The use of faecal microbiota transplant as treatment for recurrent or refractory Clostridioides difficile infection and other potential indications: second edition of joint British Society of Gastroenterology (BSG) and Healthcare Infection Society (HIS) guidelines.

The first British Society of Gastroenterology (BSG) and Healthcare Infection Society (HIS)-endorsed faecal microbiota transplant (FMT) guidelines were published in 2018. Over the past 5 years, there has been considerable growth in the evidence base (including publication of outcomes from large national FMT registries), necessitating an updated critical review of the literature and a second edition of the BSG/HIS FMT guidelines. These have been produced in accordance with National Institute for Health and Care Excellence-accredited methodology, thus have particular relevance for UK-based clinicians, but are intended to be of pertinence internationally. This second edition of the guidelines have been divided into recommendations, good practice points and recommendations against certain practices. With respect to FMT for Clostridioides difficile infection (CDI), key focus areas centred around timing of administration, increasing clinical experience of encapsulated FMT preparations and optimising donor screening. The latter topic is of particular relevance given the COVID-19 pandemic, and cases of patient morbidity and mortality resulting from FMT-related pathogen transmission. The guidelines also considered emergent literature on the use of FMT in non-CDI settings (including both gastrointestinal and non-gastrointestinal indications), reviewing relevant randomised controlled trials. Recommendations are provided regarding special areas (including compassionate FMT use), and considerations regarding the evolving landscape of FMT and microbiome therapeutics.

Investigation of community carriage rates of Clostridium difficile and Hungatella hathewayi in healthy volunteers from four regions of England.

Faecal samples from 1365 healthy asymptomatic volunteers from four regions in England were screened for the presence of Clostridium difficile between December 2013 and July 2014. The carriage rate of C. difficile in healthy patients was 0.5%, which is lower than reported previously. This study demonstrates that the true community reservoir of C. difficile in the healthy UK population is very low and is, therefore, unlikely to be a reservoir for infections diagnosed in the hospital setting.

Extended multilocus variable-number tandem-repeat analysis of Clostridium difficile correlates exactly with ribotyping and enables identification of hospital transmission.

PCR ribotyping is currently used in many countries for epidemiological investigation to track transmission and to identify emerging variants of Clostridium difficile. Although PCR ribotyping differentiates over 300 types, it is not always sufficiently discriminatory for epidemiological investigations particularly for common ribotypes, e.g., ribotypes 027, 106, and 017. Multilocus variable-number tandem-repeat analysis (MLVA) is a highly discriminatory molecular subtyping method that has been applied to a number of bacterial species for high-level subtyping. Two MLVA typing schemes for C. difficile have been previously published, each utilizing seven variable-number tandem-repeat (VNTR) loci on the genome with four loci common to both schemes. Although these schemes are good genotyping methods with the ability to discriminate between isolates, they do not identify the ribotype. We show here that increasing the number of VNTR loci to 15, creating the extended MLVA (eMLVA) scheme, we have successfully subtyped all clinically significant ribotypes while still clustering isolates in concordance with PCR ribotyping. The eMLVA scheme developed here provides insight into the genetic diversity of the C. difficile population at both global and cross-infection clusters in patient levels, with the possibility of replacing PCR ribotyping.

Nature of transposon-mediated high-level gentamicin resistance in Enterococcus faecalis isolated in the United Kingdom.

Forty-two high-level gentamicin-resistant (MIC > 1000 mg/L) strains of Enterococcus faecalis, isolated from diverse geographical locations throughout the UK between 1993 and 1995, were studied to identify the nature of the high-level gentamicin-resistant determinants and the possibility of these determinants being associated with a transposon. High-level gentamicin resistance was attributed to the synthesis of the bifunctional (AAC6'-APH2") aminoglycoside-modifying enzyme. The aac6'-aph2" gene, which was present on a 70 kb plasmid in all 42 isolates, could be transferred by conjugation in association with the 70 kb plasmid in 39 of the isolates studied. In three E. faecalis isolates, however, the high-level gentamicin resistance was transferable independent of the 70 kb plasmid, suggesting the presence of a conjugative transposon. Long-PCR studies showed that all 42 clinical isolates harboured a transposon similar to Tn5281, originally identified in E. faecalis strain HH22 isolated in the USA. Restriction endonuclease and Southern hybridization analysis of the UK transposon showed that it is closely related to the high-level gentamicin resistance-conferring transposon Tn5281. However, the UK transposon lacks the HaeIII site identified in Tn5281. Pulsed-field gel electrophoresis analysis identified seven different patterns. Further studies with nine restriction endonucleases showed that the aac6'-aph2" gene was associated with nine different plasmid types in E. faecalis.

Reduced glutaraldehyde susceptibility in Mycobacterium chelonae associated with altered cell wall polysaccharides.

Glutaraldehyde-resistant Mycobacterium chelonae have been isolated from endoscope washer disinfectors and endoscope rinse water. The mechanism of glutaraldehyde resistance is not well understood. Two spontaneous, glutaraldehyde-resistant mutants of the sensitive type strain, NCTC 946, were investigated. The colony morphology of the two mutants differed from that of the the type strain: colonies of the former were dry and waxy whereas those of the latter were smooth and shiny. Increased resistance to glutaraldehyde of the mutants was matched by small increases in the MICs of rifampicin and ethambutol but not isoniazid. Both mutants showed increased surface hydrophobicity. No changes were identified in the extractable fatty acids or the mycolic acid components of the cell wall but a reduction in each of the resistant strains in the arabinogalactan/arabinomannan portion of the cell wall was detected.