Modeling nosocomial transmission of rotavirus in pediatric wards

Authors

Christopher Kribs
Jean-Francois Jusot
Philippe Vanhems
Sandrine Charles

Document Type

Article

Source Publication Title

Bulletin of Mathematical Biology

First Page

1413

Last Page

1442

Abstract

Nosocomial transmission of viral and bacterial infections is a major problem worldwide, affecting millions of patients (and causing hundreds of thousands of deaths) per year. Rotavirus infections affect most children worldwide at least once before age five. We present here deterministic and stochastic models for the transmission of rotavirus in a pediatric hospital ward and draw on published data to compare the efficacy of several possible control measures in reducing the number of infections during a 90-day outbreak, including cohorting, changes in healthcare worker-patient ratio, improving compliance with preventive hygiene measures, and vaccination. Although recently approved vaccines have potential to curtail most nosocomial rotavirus trans- mission in the future, even short-term improvement in preventive hygiene compliance following contact with symptomatic patients may significantly limit transmission as well, and remains an important control measure, especially where resources are limited.

Disciplines

Mathematics | Physical Sciences and Mathematics

Publication Date

1-1-2011

Language

English

Comments

This research was supported by a Marie Curie International Incoming Fellowship.

License

This work is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.

Recommended Citation

Kribs, Christopher; Jusot, Jean-Francois; Vanhems, Philippe; and Charles, Sandrine, "Modeling nosocomial transmission of rotavirus in pediatric wards" (2011). Mathematics Faculty Publications. 10.
https://mavmatrix.uta.edu/math_facpubs/10