Faecal carriage of salmonella was investigated in 320 hedgehogs from Moss municipality in south-eastern Norway, Askøy, Bergen and Os municipalities in central-western Norway, and five municipalities in south-western and central Norway. The sampling in Moss was carried out 1 year after a human outbreak of salmonellosis, whereas the sampling in Askøy, Bergen and Os was carried out during a human outbreak. Both outbreaks were caused by Salmonella Typhimurium 4,5,12:i:1,2. No salmonella were detected in the hedgehogs from south-western (0/115) and central (0/24) Norway. Thirty-nine percent (39/99) of the animals sampled on Jeløy, and 41% (34/82) of those from Askøy, Bergen and Os, carried S. Typhimurium 4,5,12:i:1,2. The PFGE profile of isolates from hedgehogs and human beings were identical within each of the two outbreak areas. A significantly higher carrier rate of S. Typhimurium occurred among hedgehogs sampled at feeding places, compared to those caught elsewhere. The salmonella-infected hedgehog populations most likely constituted the primary source of infection during both of the human disease outbreaks, and the Norwegian hedgehog is suggested as a reservoir host of S. Typhimurium 4,5,12:i:1,2.
Septicemic salmonellosis caused by Salmonella Typhimurium 4, 12: i:1, 2 was diagnosed in 94 (64.8%) of 145 small passerines comprising nine species, examined in Norway during 1999-2000. The birds were found dead at private feeding places throughout the country. The bullfinch (Pyrrhula pyrrhula), Eurasian siskin (Carduelis spinus), common redpoll (Carduelis flammea), and Eurasian greenfinch (Carduelis chloris) were the most frequently affected species. Pathologic findings in 94 carcasses included poor body condition (84%), enlarged spleen (73%), and necrosis of crop/esophagus (78%), liver (53%), spleen (46%), proventriculus (13%), and intestine (5.3%). Histologically, necrosis consisted of debris, fibrin, inflammatory cells, and aggregates of Gram-negative bacteria and occasionally giant cells. Based on information from questionnaires sick and dead birds were observed at feeding places from December to June, with a distinct peak during February and March. The duration of recorded outbreaks varied from less than 1 wk to 4 mo. In a separate study, 1,990 apparently healthy passerines caught at feeding places established for bird-ringing purposes were surveyed for cloacal carriage of Salmonella spp. Forty (2.0%) of the birds examined, representing sampling sites both in southern and northern parts of the country, harbored S. Typhimurium 4, 12: i:1, 2 in their intestines. The carrier species largely reflected the species most often suffering from fatal infection.
The molecular epidemiology of 142 isolates of Salmonella enterica serovar Typhimurium from avian wildlife, domestic animals, and the environment in Norway was investigated using pulsed-field gel electrophoresis (PFGE) and computerized numerical analysis of the data. The bacterial isolates comprised 79 isolates from wild-living birds, including 46 small passerines and 26 gulls, and 63 isolates of nonavian origin, including 50 domestic animals and 13 environmental samples. Thirteen main clusters were discernible at the 90% similarity level. Most of the isolates (83%) were grouped into three main clusters. These were further divided into 20 subclusters at the 95% similarity level. Isolates from passerines, gulls, and pigeons dominated within five subclusters, whereas isolates from domestic animals and the environment belonged to many different subclusters with no predominance. The results support earlier results that passerines constitute an important source of infection to humans in Norway, whereas it is suggested that gulls and pigeons, based on PFGE analysis, represent only a minor source of human serovar Typhimurium infections. Passerines, gulls, and pigeons may also constitute a source of infection of domestic animals and feed plants or vice versa. Three isolates from cattle and a grain source, of which two were multiresistant, were confirmed as serovar Typhimurium phage type DT 104. These represent the first reported phage type DT 104 isolates from other sources than humans in Norway.
The molecular epidemiology of 98 isolates of Salmonella serovar Agona (n = 27), S. Montevideo (n = 42) and S. Senftenberg (n = 29) from wild-living gulls, fish-meal factories, feed factories, humans and domestic animals was investigated using pulsed-field gel electrophoresis (PFGE) and computerized numerical analysis. Two of the S. Agona profiles were identified both in gulls and in two of the factories. In addition, one of these profiles was detected in two infected poultry farms. Two of the S. Montevideo profiles were also identified both in gulls and in two of the factories, and one of these profiles was observed in a human isolate. Four factories shared an identical S. Senftenberg profile. The S. Senftenberg profile found in gulls was not identified in any other source investigated. The presence of isolates with identical PFGE profiles indicates potential epidemiological links between different factories, as well as between gulls and factories.
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