Molecular Concordance of Methicillin-resistant Isolates from Healthcare Workers and Patients

Overview

Journal Infect Control Hosp Epidemiol

Publisher Cambridge University Press

Specialties Health Services
Infectious Diseases
Nursing
Public Health

Date 2022 Sep 30

PMID 36177884

Authors

Timileyin Y Adediran

Stephanie Hitchcock

J Kristie Johnson

O Colin Stine

Surbhi Leekha

Kerri A Thom

Yuanyuan Liang

David A Rasko

Anthony D Harris

Affiliations

Soon will be listed here.

Abstract

Background: Methicillin-resistant (MRSA) is a significant nosocomial pathogen in the ICU. MRSA contamination of healthcare personnel (HCP) gloves and gowns after providing care to patients with MRSA occurs at a rate of 14%-16% in the ICU setting. Little is known about whether the MRSA isolates identified on HCP gown and gloves following patient care activities are the same as MRSA isolates identified as colonizing or infecting the patient.

Methods: From a multisite cohort of 388 independent patient MRSA isolates and their corresponding HCP gown and glove isolates, we selected 91 isolates pairs using a probability to proportion size (PPS) sampling method. To determine whether the patient and HCP gown or gloves isolates were genetically similar, we used 5 comparative genomic typing methods: phylogenetic analysis, typing, multilocus sequence typing (MLST), large-scale BLAST score ratio (LSBSR), and single-nucleotide variant (SNV) analysis.

Results: We identified that 56 (61.5%) of isolate pairs were genetically similar at least by 4 of the methods. Comparably, the typing and the LSBSR analyses revealed that >75% of the examined isolate pairs were concordant, with the thresholds established for each analysis.

Conclusions: Many of the patient MRSA isolates were genetically similar to those on the HCP gown or gloves following a patient care activity. This finding indicates that the patient is often the primary source of the MRSA isolates transmitted to the HCP, which can potentially be spread to other patients or hospital settings through HCP vectors. These results have important implications because they provide additional evidence for hospitals considering ending the use of contact precautions (gloves and gowns) for MRSA patients.

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