Antimicrobial Resistance and Virulence-Associated Traits of Campylobacter jejuni Isolated From Poultry Food Chain and Humans With Diarrhea

The objective of this study was to test the prevalence of virulence-associated markers and antimicrobial resistance in 624 C. jejuni isolated from poultry food chain, i. e., chicken feces (n = 160), poultry carcasses (n = 157), poultry meat (n = 152) and from humans (n = 155). All human strains were positive for 9 out of 13 putative virulence genes responsible for expression of pathogenic factors involved in different stages of the infection. The presence of all markers was also high in strains from chicken feces, carcasses and meat although not all of them were identified in 100% of the isolates. On the other hand, the virB11, wlaN, and iam putative pathogenic genes were detected in only 1.9, 15.2, and 20.5% of strains, respectively. C. jejuni isolates, irrespective of the origin, were highly resistant to ciprofloxacin (92.5% isolates), followed by nalidixic acid (88.9%) and tetracycline (68.4%). In case of ciprofloxacin, significantly more isolates from poultry feces, carcasses and meat were resistant than those obtained from humans and the same relationship was observed for tetracycline where the isolates from chicken feces were more often resistant than C. jejuni of carcasses and meat origin. A low number of strains was resistant to streptomycin (18.4% isolates) and only 5 strains (0.8%) displayed resistance to erythromycin. A relationship between resistance to fluoroquinolones and presence of selected pathogenic markers was observed, e.g., from 83.3% strains with the virB11 to 93.4% with the docA genes were resistant to ciprofloxacin. The isolates that did not possess any of the pathogenic traits were also mainly resistant to this antimicrobial, although the number of such strains was usually low, except virB11 (612 isolates), wlaN (529 strains), and iam (496 isolates). Furthermore, resistance to tetracycline was somehow associated with the presence of the virulence associated genes wlaN and virB11 (56.8 and 75.0% isolates, respectively). The present study shows a high antimicrobial resistance to quinolones and tetracycline of C. jejuni isolated along poultry food chain and from patients with diarrhea, which was closely correlated with the presence of several virulence genes playing a role in the pathogenesis of Campylobacter infection

flaA-SVR Based Genetic Diversity of Multiresistant Campylobacter jejuni Isolated From Chickens and Humans

Campylobacter jejuni is one of the most common causes of human foodborne bacterial infections worldwide. The objective of this study was to assess the molecular diversity, using flaA sequencing, of 602 C. jejuni isolated from chicken food chain, i.e., chicken feces (n = 151), chicken carcasses (n = 150), chicken meat (n = 150), and from humans (n = 151) and to determine antimicrobial multiresistant profiles of the isolates as well as to analyze the relationship of the isolate genotypes with their antimicrobial resistance profiles and source of isolation. Multidrug resistant patterns were identified in 110 (18.3%) C. jejuni isolates recovered from all sources and most isolates were resistant to ciprofloxacin (CIP), nalidixic acid (NAL), streptomycin (STR), and tetracycline (TET) (92; 15.3%) or ciprofloxacin, streptomycin, and tetracycline (13; 2.2%). Only a few isolates were multiresistant to ciprofloxacin, nalidixic acid, tetracycline, and erythromycin (3; 0.5%) or ciprofloxacin, nalidixic acid, streptomycin, tetracycline, and erythromycin (2; 0.3%). A total of 79 flaA-SVR subtypes were identified, including 40 (50.6%) unique to the isolates’ origins, with the most common sequence types 16, 54, 36, 34, and 287 which covered 56 (9.3%), 50 (8.3%), 48 (8.0%), 35 (5.8%), and 32 (5.3%) of C. jejuni isolates, respectively. It was found that 13 isolates had the novel flaA-SVR subtypes which were not present in the pubMLST database. These isolates were recovered from chicken feces (6 isolates), carcasses (2 isolates), meat (one isolate) and from humans (4 isolates). Multiresistant C. jejuni were classified into 26 different sequence subtypes. Among the most numerous multidrug resistant profile CIP+NAL+STR+TET 21 different flaA-SVR subtypes, with total of 92 isolates, were identified. Most of them were classified to 287 (18; 19.6% isolates), 100 (13; 14.1%), 34 (9; 9.8%), 208 (8; 8.7%), and 781 (8; 8.7%) molecular variants. Isolates resistant to CIP, STR and TET (13 isolates) were mainly from chicken feces (12 isolates) and classified into 5 flaA-SVR sequence types, with the most common 36 (8 isolates). The obtained results show a broad molecular diversity of multiresistant C. jejuni isolates and suggest chickens as a possible source of human Campylobacter infections in Poland

