Microsoft word - equivalence of iso and nmkl o157 methods.doc
Comparison of two methods for the detection of Escherichia coli serogroup O157 in foods and feeding stuffs: ISO 16654:2001: Microbiology of food and animal feeding stuffs – Horizontal method for the detection of Escherichia coli O157 and Nordic Committee on Food Analysis: NMKL No 164, 2. Ed. 2005: Escherichia coli O157. Detection in food and feeding stuffs. Jeppe Boel Danish Institute for Food and Veterinary Research, Bülowsvej 27, DK-1790 Copenhagen V, Denmark. E-mail: jeb@dvfv.dk. Date: 28 November 2006. At the ISO/TC34 SC9 meeting in Prague in June 2006 it was decided in resolution N° 297 under “NMKL – Cooperation agreement between NMKL and ISO/TC34 SC9” that “Jeppe Boel has to check whether the NMKL method is equivalent to the ISO method”. The following document has been written in response to this request. ISO and NMKL have both published culture based reference methods for the detection of Escherichia coli O157 in food and feeding stuffs. The two methods are very similar and both methods relies on the same principles: 1: Enrichment in modified tryptic soy broth supplemented with novobiocin (mTSBn), 2: separation and concentration by means of immunomagnetic particles coated with antibodies to E. coli O157 (immuno-magnetic separation – IMS), 3: Isolation by subculture onto two selective indicative isolation media (cefixime potassium supplemented Sorbitol MacConkey (SMAC) agar as mandatory isolation media and the other isolation media is free of choice), and 4: Confirmation of the E. coli O157. However there are also minor differences in the methods. In Table 1 a list of important similarities and differences between the two methods are given. The NMKL method has been evaluated in a collaborative study (Normark, C (2005): Collaborative study of method for detection of Escherichia coli O157 in food - NMKL No. 164, 1999. SLV rapport 2/2005 (National Food Administration, Uppsala, Sweden)). The ISO method has not been collaboratively evaluated. If the two methods are considered equivalent, this would mean, that the collaborative validation of the NMKL method also could be considered as documentation of the ISO method. Table 1 Comparison of NMKL and ISO methods for the detection of Eschericia coli O157 in food and feed.
Step ISO Comments
x g or x ml to 9 x ml of enrichment broth.
25 grams of food to 225 ml of enrichment broth.
Incubate 6 hours at 41.5°C and further 12-18 hours
Incubate the samples at 41.5±0.5°C for 6-8 hours
and/or 18-24 hours for 6-8 h and/or 18-24 hours.
IMS should be carried out after 6 hours and again, if
IMS should be carried out after 6-8 h and again after
necessary, after 12 hours to 18 hours of incubation
Method relies on non-specified (commercially)
Method relies on non-specified (commercially)
problematic because of differences in the performance of different “bead systems” and the quality of the applied antibodies. In the Nordic countries most laboratories uses beads from Dynal (see www.invitrogene.com)
Comment on the ISO method: when is it “necessary” to use IMS after both 6 and 18-24 hours of incubation.
The affinity purified IMS bead-bacteria complex
The affinity purified IMS bead-bacteria complex
(2x50µl) is seeded on to mandatory media (CT-SMAC) (2x50µl) is seeded on to mandatory media (CT-SMAC) SMAC agar is very similar
and a second isolation medium free of choice).
and a second isolation medium free of choice).
potassium tellurite concentration of 2.5 mg/l.
potassium tellurite concentration of 2.5 mg/l.
The bacteria-bead complex is streaked out with a
The bacteria-bead complex is streaked out with a
cotton swab on half of the plate and on the remaining
cottonswab is that it helps “breaking down” aggregates of E. coli O157, thereby facilitating the distribution of the target organism on the agar plates. But it is also clear that a cotton swab absorbs some of the liquid (and bacteria), and thus reduces the seeded volume.
CT-SMAC: 37°C for 18-24 hours, other isolation
37°C for 18-24 hours for both isolation media
media at its recommended temperature and specified
Description of the morphology of the typical sorbitol
Description of the morphology of the typical sorbitol
negative E. coli O157 on CT-SMAC. Other media
negative E. coli O157 on CT-SMAC. Other media
Up to five typical colonies from each of the isolation
Test typical colonies (no number given). Seed onto
media are seeded on to non-selective agar. The
non-selective agar (e.g. blood agar). Colonies are tested procedure
colonies are tested for indole formation in
for indole formation in tryptone tryptophane media.
tryptone/tryptophan medium. Indole forming isolates
Indole forming isolates are investigated serologically
are investigated serologically by slide agglutionation.
by slide agglutionation. It is stated, that it is also
possible to use slide agglutination tests on colonies that
Further characterization: Send strain to reference
Further characterization: Send strain to reference laboratory
Control strain: Non VT producing E. coli O157
Control strain: Non VT producing E. coli O157, ATCC
Recommends that spiked samples are used to obtain 43888.
routine in reading the selective indicative agar plate.
Recommends that spiked samples are used to obtain
routine in reading the selective indicative agar plate.
Enantioselective Synthesis of a-Hydroxy Ketones via Benzaldehyde Lyase-Catalyzed CÀC Bond Formation ReactionAyhan S. Demir,a,* ÷zge SÀesÀenoglu,a Elif Eren,a Birsu Hosrik,a Martina Pohl,b,dElena Janzen,b Doris Kolter,c Ralf Feldmann,c Pascal D¸nkelmann,c Michael M¸llerc,*Department of Chemistry, Middle East Technical University, 06531 Ankara, Turkey,Fax: ( 90)-312-2101280, e-mail: asdem
H1N1 ‘swine flu’ document In response to parental concern we have put together the following policy document on the H1N1 virus, more commonly known as ‘swine flu’. Parents should try to separate some of the hysterical media coverage of this illness from the reality: that the H1N1 virus is not dangerous for normal healthy children. The symptoms are much less severe than normal