal
  • Inhalation
  • Mucous membranes
  • Intravenous
  • Intraperitoneal
  • Output
  • Urine (kidneys)
  • Faeces (liver/ poor uptake)
  • Exhalation
  • Sweat
  • Tears
  • Lactation
  • Hair

5
Fatty compounds
Blood
Fat
In
Brain
Kidney
Other tissue
Out
6
Lipophilicity
Blood
Fat
7
Metabolism
  • Lipophilic compounds will accumulate in fatty
    tissues--- toxicity
  • Metabolism of foreign compounds tends to make
    them more hydrophilic
  • Therefore, present in blood
  • Subject to renal excretion

8
Importance of metabolism
  • Furafylline
  • Drug candidate, non-toxic per se
  • In clinical trials, volunteers showed severe side
    effects
  • Not related to furafylline
  • Related to consumption of coffee
  • Furafylline specifically inhibits cytochrome P450
    1A2
  • P450 1A2 metabolises and clears caffeine
  • Furafylline leads to lack of clearance of
    caffeine and toxicity

9
Detoxification and activation of carcinogens
  • The balance
  • High P450 means
  • Higher production of oxidised metabolites
  • Oxidised metabolites react with DNA
  • More cancer
  • But you get cancer after you have reproduced
  • Low P450 means acute toxicity
  • No chance to reproduce

10
Fatty compounds
Blood
Fat
In
Brain
Kidney
Other tissue
Out
11
Portals of entry
Gut drains to liver
Gut
Liver
Blood
Metabolism in liver
Metabolism in gut wall
12
First-pass metabolism
  • Naloxone has gt97 metabolism by the liver
  • Given i.v. or sub-lingual for systemic
    administration
  • Budesonide has extensive metabolism in gut and
    liver
  • Insulin degraded in gut

13
Organs of elimination
  • Liver
  • 27 of cardiac output
  • 2.3 of body mass
  • Excretion through bile
  • Metabolism
  • Kidney
  • 22 of cardiac output
  • 0.5 body mass
  • Excretion in urine

14
A model
Blood
In
Compartment 2
Out
15
Volume of distribution
A
Amount of drug in body
_
V
C
Concentration of drug in blood
For a 70 kg human 5 Litres blood 16 Litres
extracellular water 42 Litres total body
water gt100 L means it is outside the blood
16
Rate of elimination
Rate k Where k is a constant
Zero order kinetics
Time (hours)
17
Rate of elimination
One hour- 50
One hour- 50
One hour- 50
18
Rate of elimination
  • Rate of elimination k blood concentration
  • Where k is the first order rate constant
  • The half-life is the time required for the
    concentration of compound to half
  • First order kinetics

Compartment 1
kx
Out
19
Rate of elimination
20
Rate of elimination
  • There are two elimination processes
  • A fast process
  • A slow process
  • Best explained by two compartment model

k2x
k1x
Blood
Compartment 2
Out
21
Summary
  • Concentration of compound is key
  • Concentration is determined by input and output
    rates
  • Models of output rate
  • Metabolism is key excretion route
  • Physiological systems control uptake and output
    rates
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