Genomic Analysis of Corynebacterium diphtheriae Strains Isolated in the Years 2007–2022 with a Report on the Identification of the First Non-Toxigenic tox Gene-Bearing Strain in Poland

Infections caused by non-toxigenic Corynebacterium diphtheriae have been reported every year in Poland since 2004, with the ST8 biovar gravis strains being most commonly isolated. This study analyzed thirty strains isolated between 2017 and 2022 and six previously isolated strains. All the strains were characterized using classic methods in terms of species, biovar level, and diphtheria toxin production, as well as by means of whole genome sequencing. The phylogenetic relationship based on SNP analysis was determined. The number of C. diphtheriae infections has been rising in Poland every year with a maximum of 22 cases in the year 2019. Since 2022, only the non-toxigenic gravis ST8 (most common) and mitis ST439 (less common) strains have been isolated. An analysis of the genomes of the ST8 strains showed that they had many potential virulence factors, such as adhesins and iron-uptake systems. The situation rapidly changed in 2022 and strains from different STs were isolated (ST32, 40, and 819). The ST40 biovar mitis strain was found to be non-toxigenic tox gene-bearing (NTTB), with the tox gene inactivated due to a single nucleotide deletion. Such strains were previously isolated in Belarus. The sudden appearance of new C. diphtheriae strains with different STs and the isolation of the first NTTB strain in Poland indicate that C. diphtheriae should be classified as a pathogen of special public health concern

MLST-based genetic relatedness of Campylobacter jejuni isolated from chickens and humans in Poland.

Campylobacter jejuni infection is one of the most frequently reported foodborne bacterial diseases worldwide. The main transmission route of these microorganisms to humans is consumption of contaminated food, especially of chicken origin. The aim of this study was to analyze the genetic relatedness of C. jejuni from chicken sources (feces, carcasses, and meat) and from humans with diarrhea as well as to subtype the isolates to gain better insight into their population structure present in Poland. C. jejuni were genotyped using multilocus sequence typing (MLST) and sequence types (STs) were assigned in the MLST database. Among 602 isolates tested, a total of 121 different STs, including 70 (57.9%) unique to the isolates' origin, and 32 STs that were not present in the MLST database were identified. The most prevalent STs were ST464 and ST257, with 58 (9.6%) and 52 (8.6%) C. jejuni isolates, respectively. Isolates with some STs (464, 6411, 257, 50) were shown to be common in chickens, whereas others (e.g. ST21 and ST572) were more often identified among human C. jejuni. It was shown that of 47 human sequence types, 26 STs (106 isolates), 23 STs (102 isolates), and 29 STs (100 isolates) were also identified in chicken feces, meat, and carcasses, respectively. These results, together with the high and similar proportional similarity indexes (PSI) calculated for C. jejuni isolated from patients and chickens, may suggest that human campylobacteriosis was associated with contaminated chicken meat or meat products or other kinds of food cross-contaminated with campylobacters of chicken origin. The frequency of various sequence types identified in the present study generally reflects of the prevalence of STs in other countries which may suggest that C. jejuni with some STs have a global distribution, while other genotypes may be more restricted to certain countries

Zakażenia krzyżowe Pseudomonas aeruginosa u pacjentów z mukowiscydozą pozostających pod opieką Instytutu Matki i Dziecka

