Approaches to the detection of very small, common, and easily missed outbreaks that together contribute substantially to human Cryptosporidium infection

doi:10.1017/S0950268814000673

. 2014 Sep;142(9):1869-76.

doi: 10.1017/S0950268814000673. Epub 2014 Apr 2.

Approaches to the detection of very small, common, and easily missed outbreaks that together contribute substantially to human Cryptosporidium infection

A D M Briggs¹, N S Boxall², D Van Santen¹, R M Chalmers³, N D McCarthy¹

Affiliations

¹ Thames Valley Public Health England Centre, Chilton,UK.
² Field Epidemiology Service,Public Health England,London,UK.
³ UK Cryptosporidium Reference Unit,Public Health Wales Microbiology,Swansea,UK.

PMID: 24690264
PMCID: PMC9151214
DOI: 10.1017/S0950268814000673

Approaches to the detection of very small, common, and easily missed outbreaks that together contribute substantially to human Cryptosporidium infection

A D M Briggs et al. Epidemiol Infect. 2014 Sep.

. 2014 Sep;142(9):1869-76.

doi: 10.1017/S0950268814000673. Epub 2014 Apr 2.

Authors

A D M Briggs¹, N S Boxall², D Van Santen¹, R M Chalmers³, N D McCarthy¹

Affiliations

¹ Thames Valley Public Health England Centre, Chilton,UK.
² Field Epidemiology Service,Public Health England,London,UK.
³ UK Cryptosporidium Reference Unit,Public Health Wales Microbiology,Swansea,UK.

PMID: 24690264
PMCID: PMC9151214
DOI: 10.1017/S0950268814000673

Abstract

Water supply-associated cryptosporidiosis outbreaks have decreased in England since the application of risk reduction measures to public water supplies. We hypothesized that smaller outbreaks were occurring which could be better detected by enhanced surveillance. Rolling analysis of detailed questionnaire data was applied prospectively in a population of 2·2 million in the south of England in 2009 and 2010. Detection of spatiotemporal clusters using SaTScan was later undertaken retrospectively. Together these approaches identified eight outbreaks, compared to an expectation of less than one based on national surveillance data. These outbreaks were small and associated with swimming pool use or, less commonly, direct (e.g. petting-farm) contact with animals. These findings suggest that frequent small-scale transmission in swimming pools is an important contributor to disease burden. Identification of swimming pool-level risk factors may inform preventative measures. These findings and the approaches described may be applicable to many other populations and to some other diseases.

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Figures

**Fig. 1.**
Cases (n = 406) and outbreaks (n = 8) of cryptosporidiosis in the study population, 2009–2010. Colour-coded arrows indicate the date of identification, with the higher arrow for the earliest identification where identified by both methods. SS, SaTScan; OB, outbreak; ID'd, identified; ESQ, Enhanced Surveillance Questionnaire.

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References

1. Chalmers R. Cryptosporidium: from laboratory diagnosis to surveillance and outbreaks. Parasite 2008; 15: 372–378. - PubMed
1. Nichols G. Using existing surveillance-based data. In: Hunter P, Wait M, Ronchi E, editors. Drinking Water and Infectious Disease – Establishing the Links. London: IWA Publishing, 2003, pp. 131–141.
1. Health Protection Agency. Investigation of faecal specimens for bacterial pathogens. National Standard Method. BSOP 30. Issue 7. Standards Unit, Health Protection Agency, 2010.
1. Chalmers RM, et al. Clinical laboratory practices for detection and reporting of Cryptosporidium in community cases of diarrhoea in the United Kingdom, 2008. Eurosurveillance 2010; 15: pii=19731. - PubMed
1. Nichols G, et al. Cryptosporidiosis: a report on the surveillance and epidemiology of Cryptosporidium infection in England and Wales. Drinking Water Directorate Contract Number DWI 70/2/201, 2006.

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[1] Chalmers R. Cryptosporidium: from laboratory diagnosis to surveillance and outbreaks. Parasite 2008; 15: 372–378. - PubMed

[2] Chalmers R. Cryptosporidium: from laboratory diagnosis to surveillance and outbreaks. Parasite 2008; 15: 372–378. - PubMed

[3] Nichols G. Using existing surveillance-based data. In: Hunter P, Wait M, Ronchi E, editors. Drinking Water and Infectious Disease – Establishing the Links. London: IWA Publishing, 2003, pp. 131–141.

[4] Nichols G. Using existing surveillance-based data. In: Hunter P, Wait M, Ronchi E, editors. Drinking Water and Infectious Disease – Establishing the Links. London: IWA Publishing, 2003, pp. 131–141.

[5] Health Protection Agency. Investigation of faecal specimens for bacterial pathogens. National Standard Method. BSOP 30. Issue 7. Standards Unit, Health Protection Agency, 2010.

[6] Health Protection Agency. Investigation of faecal specimens for bacterial pathogens. National Standard Method. BSOP 30. Issue 7. Standards Unit, Health Protection Agency, 2010.

[7] Chalmers RM, et al. Clinical laboratory practices for detection and reporting of Cryptosporidium in community cases of diarrhoea in the United Kingdom, 2008. Eurosurveillance 2010; 15: pii=19731. - PubMed

[8] Chalmers RM, et al. Clinical laboratory practices for detection and reporting of Cryptosporidium in community cases of diarrhoea in the United Kingdom, 2008. Eurosurveillance 2010; 15: pii=19731. - PubMed

[9] Nichols G, et al. Cryptosporidiosis: a report on the surveillance and epidemiology of Cryptosporidium infection in England and Wales. Drinking Water Directorate Contract Number DWI 70/2/201, 2006.

[10] Nichols G, et al. Cryptosporidiosis: a report on the surveillance and epidemiology of Cryptosporidium infection in England and Wales. Drinking Water Directorate Contract Number DWI 70/2/201, 2006.

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Approaches to the detection of very small, common, and easily missed outbreaks that together contribute substantially to human Cryptosporidium infection

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Approaches to the detection of very small, common, and easily missed outbreaks that together contribute substantially to human Cryptosporidium infection

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