Genomics to detect transmission of livestock-associated methicillin-resistant Staphylococcus aureus from UK pigs in abattoirs during slaughter.

BACKGROUND: Livestock-associated MRSA (LA-MRSA) transmission/cross-contamination can occur at abattoir through colonized pigs, increasing occupational hazards and health concerns for workers. To assess this risk we used genomics to identify LA-MRSA lineages present in batches of pigs sent to slaughter and distribution of clones. METHODS: WGS was performed on 85 LA-MRSA previously isolated from six abattoirs from 105 batches of pigs sent from 100 UK farms. spa typing and MLST were performed on all isolates. A mashtree tree was constructed to compare genomes of the LA-MRSA with 1281 global isolates from livestock and humans. A phylogenetic tree and pairwise SNP distance matrices were built from whole genomes of 109 isolates closest to those from abattoirs to compare evolutionary relationships and identify clones. RESULTS: All abattoir isolates belonged to CC398 and were mainly of spa type t011, although other spa types were present. Phylogenetic analysis confirmed the abattoir isolates were most closely related to each other and to pig LA-MRSA from across Europe, indicating a common evolutionary origin with related lineages colonizing UK pigs.Comparison of genomes using SNPs suggested between one and four clones were transferring between pigs from different batches. Transmission likely occurred on farm premises, during transportation, and/or within abattoirs through contact with contaminated surfaces in lairage or post-stunning. CONCLUSIONS: Genomics forensically identified related isolates/clones circulating in pigs at slaughter, showing contamination occurs often. Results suggest that further genomic tracking will identify hotspots, and improvements in measures such as biosecurity and disinfection will help reduce risk for workers.

Genomic surveillance of extended-spectrum cephalosporin-resistant Escherichia coli isolated from poultry in the UK from 2016 to 2020.

Introduction: Surveillance is vital for monitoring the increasing risk of antimicrobial resistance (AMR) in bacteria leading to failures in humans and animals to treat infections. In a One Health context, AMR bacteria from livestock and food can transfer through the food chain to humans, and vice versa, which can be characterized in detail through genomics. We investigated the critical aspects of AMR and the dynamics of AMR in poultry in the UK. Methods: In this study, we performed whole genome sequencing for genomic characterization of 761 extended-spectrum cephalosporinases (ESCs) harboring Escherichia coli isolated from poultry caeca and meat through EU harmonized monitoring of AMR in zoonotic and commensal bacteria from 2016 and 2018 and UK national monitoring in 2020. Results: The most common ESC in 2016 and 2018 was blaCTX-M-1; however, 2020 had a greater diversity of ESCs with blaCTX-M-55 dominant in chickens and blaCTX-M-15 more prevalent in turkeys. Co-resistance to sulphonamides, tetracycline, and trimethoprim was widespread, and there were several positive correlations between the sequence types (STs) and ESC genes. We identified certain AMR genotypes and STs that were frequent each year but not as successful in subsequent years, e.g., ST350 harboring blaCTX-M-1, sul2, and tetA-v4.Phylogenetic comparison of isolates prevalent in our panel with global ones from the same STs available in public databases showed that isolates from the UK generally clustered together, suggesting greater within-country than between-country transmission. Discussion: We conclude that future genomic surveillance of indicator organisms will be invaluable as it will enable detailed comparisons of AMR between and within neighboring countries, potentially identifying the most successful sequence types, plasmids, or emerging threats.

Occurrence and characterization of mcr-1-harbouring Escherichia coli isolated from pigs in Great Britain from 2013 to 2015.

Objectives: To determine the occurrence of mcr-1 -harbouring Escherichia coli in archived pig material originating in Great Britain (GB) from 2013 to 2015 and characterize mcr-1 plasmids. Methods: Enrichment and selective culture of 387 archived porcine caecal contents and recovery from archive of 1109 E. coli isolates to identify colistin-resistant bacteria by testing for the presence of mcr-1 by PCR and RT-PCR. mcr-1 -harbouring E. coli were characterized by WGS and compared with other available mcr-1 WGS. Results: Using selective isolation following enrichment, the occurrence of mcr-1 E. coli in caeca from healthy pigs at slaughter from unique farms in GB was 0.6% (95% CI 0%-1.5%) in 2015. mcr-1 E. coli were also detected in isolates from two porcine veterinary diagnostic submissions in 2015. All isolates prior to 2015 were negative. WGS analysis of the four mcr-1 -positive E. coli indicated no other antimicrobial resistance (AMR) genes were linked to mcr-1 -plasmid-bearing contigs, despite all harbouring multiple AMR genes. The sequence similarity between mcr-1 -plasmid-bearing contigs identified and those found in GB, Chinese and South African human isolates and Danish, French and Estonian livestock-associated isolates was 90%-99%. Conclusions: mcr-1- harbouring plasmids were diverse, implying transposable elements are involved in mcr-1 transmission in GB. The low number of mcr-1 -positive E. coli isolates identified suggested mcr-1 is currently uncommon in E. coli from pigs within GB. The high sequence similarity between mcr-1 plasmid draft genomes identified in pig E. coli and plasmids found in human and livestock-associated isolates globally requires further investigation to understand the full implications.