Aim: 1. To assess the prevalence of cross-infections with P. aeruginosa in order to evaluate the epidemiological situation of this infection in patients with cystic fibrosis attending our centre; 2. To correlate the clinical features of the patients carrying a potentially transmissible strain with the entire study group in order to determine the risk factors and possible effects of its acquisition. Material and methods: 170 Pseudomonas aeruginosa strains obtained from the respiratory tract of 75 cystic fibrosis patients attending the Warsaw Centre in 2011 and 2012 were typed using restriction enzyme analysis-pulsed field gel electrophoresis (Spe I restriction enzyme was used). Simultaneously, the information concerning contacts between patients, as well as several clinical data regarding the course of the disease were collected. Results: Twenty four clusters of strains were detected. The main cluster included 49 isolates derived from 21 patients. The other detected clusters included 2 to 12 isolates derived from 1 to 7 patients. Three clusters comprised the isolates derived from three pairs of siblings. There were 15 clusters containing 2 to 7 strains belonging to the same patient. The remaining 24 patients were infected with their own strains, not fitting any clonal group. Several clinical parameters showed that the 21 patients whose strains constituted the main cluster, were in worse clinical condition than the other patients in the study group. Moreover, the total duration of their hospitalizations in order to perform intravenous antibiotic treatment was longer. Conclusions: 1. Frequent hospitalizations of CF patients with a more severe course of the disease seem to be a risk factor of cross-infections with P. aeruginosa. 2. Intensification of measures to prevent cross-infection, such as hygienic precautions, patient segregation, introduction of home intravenous antibiotic therapy programme, as well as further education of patients and their parents should lead to the improvement of the epidemiological situation in our centre.Cel: 1. Ocena częstości występowania zakażeń krzyżowych Pseudomonas aeruginosa i ich możliwych konsekwencji klinicznych u pacjentów chorujących na mukowiscydozę leczonych w naszym ośrodku; 2. Porównanie cech klinicznych grupy pacjentów, u których doszło do zakażenia krzyżowego z cechami klinicznymi całej grupy badanej, w celu określenia czynników ryzyka i możliwych skutków takiego zakażenia. Materiał i metody: 170 szczepów Pseudomonas aeruginosa wyizolowanych w latach 2011-2012 z dróg oddechowych 75 pacjentów z mukowiscydozą pozostających pod opieką Instytutu Matki i Dziecka typowano metodą makrogenomowej analizy restrykcyjnej z elektroforezą w zmiennym polu elektrycznym (z wykorzystaniem endonukleazy Spe I). Zbierano wywiady dotyczące najważniejszych parametrów klinicznych, a także kontaktów pomiędzy pacjentami. Wyniki: W toku analizy wyodrębniono 24 grupy klonalne. Największa grupa zawierała 49 izolatów pochodzących od 21 chorych. Inne grupy obejmowały od 2 do 12 izolatów pochodzących od 1 do 7 pacjentów. Trzy grupy zawierały szczepy pochodzące od trzech rodzeństw. Piętnaście grup klonalnych obejmowało od 2 do 7 szczepów należących do tego samego pacjenta. Pozostałych 24 pacjentów było zakażonych szczepami, nie należącymi do żadnej grupy klonalnej. Ocena parametrów klinicznych wykazała, że przebieg choroby u 21 pacjentów, których szczepy stanowiły największą grupę klonalną, był cięższy niż u pozostałych pacjentów w grupie badanej. Także łączny czas trwania ich hospitalizacji (antybiotykoterapii dożylnych) był dłuższy. Wnioski: 1. Częste hospitalizacje pacjentów z mukowiscydozą w gorszym stanie klinicznym wydają się być istotnym czynnikiem ryzyka zakażeń krzyżowych Pseudomonas aeruginosa. 2. Intensyfikacja działań zapobiegających zakażeniom krzyżowym, takich jak środki higieny, izolacja chorych, wprowadzenie w Polsce programu domowej antybiotykoterapii dożylnej, a także dalsza edukacja pacjentów i ich rodziców odnośnie dróg transmisji zakażeń bakteryjnych, prawdopodobnie przyczynią się do poprawy sytuacji epidemiologicznej w naszym ośrodku

