Salmonella enterica serovar Infantis is endemic in Finnish cattle. Feed contaminated with S. Infantis was distributed to cattle farms in May 1995. Following increased sampling, S. Infantis was detected on 242 farms in 1995. Molecular typing was used to differentiate the farms that were infected by the feed-related Infantis from those infected by other endemic strains. Twenty-three isolates from feed in 1995 and 413 from cattle (72 from 19924, 324 from 1995, 17 from 1996-7) were analysed. The feed-related Infantis was clonally related to the endemic infection by the ribotype, IS200-type and XbaI-profile. The feed isolates had a distinctive plasmid that appeared in pulsed-field gel electrophoresis as a 60 kb band when cleaved with XbaI or linearized by S1-nuclease. This plasmid appeared in cattle only since the outbreak and seemed stable on the follow-up farms. In addition to contact farms, the feedborne strain was found on 19% of the farms infected with S. Infantis in 1995 but not having bought suspected feedstuffs, possibly as secondary infections.
Salmonella enterica subsp. enterica serovar Agona was not frequently encountered in Finland until an increase in rates of isolation among animal and feed was seen in 1994. A small outbreak among cattle farms in the regions of Oulu and Vaasa in northwestern Finland in 1994-1995 included eight farms. After the outbreak, an increase in the number of serovar Agona infections in humans was seen in 1999: the number of annual microbiologically confirmed cases in humans increased from about 10 from 1990 to 1998 to 84 in 1999, including an outbreak in which more than 50 people were infected. To gather epidemiological data on serovar Agona and to trace the origin of the human infections, 110 serovar Agona isolates isolated from animal, feed, and other sources as well as from humans with cases of salmonellosis of domestic and foreign origin, which were recovered from 1984 to 1999, were analyzed for their pulsed-field gel electrophoresis (PFGE), plasmid, and IS200 profiles and antibiograms. Of these typing methods, PFGE with restriction endonucleases XbaI, BlnI, NotI, and SpeI was the most useful. The PFGE profile of the strain causing an outbreak among cattle in Finland in 1994-1995 was not seen previously. The strain with this profile was later only sporadically found in human infections. The profile of the strain causing the human outbreak in 1999 was not found among isolates from cattle or any other sources. Molecular typing was valuable in showing that although the outbreaks in cattle and humans seemed to be related regionally, they were not related otherwise.
Background: Salmonella serovar Infantis is endemic in Finnish food-producing animals since the 1970s. The purpose of this study was to describe the molecular epidemiology of the infection in cattle during , to follow the persistence of the feed-related outbreak strain from 1995 in the cattle population, and to analyse the stability of XbaI-banding patterns in individual herds during long-lasting infections.
Salmonella Typhimurium DT1 is endemic to Finland and has caused human outbreaks since the 1960s. Domestic DT1 isolates (n=235) from 1972 to 1999 from human cases, animals and other sources, as well as foreign DT1 isolates from human cases (n=20) were analysed by molecular methods. Pulsed-field gel electrophoresis (PFGE) yielded 38 XbaI profiles. Of these, XbaI profile 10 was seen in 49% (125/255) of the isolates. Twelve IS200 profiles were obtained; the most common IS200 profile D was seen in 64% (33/52) of the isolates. Two clusters were formed by compilation of the XhaI-, BlnI- and SpeI-PFGE and IS200 profiles and possession of the serovar-specific virulence plasmid. The major cluster contained eight IS200 profiles, including IS200 profile D and XhaI profile 10, and had no virulence plasmid, and can be regarded as typical of the endemic Typhimurium DT1 infection.
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