Screening for Taylorella equigenitalis in Equine Semen: An Exploratory Study.

The study examined and compared the sensitivity of culture and a quantitative PCR assay for screening equine semen for the presence of Taylorella equigenitalis (CEMO). Chilled semen samples, both raw and treated with extender, from two stallions were spiked with the organism at seven or 23 days postejaculation and prepared in serial dilutions. Culture of the 7-day raw semen readily detected CEMO at all dilutions, but extended semen yielded counts that were two log cycles lower at equivalent dilutions, with the organism being nearly undetectable at the maximal dilutions. By contrast, PCR sensitivity was not affected by extender, but for 7-day-old raw semen, PCR detection declined abruptly three log dilutions earlier than detection by culture. The more aged 23-day-old semen proved less satisfactory for spiking, with detection of CEMO by culture failing in three of the four samples due to overgrowth with commensal organisms. However, PCR performance was similar in both the 23- and 7-day spiking series. The detection limit by PCR is estimated at between 104 and 105 cfu/mL. Typical CEMO concentrations in the semen of colonized stallions are not widely reported but where natural semen contamination has been investigated, the organism was present at this order of magnitude. The reliability of detecting CEMO infection using semen samples by either method is discussed.

Actinobacillus vicugnae sp. nov., isolated from alpaca (Vicugna pacos).

Ten strains of an Actinobacillus-like organism were isolated from alpaca (Vicugna pacos) in the UK over a period of 5 years, with no known epidemiological linkages. The isolates are distinct, based on both phenotype and genotype, from any previously described Actinobacillus species. Molecular analysis, based on 16S rRNA, rpoB and infB gene sequences, placed the isolates as a novel, early branching, lineage within the currently recognised Actinobacillus sensu stricto. In agreement with the results of the single-gene analysis, average nucleotide identity values, based on whole genome sequences, showed very similar identities to a number of members of the Actinobacillus sensu stricto notably Actinobacillus equuli, Actinobacillus suis and Actinobacillus ureae. At least two phenotypic characteristics differentiate the alpaca isolates from other Actinobacillus sensu stricto species, and from taxa likely falling within this group but awaiting formal species description, with Actinobacillus anseriformium and A. equulisubsp. haemolyticus being the most closely related phenotypically. The alpaca isolates can be differentiated from A. anseriformium by production of ß-galactosidase (ONPG) and acid from raffinose, and from A. equulisubsp. haemolyticus by production of acid from d-sorbitol and failure to produce acid from d-xylose. Isolates were obtained from multiple sites in alpaca including respiratory tract, alimentary tract and internal organs although further evidence is required to understand any pathogenic significance. Based on the results of characterization described here, it is proposed that the isolates constitute a novel species, Actinobacillus vicugnae sp. nov. The type strain is W1618T (LMG30745T NCTC14090T) isolated in the UK in 2012 from oesophageal ulceration in an alpaca (Vicugna pacos).

Outbreak of Shiga toxin-producing Escherichia coli O157:H7 linked to raw drinking milk resolved by rapid application of advanced pathogen characterisation methods, England, August to October 2017.

An outbreak of Shiga toxin-producing Escherichia coli (STEC) O157:H7 occurred on the Isle of Wight between August and October 2017. Of the seven cases linked to the outbreak, five were identified through the statutory notification process and two were identified through national surveillance of whole genome sequencing data. Enhanced surveillance questionnaires established a common link to a farm, and link to the likely food vehicle, raw drinking milk (RDM). Microbiological investigations, including PCR, identified the presence of STEC O157:H7 in samples of RDM. Analysis of core genome single nucleotide polymorphism (SNP) data of STEC O157:H7 from human stool specimens, animal faecal samples and RDM demonstrated a one SNP difference between isolates, and therefore close genetic relatedness. Control measures that were put in place included suspension of sales and recall of RDM, as well as restrictions on public access to parts of the farm. Successful integration of traditional epidemiological surveillance and advanced laboratory methods for the detection and characterisation of STEC O157:H7 from human, animal and environmental samples enabled prompt identification of the outbreak vehicle and provided evidence to support the outbreak control team's decision-making, leading to implementation of effective control measures in a timely manner.