Table_1_Antimicrobial Resistance and Virulence-Associated Traits of Campylobacter jejuni Isolated From Poultry Food Chain and Humans With Diarrhea.DOCX

<p>The objective of this study was to test the prevalence of virulence-associated markers and antimicrobial resistance in 624 C. jejuni isolated from poultry food chain, i. e., chicken feces (n = 160), poultry carcasses (n = 157), poultry meat (n = 152) and from humans (n = 155). All human strains were positive for 9 out of 13 putative virulence genes responsible for expression of pathogenic factors involved in different stages of the infection. The presence of all markers was also high in strains from chicken feces, carcasses and meat although not all of them were identified in 100% of the isolates. On the other hand, the virB11, wlaN, and iam putative pathogenic genes were detected in only 1.9, 15.2, and 20.5% of strains, respectively. C. jejuni isolates, irrespective of the origin, were highly resistant to ciprofloxacin (92.5% isolates), followed by nalidixic acid (88.9%) and tetracycline (68.4%). In case of ciprofloxacin, significantly more isolates from poultry feces, carcasses and meat were resistant than those obtained from humans and the same relationship was observed for tetracycline where the isolates from chicken feces were more often resistant than C. jejuni of carcasses and meat origin. A low number of strains was resistant to streptomycin (18.4% isolates) and only 5 strains (0.8%) displayed resistance to erythromycin. A relationship between resistance to fluoroquinolones and presence of selected pathogenic markers was observed, e.g., from 83.3% strains with the virB11 to 93.4% with the docA genes were resistant to ciprofloxacin. The isolates that did not possess any of the pathogenic traits were also mainly resistant to this antimicrobial, although the number of such strains was usually low, except virB11 (612 isolates), wlaN (529 strains), and iam (496 isolates). Furthermore, resistance to tetracycline was somehow associated with the presence of the virulence associated genes wlaN and virB11 (56.8 and 75.0% isolates, respectively). The present study shows a high antimicrobial resistance to quinolones and tetracycline of C. jejuni isolated along poultry food chain and from patients with diarrhea, which was closely correlated with the presence of several virulence genes playing a role in the pathogenesis of Campylobacter infection.</p

Epidemiological and microbiological investigation of a large increase in vibriosis, northern Europe, 2018

Background Vibriosis cases in Northern European countries and countries bordering the Baltic Sea increased during heatwaves in 2014 and 2018. Aim We describe the epidemiology of vibriosis and the genetic diversity of Vibrio spp. isolates from Norway, Sweden, Denmark, Finland, Poland and Estonia in 2018, a year with an exceptionally warm summer. Methods In a retrospective study, we analysed demographics, geographical distribution, seasonality, causative species and severity of non-travel-related vibriosis cases in 2018. Data sources included surveillance systems, national laboratory notification databases and/or nationwide surveys to public health microbiology laboratories. Moreover, we performed whole genome sequencing and multilocus sequence typing of available isolates from 2014 to 2018 to map their genetic diversity. Results In 2018, we identified 445 non-travel-related vibriosis cases in the study countries, considerably more than the median of 126 cases between 2014 and 2017 (range: 87–272). The main reported mode of transmission was exposure to seawater. We observed a species-specific geographical disparity of vibriosis cases across the Nordic-Baltic region. Severe vibriosis was associated with infections caused by Vibrio vulnificus (adjOR: 17.2; 95% CI: 3.3–90.5) or Vibrio parahaemolyticus (adjOR: 2.1; 95% CI: 1.0–4.5), age ≥ 65 years (65–79 years: adjOR: 3.9; 95% CI: 1.7–8.7; ≥ 80 years: adjOR: 15.5; 95% CI: 4.4–54.3) or acquiring infections during summer (adjOR: 5.1; 95% CI: 2.4–10.9). Although phylogenetic analysis revealed diversity between Vibrio spp. isolates, two V. vulnificus clusters were identified. Conclusion Shared sentinel surveillance for vibriosis during summer may be valuable to monitor this emerging public health issue