TOXICOLOGY I. The fate of poison in organism - PowerPoint PPT Presentation

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TOXICOLOGY I. The fate of poison in organism

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Title: TOXICOLOGY I. The fate of poison in organism


1
TOXICOLOGY I. The fate of poison in organism
M. Balíková
2
What is the poison
  • The substance which after the resorption into the
    blood stream can induce the harmful effects to
    the organism Toxic effects
  • contemporary
  • with permanent damage to organs
  • fatal
  • Mutual action between poison and organism
  • PHARMACODYNAMICS (What does the poison to the
    organism?)
  • PHARMACOKINETICS (What does the organism to the
    poison?)

3
The fate of poison in organism
  • Application mode and bioavailability,metabolism
  • Inhalation-Sniffing-Injection-Ingestion-Dermal
  • Resorption into blood stream
  • Distribution into tissues
  • Biotransformation into metabolites
  • Elimination ways
  • a) Urine polar compounds
  • b) Feaces lipophilic compounds
  • c) Lungs gases, volatiles
  • d) Hair deposits of basic compounds above all
  • e) Saliva hydrophilic/lipophilic
  • f) Sweat hydrophilic/lipophilic

4
OVERVIEW
5
The individual variation in pharmacokinetics and
pharmacodynamics
a) Variation in effects (receptors) b) Variation
in metabolism (enzymes)
  • Genetics (e. g. variation among races)
  • Sex
  • Age
  • Actual health state
  • Life style, tolerance
  • The mode of application, drug mixtures

6
Biotransformation
  • Modification of the chemical structure of parent
    compound in organism, catalysed by enzymes
  • Metabolites with different potency
  • Most of enzymes bound in hepatocytes
  • The liver and the first pass metabolism
  • Lipophilic compounds extensive metabolism
  • Polar metabolites excreted by urine

7
Biotransformation
  • 2nd phase-conjugation
  • Sulphuric acid
  • Glucuronic ac.
  • Glycine
  • Cysteine
  • Glutathione
  • 1st phase
  • Oxidation (P450 system)
  • Reduction
  • Hydrolysis

8
Oxidation of alcohols
9
Oxidation of unsaturated bonds
10
O-Dealkylation
11
N-Dealkylation
12
N-Oxidation
13
S-Oxidation
14
Oxidative desulphuration
15
Oxidative deamination
16
Reduction of aldehydes, ketones
17
Reduction of nitrogroups
18
Hydrolysis of esters
19
Hydrolysis of amides
20
Hydrolysis of benzodiazepines
21
Biotransformation of Salicylates
CONJUGATION with GLYCINE

22
CONJUGATION of MORPHINE
23
Biotransformation of heroin, codeine
cccc111111AAAAA
24
Biotransformation of cocaine
25
Biotransformation of methamphetamine
26
Biotransformation of 9-THC
27
Nonspecific metabolites of some benzodiazepines
28
Specific metabolites of flunitrazepam
29
Metabolism of paracetamol
  • Acetaminophen
  • (COLDREX, KORYLAN, PANADOL)
  • Risk of hepatotoxicity Hepatoprotection
    Antidotum N-Acetylcystein

30
Why to care about biotransformation
  • Development of a toxicological method
  • Interpretation of toxicological findings
  • Understanding of drug effects
  • Correct and effective therapy, reduction of
    adverse drug effects
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