MRSA Image credit: Kathy Raven
The purpose of our study was to see if whole genome sequencing of MRSA could be used to distinguish between related strains at a genome level, and if this would inform and guide outbreak investigations."
—Professor Sharon Peacock, lead author from the University of Cambridge
In a new study released today in New England Journal of Medicine, researchers demonstrate that whole genome sequencing can provide clinically relevant data on bacterial transmission within a timescale that can influence infection control and patient management.
Scientists from the Wellcome Trust Sanger Institute, University of Cambridge, and Illumina collaborated to use whole genome sequencing to identify which isolates of methicillin-resistant Staphylococcus aureus (MRSA) were part of a hospital outbreak.
Current laboratory techniques often cannot distinguish between MRSA isolates. This study indicates that whole genome sequencing can provide precise information in a fast turnaround time, and could make a clear distinction between MRSA isolates in a way that was not previously possible.
MRSA infection is a major public health problem. For example, in the United States, an estimated 89,785 invasive MRSA infections associated with 15,249 deaths occurred in 2008. Even when the disease is treated, MRSA infections double the average length of hospital stay and increase healthcare costs. Fast and accurate detection of bacterial transmission is crucial to better control of healthcare-associated infection.
"An important limitation of current infection control methodology is that the available bacterial typing methods cannot distinguish between different strains of MRSA," explains Professor Sharon Peacock, lead author from the University of Cambridge. "The purpose of our study was to see if whole genome sequencing of MRSA could be used to distinguish between related strains at a genome level, and if this would inform and guide outbreak investigations."
The team focused on an outbreak in a neonatal intensive care unit that had already ended. They took the samples and sequenced them as if they had been working in real time. They found they could distinguish between strains that were part of the outbreak and strains that were not, and showed that they could have identified the outbreak earlier than current clinical testing, potentially shortening the outbreak.
"This study demonstrates how advances in whole genome sequencing can provide essential information to help combat hospital outbreaks in clinically relevant turnaround times," says Geoffrey Smith, co-lead author and Senior Director of Research at Illumina. "As sequencing has become increasingly accurate and comprehensive, it can be used to answer a wide range of questions. Not only could we distinguish different MRSA strains in the hospital, we were also able to rapidly characterise antibiotic resistance and toxin genes present in the clinical isolates."
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