Investigation into an unusual increase of human cases of Salmonella Goldcoast infection in Hungary in 2009.

We describe the outbreak investigation associated with an unusual increase in Salmonella Goldcoast cases in Hungary observed in autumn 2009, which included descriptive and analytical epidemiological studies and microbiological and veterinary investigations. Sixty cases were identified between 1 January 2009 and 1 March 2010, 50 of them from late July 2009 to January 2010. Of 50 S. Goldcoast isolates, 44 showed an indistinguishable pulsed-field gel electrophoresis profile. We conducted a matched case-control study that indicated a statistically significant association between S. Goldcoast infection and the consumption of pork cheese. The majority of cases (seven of nine) reporting consumption of this product belonged to a single family cluster. After removing six cases of this cluster, pork cheese still showed an elevated but non-significant risk for being a case in the univariable analysis (Mantel-Haenszel odds ratio (MH OR): 3.87, 95% confidence interval (CI): 0.38-39.47). A single S. Goldcoast isolate was identified during routine veterinary surveillance activities in 2009 in minced beef from a butcher's shop, originating from an abattoir where also pigs were slaughtered. We conclude that the outbreak was probably due to multiple sources of contaminated meat, probably pork, released on the market over a period of several months in 2009.

Multidrug resistant clones of Salmonella Infantis of broiler origin in Europe.

The aim of the study was to investigate the potential spread of the previously described multidrug-resistant (MDR) Hungarian clone of Salmonella Infantis of broiler origin in Europe. Therefore, 76 strains isolated between 2004 and 2009 from raw meat and fecal samples of broiler origin in nine European countries - including Hungary - were examined by phage typing, antimicrobial resistance typing, pulsed-field gel electrophoresis (PFGE) profile and plasmid analysis. The strains could be divided into two large PFGE clusters with 92% similarity. Cluster A (n=39) contained 15 German, seven Italian, five British, five Polish isolates, one Austrian and one Hungarian isolate. Five Hungarian isolates that were isolated prior to the appearance of the MDR clone also belonged to this cluster. Strains of this cluster comprised seven pulsotypes and 14 different phage types and were mostly susceptible to the 12 antimicrobials tested. Cluster B (n=33) contained all but one of the recent Austrian (n=14) and of Hungarian (n=9), six Polish, one Italian and one German as well as the single Turkish and the Romanian strains, representing five pulsotypes. The strains of this cluster were mostly PT213, with MDR (nalidixic acid-streptomycin-sulphomamide-tetracycline), and the carriage of the same class 1 integron located on a large plasmid (>168kb) characteristic of the current predominant Hungarian clone. The results suggest that two large related clusters (A and B) of S. Infantis isolates can be found in various European countries, of which Austrian and Polish MDR clones of cluster B are identical with, or closely related to, the dominant Hungarian clone. The emergence of a few dominant MDR S. Infantis clones in broilers reported here, raises the possibility that further dissemination of such clones in broilers and in broiler meat may occur and represent a potential threat to public health in Europe.

Characterisation of verotoxin-producing Escherichia coli strains isolated from human patients in Hungary over a 7-year period.

The purpose of this study was to characterise verotoxigenic Escherichia coli (VTEC) strains isolated in Hungary from 2000 to 2006. Altogether, 33 human VTEC strains were investigated to define the O:H antigens, verotoxin 1, 2 (vtx1 and 2), intimin (eae), enteroaggregative heat-stable toxin (ast1), autoagglutinating adhesin (saa) and enterohaemolysin (ehlyA) genes and sensitivity to 11 antimicrobial agents. The strains belonged to 14 different O:H serotypes, among which O157:NM (non-motile) was the most prevalent (45%, 15/33). Patients infected with O157 more often presented bloody diarrhoea or haemorrhagic colitis (63%, 12/19) than those infected with non-O157 (46%, 6/14). Haemolytic uraemic syndrome evolved in two patients infected with O26:H11. The vtx1vtx2c toxin gene combination was found in 58% (11/19) and vtx2c alone in 31% (6/19) of the O157 strains. All of the O157 strains possessed gamma1, while two O26 strains had the beta1 intimin gene. Twenty strains (75%, 25/33) carried the ehlyA gene and five non-O157 strains had ast1. The majority of the strains (76%) were resistant to at least one antimicrobial agent, but none of them showed the extended-spectrum beta-lactamase (ESBL) phenotype.

Prevalence and characterization of Salmonella infantis isolates originating from different points of the broiler chicken-human food chain in Hungary.

During the 10-month study period Salmonella contamination of broiler houses and the flocks reared in three farms (A, B and C), the slaughter houses where the flocks were slaughtered, as well as the carcass and retail raw meat products originating from them was investigated. In the broiler farm A five consecutive flocks, in the B and C farms one flock was sampled. Environmental samples were taken prior to the introductions. Environmental, drinking water, feed and faecal samples were collected regularly using standard methods. Before and during processing of the flocks, environmental and carcass samples were taken at the abattoirs. Salmonella contamination of the carcass, retail meat, as well as stool samples of farm and abattoir workers and from human illnesses registered in the same period and region were also examined. Isolation, sero-, phage- and antibiotic resistance typing, class 1 integron and plasmid profiling of the strains were performed; their genetic relationship was assessed by PFGE. Although the broiler house and the faecal samples of the 5 flocks of the farm A were negative for Salmonella, S. infantis was isolated from 20-100% of the abattoir carcass samples. The retail raw meat samples were 0-100% S. infantis positive. The environmental samples of farm B were Salmonella negative, but the examined flock was contaminated: S. infantis was identified from 43% of the faecal samples. This serotype was identified in 100% of the carcass and retail raw meat samples. From environmental samples taken before the arrival of the 1-day-old chicks in the broiler house C, S. infantis was cultured. S. infantis prevalence in the faecal samples was 35% and all the carcass and retail raw meat samples were S. infantis contaminated. Altogether 164 S. infantis strains were isolated out of which 145 were further characterized. The vast majority (142/145) of the strains belonged to phage types 217 and 213. All but one were characterized by the nalidixic acid-streptomycin-sulphonamide-tetracycline resistances, had an 885 bp class 1 integron and a large plasmid of > 168 kb in size. The strains showed > or = 88.7% genetic similarity. The results obtained shows that the same multi-drug resistant S. infantis clone was spread from the examined broiler farms contaminating the slaughter and the retail meat and appeared in the human illnesses of the examined region that was earlier detected as the dominant clone characteristic of the broiler and human population of the whole country.

