Literature DB >> 20084521

The use of ZIP and CART to model cryptosporidiosis in relation to climatic variables.

Wenbiao Hu1, Kerrie Mengersen, Shiu-Yun Fu, Shilu Tong.   

Abstract

This research assesses the potential impact of weekly weather variability on the incidence of cryptosporidiosis disease using time series zero-inflated Poisson (ZIP) and classification and regression tree (CART) models. Data on weather variables, notified cryptosporidiosis cases and population size in Brisbane were supplied by the Australian Bureau of Meteorology, Queensland Department of Health, and Australian Bureau of Statistics, respectively. Both time series ZIP and CART models show a clear association between weather variables (maximum temperature, relative humidity, rainfall and wind speed) and cryptosporidiosis disease. The time series CART models indicated that, when weekly maximum temperature exceeded 31 degrees C and relative humidity was less than 63%, the relative risk of cryptosporidiosis rose by 13.64 (expected morbidity: 39.4; 95% confidence interval: 30.9-47.9). These findings may have applications as a decision support tool in planning disease control and risk-management programs for cryptosporidiosis disease.

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Year:  2010        PMID: 20084521     DOI: 10.1007/s00484-009-0294-4

Source DB:  PubMed          Journal:  Int J Biometeorol        ISSN: 0020-7128            Impact factor:   3.787


  6 in total

1.  A score test for testing a zero-inflated Poisson regression model against zero-inflated negative binomial alternatives.

Authors:  M Ridout; J Hinde; C G Demétrio
Journal:  Biometrics       Date:  2001-03       Impact factor: 2.571

Review 2.  Risk and control of waterborne cryptosporidiosis.

Authors:  Joan B Rose; Debra E Huffman; Angela Gennaccaro
Journal:  FEMS Microbiol Rev       Date:  2002-06       Impact factor: 16.408

3.  Zero-inflated models for regression analysis of count data: a study of growth and development.

Authors:  Yin Bin Cheung
Journal:  Stat Med       Date:  2002-05-30       Impact factor: 2.373

4.  Methods for improving regression analysis for skewed continuous or counted responses.

Authors:  Abdelmonem A Afifi; Jenny B Kotlerman; Susan L Ettner; Marie Cowan
Journal:  Annu Rev Public Health       Date:  2007       Impact factor: 21.981

Review 5.  Epidemiologic aspects of human cryptosporidiosis and the role of waterborne transmission.

Authors:  P L Meinhardt; D P Casemore; K B Miller
Journal:  Epidemiol Rev       Date:  1996       Impact factor: 6.222

6.  Weather variability and the incidence of cryptosporidiosis: comparison of time series poisson regression and SARIMA models.

Authors:  Wenbiao Hu; Shilu Tong; Kerrie Mengersen; Des Connell
Journal:  Ann Epidemiol       Date:  2007-06-28       Impact factor: 3.797
  6 in total
  8 in total

Review 1.  Untangling the Impacts of Climate Change on Waterborne Diseases: a Systematic Review of Relationships between Diarrheal Diseases and Temperature, Rainfall, Flooding, and Drought.

Authors:  Karen Levy; Andrew P Woster; Rebecca S Goldstein; Elizabeth J Carlton
Journal:  Environ Sci Technol       Date:  2016-04-25       Impact factor: 9.028

2.  Cryptosporidiosis: A Disease of Tropical and Remote Areas in Australia.

Authors:  Aparna Lal; Lisa Michelle Cornish; Emily Fearnley; Kathryn Glass; Martyn Kirk
Journal:  PLoS Negl Trop Dis       Date:  2015-09-22

3.  Associations Between Eight Earth Observation-Derived Climate Variables and Enteropathogen Infection: An Independent Participant Data Meta-Analysis of Surveillance Studies With Broad Spectrum Nucleic Acid Diagnostics.

Authors:  Josh M Colston; Benjamin F Zaitchik; Hamada S Badr; Eleanor Burnett; Syed Asad Ali; Ajit Rayamajhi; Syed M Satter; Daniel Eibach; Ralf Krumkamp; Jürgen May; Roma Chilengi; Leigh M Howard; Samba O Sow; M Jahangir Hossain; Debasish Saha; M Imran Nisar; Anita K M Zaidi; Suman Kanungo; Inácio Mandomando; Abu S G Faruque; Karen L Kotloff; Myron M Levine; Robert F Breiman; Richard Omore; Nicola Page; James A Platts-Mills; Ulla Ashorn; Yue-Mei Fan; Prakash Sunder Shrestha; Tahmeed Ahmed; Estomih Mduma; Pablo Penatero Yori; Zulfiqar Bhutta; Pascal Bessong; Maribel P Olortegui; Aldo A M Lima; Gagandeep Kang; Jean Humphrey; Andrew J Prendergast; Robert Ntozini; Kazuhisa Okada; Warawan Wongboot; James Gaensbauer; Mario T Melgar; Tuula Pelkonen; Cesar Mavacala Freitas; Margaret N Kosek
Journal:  Geohealth       Date:  2022-01-01

4.  Risk factor analysis and spatiotemporal CART model of cryptosporidiosis in Queensland, Australia.

Authors:  Wenbiao Hu; Kerrie Mengersen; Shilu Tong
Journal:  BMC Infect Dis       Date:  2010-10-28       Impact factor: 3.090

5.  Climate variability, weather and enteric disease incidence in New Zealand: time series analysis.

Authors:  Aparna Lal; Takayoshi Ikeda; Nigel French; Michael G Baker; Simon Hales
Journal:  PLoS One       Date:  2013-12-23       Impact factor: 3.240

6.  Evaluating the Appropriateness of Downscaled Climate Information for Projecting Risks of Salmonella.

Authors:  Galina S Guentchev; Richard B Rood; Caspar M Ammann; Joseph J Barsugli; Kristie Ebi; Veronica Berrocal; Marie S O'Neill; Carina J Gronlund; Jonathan L Vigh; Ben Koziol; Luca Cinquini
Journal:  Int J Environ Res Public Health       Date:  2016-02-29       Impact factor: 3.390

7.  Advancing the framework for considering the effects of climate change on worker safety and health.

Authors:  P A Schulte; A Bhattacharya; C R Butler; H K Chun; B Jacklitsch; T Jacobs; M Kiefer; J Lincoln; S Pendergrass; J Shire; J Watson; G R Wagner
Journal:  J Occup Environ Hyg       Date:  2016-11       Impact factor: 2.155

8.  Assessing the impact of environmental exposures and Cryptosporidium infection in cattle on human incidence of cryptosporidiosis in Southwestern Ontario, Canada.

Authors:  Gabrielle Brankston; Cyndi Boughen; Victoria Ng; David N Fisman; Jan M Sargeant; Amy L Greer
Journal:  PLoS One       Date:  2018-04-26       Impact factor: 3.240
  8 in total

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