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Antimicrobial Agents and Chemotherapy, May 2004, p. 1916-1917, Vol. 48, No. 5
0066-4804/04/$08.00+0     DOI: 10.1128/AAC.48.5.1916-1917.2004
Copyright © 2004, American Society for Microbiology. All Rights Reserved.

LETTER TO THE EDITOR

International Spread of bla_CMY-2-Mediated Cephalosporin Resistance in a Multiresistant Salmonella enterica Serovar Heidelberg Isolate Stemming from the Importation of a Boar by Denmark from Canada

	LETTER

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The isolate was serotyped as Salmonella enterica serovar Heidelberg and was examined for antimicrobial susceptibility by MIC determinations (6). The ß -lactam resistance was not transferable to E. coli recipients, whereas transfer was obtained in high frequencies to nalidixic acid-resistant S. enterica serovar Heidelberg, serovar Typhimurium, and serovar Dublin recipients. MICs found for the donor, recipients, and transconjugants as well as detected resistance genes are given in Table 1. Plasmid profiling and hybridization showed that the bla_CMY-2 gene was located on a >60-kb plasmid. The pulsed-field gel electrophoresis (PFGE) profile of the isolate was compared to those of 10 other serovar Heidelberg isolates from food products or animals in Denmark and four isolates from humans. PFGE was performed by using XbaI and BlnI as restriction enzymes according to PulseNet protocol, and its results were compared to those of the PulseNet database. No identical isolates were found.

Serovar Heidelberg is one of the most common serovars causing infections in humans in the United States (7). This serovar is not so far of any major importance in Denmark but clearly has the potential to become an important cause of infections in humans. In addition, since the resistance is located on a transferable plasmid, this resistance might easily spread once it is introduced into an animal population.

The present observation showed that a Salmonella isolate with multiresistance was imported by Denmark through the market of live animals. International spread of multiresistant clones has previously been observed (3), and there are several potential routes where this might occur. Trading in live animals provides a very efficient way to spread both pathogenic clones and resistance genes. Breeding animals constitute the top of the production pyramid, and from these herds clones and genes might easily spread to all other animals in the production system. Recent studies from the United States indicate that similar plasmids with the bla_CMY-2 genes can be isolated from several sources, including cattle and swine, indicating that plasmids and genes have spread. Salmonella isolates with ampC-mediated ß-lactam resistance have so far not become common in Europe. However, in 2003 an outbreak of serovar Newport with bla_CMY-2, associated with eating horse meat, was detected in France (http://www.eurosurveillance.org/ew/2003/030703.asp#2). The global spread of ampC-mediated resistance in Salmonella and other Enterobacteriaceae is one of the emerging problems that we presently face. Thus, studies determining how this spread occurs are urgently needed.

	REFERENCES

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