Mette Rørbæk Gantzhorn scite author profile

Mette Rørbæk Gantzhorn

5Publications

75Citation Statements Received

109Citation Statements Given

How they've been cited

How they cite others

139

Affiliations

Danish Agriculture and Food Council, University of Copenhagen

Publications

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Whole-Genome Sequencing to Detect Numerous Campylobacter jejuni Outbreaks and Match Patient Isolates to Sources, Denmark, 2015–2017

Joensen¹,

Kiil²,

Gantzhorn³

et al. 2020

Emerg. Infect. Dis.

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C ampylobacter jejuni is the most frequent cause of bacterial gastroenteritis in industrialized countries worldwide (1,2), including in Denmark, where ≈4,000 Campylobacter infections are reported annually (3). Despite the high notification rates, Campylobacter infections are believed to be highly underdiagnosed (4,5). Denmark's national surveillance system for Campylobacter is based on observation of the number of notified human cases (3); a substantial number of Campylobacter outbreaks may be overlooked because of a lack of routine microbiological typing of isolates. This hypothesis is supported by evidence from a recent study, in which whole-genome sequencing (WGS)-based typing of selected clinical Campylobacter isolates from patients in Denmark identified numerous small outbreak-like clusters (6). This finding suggests that more outbreaks occur in Denmark than the few typically large outbreaks associated with a single event that are detected by the current surveillance system (7-10). To achieve a national surveillance system that will detect ongoing Campylobacter outbreaks in real time, highly discriminatory subtyping of isolates is needed. Thus, we more comprehensively evaluated the frequency of Campylobacter outbreaks among humans in Denmark by using WGS-based typing. To match the clinical isolates with their sources, we compared them with isolates from food and animals, covering the main putative sources of human Campylobacter infections (i.e., contact with or consumption of animals or animal products, primarily contaminated poultry meat). Although Campylobacter infections are primarily foodborne, a recent case-control study in Denmark found that contact with animals and the environment might account for a substantial proportion of domestic infections (11). Several other reported sources of infection include unpasteurized milk, drinking water, bathing water, vegetables, and fruits (1,12-14). WGS offers high-resolution discriminatory subtyping and has been successfully implemented for

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Biocide and antibiotic susceptibility of Salmonella isolates obtained before and after cleaning at six Danish pig slaughterhouses

Gantzhorn

Pedersen

Olsen

et al. 2014

International Journal of Food Microbiology

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Whole genome sequencing data used for surveillance of Campylobacter infections: detection of a large continuous outbreak, Denmark, 2019

Joensen

Schjørring

Gantzhorn

et al. 2021

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Background Campylobacter is one of the most frequent causes of bacterial gastroenteritis. Campylobacter outbreaks are rarely reported, which could be a reflection of a surveillance without routine molecular typing. We have previously shown that numerous small outbreak-like clusters can be detected when whole genome sequencing (WGS) data of clinical Campylobacter isolates was applied. Aim Typing-based surveillance of Campylobacter infections was initiated in 2019 to enable detection of large clusters of clinical isolates and to match them to concurrent retail chicken isolates in order to react on ongoing outbreaks. Methods We performed WGS continuously on isolates from cases (n = 701) and chicken meat (n = 164) throughout 2019. Core genome multilocus sequence typing was used to detect clusters of clinical isolates and match them to isolates from chicken meat. Results Seventy-two clusters were detected, 58 small clusters (2–4 cases) and 14 large clusters (5–91 cases). One third of the clinical isolates matched isolates from chicken meat. One large cluster persisted throughout the whole year and represented 12% of all studied Campylobacter cases. This cluster type was detected in several chicken samples and was traced back to one slaughterhouse, where interventions were implemented to control the outbreak. Conclusion Our WGS-based surveillance has contributed to an improved understanding of the dynamics of the occurrence of Campylobacter strains in chicken meat and the correlation to clusters of human cases.

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Importance of sigma factor mutations in increased triclosan resistance in Salmonella Typhimurium

2015

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BackgroundSalmonella enterica is the second most common foodborne pathogen. The use of biocides is crucial to prevent spread of foodborne pathogens, and it would be devastating for food safety if Salmonella would become resistant to the disinfectants used. Another concern is that exposure to disinfectants might lead to decreased susceptibility to antibiotics.The current study aimed to identify genetic changes causing high level triclosan resistance in S. enterica serovar Typhimurium and evaluate how these affected antibiotic resistance and efflux pump activity.ResultsWild type strains S. Typhimurium 4/74 and DTU3 were adapted to increasing concentrations of the biocide triclosan by serial passage. High level triclosan resistant isolates (MIC > 1000 μg/ml) were obtained. Strains were genome sequenced, and SNPs in fabI, rpoS and rpoD were found to be associated with high level resistance. However, work with defined mutants revealed that a SNP in fabI was not sufficient to obtain high level resistance. This required additional mutations in the sigma factors rpoS or rpoD. The adapted strains showed triclosan-dependent increased efflux, increased fabI expression and reduced susceptibility towards the antibiotics enrofloxacin and sulphamethoxazole/trimethoprim.ConclusionsMedium level triclosan resistance could be obtained by fabI mutations in S. Typhimurium, however, high level resistance was found to require sigma factor mutations in addition to a fabI mutation. Reduced antibiotic sensitivity was observed for the adapted strains, which could be associated with increased efflux.

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The ability to detect campylobacter presence and concentration using different chicken carcass samples

et al. 2020

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