Statistical detection of geographic clusters of resistant Escherichia coli in a regional network with WHONET and SaTScan.

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BACKGROUND

While antimicrobial resistance threatens the prevention, treatment, and control of infectious diseases, systematic analysis of routine microbiology laboratory test results worldwide can alert new threats and promote timely response. This study explores statistical algorithms for recognizing geographic clustering of multi-resistant microbes within a healthcare network and monitoring the dissemination of new strains over time.

METHODS

Escherichia coli antimicrobial susceptibility data from a three-year period stored in WHONET were analyzed across ten facilities in a healthcare network utilizing SaTScan's spatial multinomial model with two models for defining geographic proximity. We explored geographic clustering of multi-resistance phenotypes within the network and changes in clustering over time.

RESULTS

Geographic clustering identified from both latitude/longitude and non-parametric facility groupings geographic models were similar, while the latter was offers greater flexibility and generalizability. Iterative application of the clustering algorithms suggested the possible recognition of the initial appearance of invasive E. coli ST131 in the clinical database of a single hospital and subsequent dissemination to others.

CONCLUSION

Systematic analysis of routine antimicrobial resistance susceptibility test results supports the recognition of geographic clustering of microbial phenotypic subpopulations with WHONET and SaTScan, and iterative application of these algorithms can detect the initial appearance in and dissemination across a region prompting early investigation, response, and containment measures.

Investigators
Abbreviation
Expert Rev Anti Infect Ther
Publication Date
2016-09-06
Page Numbers
1-11
Pubmed ID
27530311
Medium
Print-Electronic
Full Title
Statistical detection of geographic clusters of resistant Escherichia coli in a regional network with WHONET and SaTScan.
Authors
Park R, O'Brien TF, Huang SS, Baker MA, Yokoe DS, Kulldorff M, Barrett C, Swift J, Stelling J,