Detection of antibiotic residues and association of cefquinome residues with the occurrence of Extended-Spectrum ß-Lactamase (ESBL)-producing bacteria in waste milk samples from dairy farms in England and Wales in 2011.

Waste milk samples from 103 farms in England and Wales were examined for the presence of ß-lactam antibiotics and ESBL-producing Enterobacteriaceae. Approximately 10 months after the initial sampling, further waste milk, environmental and faecal samples from farms shown to be positive for CTX-M Escherichia coli were investigated further. Isolates with an ESBL phenotype were tested by PCR for the presence of blaCTX-M, blaOXA, blaSHV and blaTEM genes. Isolates positive for blaCTX-M were sequenced to determine CTX-M type. Representative isolates were further examined by PFGE, plasmid replicon typing and serotyping. Of particular interest, 21.4% of waste milk samples contained residues of the cephalosporin cefquinome, which was significantly associated with CTX-M bacteria. Such bacteria occurred in 5.8% of the waste milk samples (including 3.9% CTX-M E. coli). CTX-M types identified were 1, 14, 14b and 15, but none of the E. coli were serotype O25, the serotype of the human pandemic strain.

Molecular and phenotypic characterisation of extended spectrum ß-lactamase CTX-M Escherichia coli from farm animals in Great Britain.

The aim of this study was to characterise CTX-M Escherichia coli isolates from cattle, chickens and turkeys in Great Britain with respect to CTX-M sequence type, replicon type, ability to transfer plasmids, and for the presence of antibiotic resistance, fitness and virulence genes as determined by micro-arrays. The main CTX-M enzymes identified in E. coli from cattle, chicken and turkeys were 14 and 15, 1 and 15, and 1 and 14 respectively. Most isolates from different animal species transferred their plasmids with similar frequencies. The plasmid replicon type I1-λ was most common and seen in 23%, 95% and 50% of the isolates tested from cattle, chickens and turkeys respectively, whilst types F, FIA, FIB and K were common to isolates from cattle and turkeys only. Thirty-eight different antibiotic resistance genes were detected by micro-array including aad genes, blaCTX-M, blaTEM, cat genes dfrA, floR, strA, strB, sul, sul2 tetA and tetB. Thirty-nine different fitness and virulence genes were also detected by-micro-array, including espP, ireA, lpfA, mchF, prfB and tsh. Fisher exact test and hierarchical clustering of the antibiotic resistance and virulence gene results showed some genes were more commonly associated with isolates from chickens or cattle. This study provides a baseline of the characteristics of CTX-M E. coli isolates from animals in Great Britain and suggests that chicken and cattle CTX-M E. coli represent different populations.

Epidemiology of extended spectrum beta-lactamase E. coli (CTX-M-15) on a commercial dairy farm.

The epidemiology of an extended spectrum beta-lactamase Escherichia coli (CTX-M-15) was observed and described on a commercial dairy farm located in the United Kingdom. During 2008 longitudinal sampling of faecal pat samples from different cattle groups comprising milking and non-milking cows, calving cows, calves, and the environment was carried out. The proportion of CTX-M-15 E. coli positive samples was significantly (p<0.0.01) higher in milking cows (30.3%, CI(95%) 26.8; 33.8) than in the herd as a whole (17.0%, CI(95%) 14.9; 19.0). In 2008 95.6% of sampled calves tested positive for CTX-M-15 E. coli at two days of age. A more detailed investigation in 2009 revealed that cows and heifers were approximately eight times more likely to test positive in the 10 days after calving than the 9 days before (OR 7.6, CI(95%) 2.32; 24.9). The CTX-M15 E. coli was also readily isolated from the immediate calving pen environment, including the water troughs. A cyclic pattern was apparent where cows immediately after calving and as high yielders were highly positive, but where the prevalence decreased during the dry period. The increased prevalence of the CTX-M-15 E. coli in certain cattle groups and farm environments including calving pens suggested that husbandry, antimicrobial usage and hygiene may play a significant role on a farm with regards to the epidemiology of CTX-M-15. This may offer a practical opportunity to reduce further dissemination through good practice and hygiene around calving.

