Early identification of a ward-based outbreak of <i>Clostridioides difficile</i> using prospective multilocus sequence type-based Oxford Nanopore genomic surveillance
Max Bloomfield, Samantha Hutton, Megan Burton, Claire Tarring, Charles Velasco, Carolyn Clissold, Michelle Balm, Matthew Kelly, Donia Macartney‐Coxson, Rhys T. White
Abstract
OBJECTIVE: infection (CDI) detected by a recently implemented multilocus sequence type (MLST)-based prospective genomic surveillance system using Oxford Nanopore Technologies (ONT) sequencing. SETTING: Hemato-oncology ward of a public tertiary referral centre. METHODS: isolated from inpatients at our institution on the ONT MinION device, with the output being an MLST. Bed-movement data are used to construct real-time ST-specific incidence charts based on ward exposures over the preceding three months. RESULTS: Between February and October 2022, 76 of 118 (64.4%) CDI cases were successfully sequenced. There was wide ST variation across cases and the hospital, with only four different STs being seen in >4 patients. A clear predominance of ST2 CDI cases emerged among patients with exposure to our hemato-oncology ward between May and October 2022, which totalled ten patients. There was no detectable rise in overall CDI incidence for the ward or hospital due to the outbreak. Following a change in cleaning product to an accelerated hydrogen peroxide wipe and several other interventions, no further outbreak-associated ST2 cases were detected. A retrospective phylogenetic analysis using original sequence data showed clustering of the suspected outbreak cases, with the exception of two cases that were retrospectively excluded from the outbreak. CONCLUSIONS: using ONT sequencing permitted the identification of an outbreak of ST2 CDI that would have otherwise gone undetected.