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ENDOTOXINS

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Title: Aucun titre de diapositive Author: Richard Marchand Last modified by: Shelley Mcgee Created Date: 10/31/1997 6:30:54 PM Document presentation format – PowerPoint PPT presentation

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Title: ENDOTOXINS


1
ENDOTOXINS
  • Richard Marchand MD
  • Associate professor
  • University of Montreal

2
ENDOTOXINS definition
  • Large molecules coming from bacterias
  • The major part comes from the cell wall
  • Gram neg gtgtgt Gram pos
  • Composed of lipids and sugars (polysaccharids)
    lipo-polysaccharids (LPS)
  • Resistant to heat (gt 100 oC)
  • Syn. pyrogens

3
ENDOTOXINS
  • LPS structure
  • Lipid A
    Core Polysaccharids O
  • Lipid A (lipidA) diglucosamine containing
    fatty acids chains of 10 to 20 carbon
    atoms
  • Core core made of sugar (carbohydrates) acid
    residus 2 kéto -3 déoxy -D-
    mannoctulosinic (KDO)
  • Polysaccharid O repetitive branch of linear
    sugars

4
ENDOTOXINS
  • The toxic strength varies according to the type
  • ?????fentograms per bacteria (4.0 X 10-15 gr)
  • Strong molecular variations and antigenicity
    between species (antibodies against one type
    ineffective against the other)
  • Forms a major component of the bacteria cell wall
  • Free endotoxins concept (those are not in the
    cell wall)
  • Buffer effect concept (according to internal
    proteic state)

5
ENDOTOXINS
  • They cause - fever and tachycardia
  • - increase in cardiac
    output
  • -decrease in peripheral resistances
  • Mode of action via the immune system and the
    liberation of cytokins
  • Sensitiveness genetically determined
  • (Man is extremely sensitive few micrograms
    per Kg are sufficient to produce a state of
    shock)
  • (Women also !)

6
DOSAGE OF ENDOTOXINS
  • Before 1987 poor rabbits
  • Since 3 methods derived from Levines
    method (1979)
  • Gel-clot reaction
  • Turbimetric methods static and dynamic
  • Chromogenic methods static et dynamic
  • Uses Limulus polyphemus lysate (LAL)

7
DOSAGE Gel clot method
  • Principle the smallest dilution (?) capable of
    inducing a clot form a reactant lot of LAL is
    determined
  • Method -a standard reference (RSE) by double
    dilutions of a known endotoxin is
    determined -the largest dilution capable to
    induce the clot in the sample to be measured
    is determined
  • The concentration of endotoxin in he sample is
    claculated by multiplying the sensibility factor
    (?) by the titre of the dilution
  • Ex. If ? 0.125 EU/mL and titre
    1/16 then the sample contains 16 X 0.125 2.0
    EU/mL

8
DOSAGE chromogenic methods
  • Principle instead of turbidity, the colour
    produced by the utilization of a chromogenous
    synthetic substrate is measured.
  • Static method the sample is incubated with LAL
    reactant for a specific duration and the final
    colour intensity is measured with a
    spectrophotometre.
  • Dynamic method consists in taking multiple
    readings during the course of the incubation in
    order to determine the required time to obtain a
    threshold of a given intensity
  • The required duration is plottted on a curve of
    standard duration time in order to measure the
    quantity in the sample.

9
PHARMACOPEIA depyrogenization
  • Dry heat 4 hours at 160 oC (3 log minimum)
  • 2-45 minutes at 250 oC (average 30 min) Walsh
    1945 (penicillin) 30 min at 250oC
  • Bacillus subtilis spores have a D value160oC
    1.46 min Sterilization-SAL 10-6 (6 X 1.46)
    8.76 minutes (27 times less)
  • Would radiant heat be more effective than heat
    by convection
  • What is it about alternatives to dry heat ?????

10
ENDOTOXINSKinetics to dry heat
  • Tsuji and Harisson (Upjohn)
  • Second order R2
  • D170 251
  • D190 99.4
  • D210 33.3
  • D250 4.99
  • Log Y A B x 10C x (x duration in minutes)
  • Z value 46.4 minutes approx.

11
Destruction in terms of 2 curves of first order
12
DEPYROGENIZATION ASSAYS
  • Test bottles (ACC) 0,5 microgr.
  • 5,000 EU /vial
  • Recuparation Int. cont. 4,540 /- 1107
  • 4 contrôles 4,088 /- 1280 82
  • By projection of the extraction curves
  • extraction is approx. 50 for high Q
  • extraction is less then 10 for low Q ,
  • possibly less then 1 for very low Q

13
RESULTS
  • ETO 100 (n3) normal cycle 55 oC
  • Recovery 65 (2650 /- 1101)
  • Max. destruction 35
  • WCS 17 83 on the instrument
  • Dry heat (n3) 1 hour at 170 oC ( 1/3 cycle)
  • Recovery 54 (2204 /- 220)
  • Max. destruction 46
  • WCS 23 77 on the instrument

14
RESULTS
  • Steam (n3) 121 oC Normal cycle
  • Recovery 1.4 (56 EU)
  • Max. destruction 98.6
  • WCS 91 9 on the instrument
  • Plasma (n13, n23) H2O Sterrad 100S
  • Recovery n1 0.4 (18 EU) n2 0.1 (4 EU)
  • Max. destruction 99.6 and 99.9
  • WCS 94 and 96 6 and 4 on the instrument

15
RESULTS
  • Steam (n3) 121 oC Normal cycle
  • Recovery 1.4 (56 EU)
  • Max. destruction 98.6
  • WCS 91 9 on the instrument
  • Ozone
  • Recovery n1 0.x ( EU) n2 0.x ( EU)
  • Max. destruction 99.x and 99.x
  • WCS 9x and 9x a and b on the instrument
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