Virulence genes in bla(CTX-M) Escherichia coli isolates from chickens and humans.

The aim of this study was to determine the presence of virulence genes in isolates of CTX-M Escherichia coli from diseased chickens, from healthy chickens and from urinary tract infections in people. Three CTX-M E. coli strains from three different instances of disease in poultry (two of which were E. coli related) were tested for bla(CTX-M) sequence type and replicon type. Additionally, they were tested for the presence of 56 virulence genes (encoding fimbriae, adhesins, toxins, microcins and iron acquisition genes) using a micro-array. Results were compared to the virulence genes present in isolates from 26 healthy chickens and from 10 people with urinary tract infections. All genes found in isolates from diseased birds, including the astA (heat stable toxin) and tsh (temperature sensitive haemagglutinin) genes which have previously been associated with colibacillosis in chickens, were also present in isolates from healthy birds. However, 6/10 of the virulence genes found were exclusive to isolates from humans. Genes exclusive to chicken isolates included ireA (sidephore receptor), lpfA (long polar fimbriae), mchF (microcin transporter protein) and tsh whilst genes exclusive to human isolates included ctdB (cytolethal distending toxin), nfaE (non-fimbrial adhesion), senB (plasmid encoded enterotoxin) and toxB (toxin B). The results support previous findings that CTX-M E. coli strains in chickens are generally different from those causing disease in humans, but genes such as astA and tsh in isolates from diseased birds with colisepticaemia were also present in isolates from healthy birds.

Antimicrobial-resistant pathogens in animals and man: prescribing, practices and policies.

This meeting focused on infections in humans and animals due to methicillin-resistant Staphylococcus aureus (MRSA), extended-spectrum beta-lactamase (ESBL)-producing bacteria and Clostridium difficile, and their corresponding treatments. MRSA is predominantly a human pathogen, and molecular typing has revealed that certain clones have spread widely both between humans and from humans to animals. ESBL-producing bacteria, particularly those that express the CTX-M beta-lactamases, have been disseminated worldwide. Whilst such strains are usually isolated from humans, some animal isolates also produce CTX-M enzymes. In humans, one clone of CTX-M-producing Escherichia coli, sequence type (ST)131, has been particularly successful. C. difficile, often ribotype 027, commonly colonizes the hospital environment and causes serious infections in humans. In animals, ribotype 078 is more often found, and is an important cause of diarrhoea in piglets. There is a concern that the numbers of MRSA or other antimicrobial-resistant bacteria might increase further when human isolates become established in animals, as this can amplify the numbers of such bacteria by dissemination within animal groups with subsequent spread back to humans. Certain antimicrobials have been implicated in the selection of MRSA, ESBL-producing bacteria and predisposition to infection by C. difficile. Guidelines for treatment and prevention of infections by MRSA, ESBL-producing bacteria and C. difficile were discussed and evidence-based policies were recommended for both humans and animals.

Primary focal hyperhidrosis: disease characteristics and functional impairment.

BACKGROUND: There are few published data on the clinical characteristics of hyperhidrosis. OBJECTIVE: To describe the functional impairment caused by primary focal hyperhidrosis. METHODS: Patients with hyperhidrosis (n = 345) were enrolled at the Department of Dermatology, University of Würzburg. Controls (n = 154) were a convenience sample of subjects without hyperhidrosis. Hyperhidrosis characteristics, health-related quality of life and functional impairment were assessed. RESULTS: Patients with axillary hyperhidrosis reported a later age at onset and a higher prevalence of a family history of hyperhidrosis than patients with palmar hyperhidrosis. Sixty-three percent of patients reported occupational impairment related to hyperhidrosis. Hyperhidrosis patients reported emotional and physical impairment, with a greater proportion of the axillary group reporting impairment. More than 50% of patients reported moderate to extreme impairment in personal relationships and in social situations. CONCLUSION: Primary focal hyperhidrosis is a serious medical condition, affecting work productivity, daily activities, emotional well-being and personal relationships.