Novel PCR assay for identification of Salmonella enterica serovar Infantis.

AIMS: We developed, optimized and tested two novel PCR assays specific for Salmonella enterica subspecies enterica serovar Infantis. METHODS AND RESULTS: The fljB gene was chosen as the target sequence. Primers were designed on a consensus sequence built by sequencing the fljB gene of five genetically unrelated Hungarian S. Infantis strains and using sequence data from the GenBank (http://www.ncbi.nih.gov). Two alternative assays were designed, which share the reverse primer. Both proved to be highly specific to S. Infantis, neither reacted with 42 other nontyphoidal serovariants tested. The detection limit of the assays was determined to be 10(5) CFU ml(-1) from pure culture, and 10(6) CFU g(-1) from artificially spiked chicken faeces samples. CONCLUSIONS: Although the detection limit is rather high to allow for using them for direct detection, the assays may be useful in identification of S. Infantis both for diagnostic and for research purposes. SIGNIFICANCE AND IMPACT OF THE STUDY: The described PCR assays allow for the correct identification of S. Infantis even when traditional serotyping methods fail because lack of expression of flagellar antigens.

Phenotypic and genetic characterization of enteropathogenic Escherichia coli (EPEC) and entero-aggregative E. coli (EAEC) from diarrhoeal and non-diarrhoeal children in Libya.

A total of 50 Escherichia coli strains isolated in a Libyan hospital (20 from children with diarrhoea and 30 from healthy children) were investigated for their pathotypes and virulence traits. Altogether nine eae-positive (enteropathogenic E. coli, EPEC) and nine aggR-positive (entero-aggregative E. coli, EAEC) strains were identified. Significantly (P=0.001) more EPEC strains were identified from diarrhoeal patients (n=8) than from healthy controls (n=1), while six EAEC strains were identified from diarrhoeal and three from healthy children. Typical (eae(+), EAF(+), bfp(+)) EPEC strains (n=6) belonged to classical EPEC serogroups O55, O114, O127 and showed localized adherence on Hela cells. EAEC strains revealed genetic heterogeneity but uniformly adhered to HeLa cultures in an entero-aggregative adherence pattern. Antibiotic resistance frequently, characterized the strains. Sixty-eight percentage of the strains were resistant against at least one antibiotic and 30% harbored a class 1 integron independently of their clinical background. This is the first report from North Africa demonstrating the significance of EPEC and EAEC.

Development of ELISA and enzyme-linked immunofiltration assay (ELIFA) methods for monitoring cyclodextrin glycosyltransferase (CGTase) production and bacterial growth in Bacillus macerans batch cultures.

Immunochemical methods were developed for monitoring cyclodextrin (CD) glycosyltransferase (CGTase) production and growth of an industrial CD-producing Bacillus macerans strain. Extracellular concentrations of CGTase released into a non-transparent culture medium during a 44 h long fermentation were detected by an indirect antigen inhibition enzyme-linked immunosorbent assay (ELISA). The ELISA was sensitive (minimal detection level 6 ng ml-1) and highly reproducible (coefficients of variation < or = 1.2 and 5.9%, within-runs and between-runs, respectively) compared to assays of CGTase activity (coefficients of variation < or = 4.2 and 7.0%, respectively). The ELISA, in combination with enzyme activity measurements, was useful to detect the decrease in the specific CGTase activities after 36 h of incubation, which was clearly indicative of the proteolytic degradation of CGTase. B. macerans cell numbers were estimated using an enzyme-linked immunofilter assay (ELIFA). The assay took less than 1 h and the coefficients of variation within and between-runs (2.9-6.4%) were considerably less than for viable counting (10.6-15.4%). In the exponential phase of growth, ELIFA results correlated more closely with the cell counting based on total protein than with viable counts. Nevertheless, in the phase of cell lysis, the bacterial cell number was systematically underestimated by ELIFA in comparison to both viable cell number and total protein determinations. Thus cell antigens detected with immunological procedures might be lost during the transition from vegetative cells to spores. On the other hand, the ELIFA procedure was specific for B. macerans cells and was a better indicator of the onset of the different growth phases than the cell numbers calculated from the protein assay.

Cyclodextrin glycosyltransferase may be the only starch-degrading enzyme in Bacillus macerans.

Cyclodextrin glycosyltransferase (CGTase) was released into the culture fluid by Bacillus macerans predominantly in the late stationary phase of growth and during autolysis in the presence of either glucose or starch as a carbon source. In both cases significant soluble intracellular enzyme activity could be observed in the early stationary phase, and a low non-soluble intracellular CGTase activity could be demonstrated also in the exponential growth phase in the presence of starch. At the end of the exponential phase the non-soluble specific intracellular enzyme activity was found to be constant with a value of 0.63 +/- 0.06 nkat/10(9) viable cells. Since amylase activity could not be detected in any intracellular or extracellular sample taken at any culture time, we conclude that cellbound CGTase is the only starch-digesting enzyme in growing B. macerans and, hence, may be fully responsible for the degradation of starch in the culture fluid.