Molly Leecaster scite author profile

Influenza poses a significant health threat to children, and schools may play a critical role in community outbreaks. Mathematical outbreak models require assumptions about contact rates and patterns among students, but the level of temporal granularity required to produce reliable results is unclear. We collected objective contact data from students aged 5-14 at an elementary school and middle school in the state of Utah, USA, and paired those data with a novel, data-based model of influenza transmission in schools. Our simulations produced within-school transmission averages consistent with published estimates. We compared simulated outbreaks over the full resolution dynamic network with simulations on networks with averaged representations of contact timing and duration. For both schools, averaging the timing of contacts over one or two school days caused average outbreak sizes to increase by 1-8%. Averaging both contact timing and pairwise contact durations caused average outbreak sizes to increase by 10% at the middle school and 72% at the elementary school. Averaging contact durations separately across within-class and between-class contacts reduced the increase for the elementary school to 5%. Thus, the effect of ignoring details about contact timing and duration in school contact networks on outbreak size modelling can vary across different schools.

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Comparison of total coliform, fecal coliform, and enterococcus bacterial indicator response for ocean recreational water quality testing

Noble

Moore²,

Leecaster

et al. 2003

Water Research

181

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Molly Leecaster

A Comparison of Plastic and Plankton in the North Pacific Central Gyre

An Improved Model for Spatially Correlated Binary Responses

The role of heterogeneity in contact timing and duration in network models of influenza spread in schools

Comparison of total coliform, fecal coliform, and enterococcus bacterial indicator response for ocean recreational water quality testing

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