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Literature DB >> 12933634

Bayesian analysis of a time series of counts with covariates: an application to the control of an infectious disease.

Abstract

This paper presents a Bayesian analysis of a time series of counts to assess its dependence on an explanatory variable. The time series represented is the incidence of the infectious disease ESBL-producing Klebsiella pneumoniae in an Australian hospital and the explanatory variable is the number of grams of antibiotic (third generation) cephalosporin used during that time. We demonstrate that there is a statistically significant relationship between disease occurrence and use of the antibiotic, lagged by three months. The model used is a parameter-driven model in the form of a generalized linear mixed model. Comparison of models is made in terms of mean square error.

Entities: Chemical Disease Species

Year: 2001 PMID： 12933634 DOI： 10.1093/biostatistics/2.4.433

Source DB: PubMed Journal: Biostatistics ISSN： 1465-4644 Impact factor: 5.899

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Cited

7 in total

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Authors: Sungduk Kim; Zhen Chen; Zhiwei Zhang; Bruce G Simons-Morton; Paul S Albert
Journal: J Am Stat Assoc Date: 2013 Impact factor: 5.033

2. Comparing statistical models to predict dengue fever notifications.

Authors: Arul Earnest; Say Beng Tan; Annelies Wilder-Smith; David Machin
Journal: Comput Math Methods Med Date: 2012-03-08 Impact factor: 2.238

3. Nonparametric graphical model for counts.

Authors: Arkaprava Roy; David B Dunson
Journal: J Mach Learn Res Date: 2020-12 Impact factor: 5.177

4. Relationship between child survival and malaria transmission: an analysis of the malaria transmission intensity and mortality burden across Africa (MTIMBA) project data in Rufiji demographic surveillance system, Tanzania.

Authors: Susan F Rumisha; Thomas A Smith; Honorati Masanja; Salim Abdulla; Penelope Vounatsou
Journal: Malar J Date: 2014-03-28 Impact factor: 2.979

Bayesian analysis of a time series of counts with covariates: an application to the control of an infectious disease.

1. Bayesian Hierarchical Poisson Regression Models: An Application to a Driving Study with Kinematic Events.

2. Comparing statistical models to predict dengue fever notifications.

3. Nonparametric graphical model for counts.

4. Relationship between child survival and malaria transmission: an analysis of the malaria transmission intensity and mortality burden across Africa (MTIMBA) project data in Rufiji demographic surveillance system, Tanzania.

5. A spatio-temporal autoregressive model for monitoring and predicting COVID infection rates.

6. Time series expression analyses using RNA-seq: a statistical approach.

7. Modelling heterogeneity in malaria transmission using large sparse spatio-temporal entomological data.