Hostname: page-component-8448b6f56d-jr42d Total loading time: 0 Render date: 2024-04-24T19:09:38.541Z Has data issue: false hasContentIssue false
  • English
  • Français

Outbreak of cryptosporidiosis associated with a disinfected groundwater supply

Published online by Cambridge University Press:  15 May 2009

S. A. Bridgman ,
R. M. P. Robertson ,
Q. Syed ,
N. Speed ,
N. Andrews  and
P. R. Hunter
S. A. Bridgman
Affiliation:
School of Postgraduate Medicine, University of Keele, Keele, Staffordshire ST5 5BG
R. M. P. Robertson
Affiliation:
North Cheshire Health, Lister Road, Astmoor West Estate, Runcorn, WA7 1TW
Q. Syed
Affiliation:
North-West Regional Health Authority, Warrington
N. Speed
Affiliation:
Environmental Health Division, Warrington Borough Council
N. Andrews
Affiliation:
Statistics Unit, Public Health Laboratory Service, Colindale, London
P. R. Hunter
Affiliation:
Public Health Laboratory Service, Chester
Rights & Permissions [Opens in a new window]

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In an outbreak of cryptosporidiosis in Warrington. a town in North-West England. 47 cases were recorded between November 1992 and February 1993. most within the first month. There was a strong statistical association between cases and residence in an area supplied from two groundwater sources. In a case-control study, a strong association between having drunk unboiled tap water from these sources, and a dose-response relationship were found. Oocysts were not detected in the water supply. During very heavy rainfall one source of water was found to drain surface water directly from a field containing livestock faeces, thereby bypassing natural sandstone filtration. Exceptionally heavy rainfall occurred at the probable time of infection. After withdrawal of the original water supply, the outbreak rapidly subsided. It was concluded that there was very strong evidence that this outbreak was waterborne. This, the second documented outbreak of cryptosporidiosis attributable to a groundwater supply, demonstrates that infection can be transmitted from a disinfected groundwater source despite apparently satisfactory treated water quality. We recommend that guidelines for protection of groundwater are implemented, raw groundwater should be routinely monitored for microbiological contamination, and the structure of all sources and waterworks should be assessed in risk surveys of water catchment areas.

Type
Research Article
Information
Epidemiology & Infection , Volume 115 , Issue 3 , December 1995 , pp. 555 - 566
Copyright
Copyright © Cambridge University Press 1995

References

1.Casemore, DP. The epidemiology of human cryptosporidiosis. PHLS Microbiol Dig 1989; 6: 5466.Google Scholar
2.Fayer, R.Ungar, BLP. Cryptosporidium spp. and cryptosporidiosis. Microbiol Rev 1986; 50: 458–82.CrossRefGoogle ScholarPubMed
3.Coop, KL.Wright, SE.Casemore, DP. Cryptosporidiosis. In: Palmer, SR.Loulsby, S.Simpson, D. eds. Textbook on zoonoses control. Oxford: Oxford University Press. In press.Google Scholar
4.D'Antonio, RG.Winn, RE.Taylor, JP et al. A waterborne outbreak of Cryptosporidiosis in normal hosts. Ann Intern Med 1985; 103: 886–8.CrossRefGoogle ScholarPubMed
5.Smith, HV.Patterson, WJ.Hardie, R et al. , An outbreak of waterborne Cryptosporidiosis caused by post-treatment contamination. Epidemiol Infect 1989; 103: 703–15.CrossRefGoogle ScholarPubMed
6.Richardson, AJ.Frankenberg, RA, Buck, AC et al. , An outbreak of waterborne Cryptosporidiosis in Swindon and Oxfordshire. Epidemiol Infect 1991; 107: 485–95.Google Scholar
7.Badenoch, J. Chairman. Cryptosporidium in water supplies: Report of the Group of Experts. London: HMSO. 1990.Google Scholar
8.MacKenzie, WR.Hoxie, NJ.Proctor, ME et al. A massive outbreak in Milwaukee of Cryptosporidium infection transmitted through the public water supply. New Eng J Med 1994: 331: 161–7.CrossRefGoogle Scholar
9.Robertson, LJ.Campbell, AT.Smith, HV. Survival of Cryptosporidium parvum oocysts under various environmental pressures. J Appl Environ Microbiol 1992; 58: 3494–500.CrossRefGoogle ScholarPubMed
10.Blewett, DA. Quantitative techniques in Cryptosporidium research. In: Angus, KW.Blewett, DA. eds. Cryptosporidiosis. Proceedings of the first international workshop. Edinburgh: Animal Diseases Research Association. 1990: 8595.Google Scholar
11.Mayon-White, RT.Frankenberg, RA. Boil the water. Lancet 1989; ii: 216.CrossRefGoogle Scholar
12.Casemore, DP.Roberts, C. Guidelines for screening for Cryptosporidium in stools: report of a joint working group. J Clin Pathol 1993; 46: 24.CrossRefGoogle ScholarPubMed
13.Francis, B.Green, M.Payne, C. The GLIM system: Release 4 Manual. Oxford: Clarendon Press. 1993.CrossRefGoogle Scholar
14.Armitage, P.Berry, G. Statistical methods in medical research. Oxford: Blackwell. 1990.Google Scholar
15.Standing Committee of Analysts. Isolation and identification of Giardia cysts. Cryptosporidium oocysts and free-living pathogenic amoebae in water etc. London: HMSO. 1989.Google Scholar
16.Cassens, BJ. Preventive medicine and public health. 2nd ed.London: Williams and Wilkins. 1992.Google Scholar
17.Public Health Laboratory Service Study Group. Cryptosporidiosis in England and Wales: prevalence and clinical and epidemiological features. BMJ 1990; 300: 774–7.CrossRefGoogle Scholar
18.British Geological Survey. 1:50000 scale geological maps, drift sheet no. 97. Nottingham: British Geological Survey. 1977.Google Scholar
19.Styles, P.Bishop, I.Toon, S.Trueman, R. Surface and borehole microseismic monitoring of longwall faces: their potential for three-dimensional fracture imaging and the geo-mechanical implications. In: Aziz, NI. ed: Proceedings of the 11th International Conference on Ground Control in Mining. Wollongong, Australia: A.I.M.M.. 1992.Google Scholar
20.Knapp, RG.Miller, MC. Clinical epidemiology and biostatistics. London: Williams and Wilkins. 1992.Google Scholar
21.Current, WL.Blagburn, BL. Cryptosporidium infections in man and domesticated animals. In: Long, PL ed. Coccidiosis of man and domestic animals. Boca Raton, Florida; CRC Press. 1990: 155–85.Google Scholar
22.National Cryptosporidium Survey Group. A survey of Cryptosporidium in surface and groundwaters in the UK. J Inst Water Environ Man 1992; 6: 697703.Google Scholar
23.Lippy, EC.Waltrip, SC. Waterborne disease outbreaks 1946–80 - A thirty-five year perspective. J Am Water Works Assoc 1984; 76: 60–7.CrossRefGoogle Scholar
24.Department of the Environment. Department of Health and Social Security, and Public Health Laboratory Service. The bacteriological examination of water supplies 1982: Reports on public health and medical subjects No. 71: methods for the examination of waters and associated materials. London: HMSO. 1983.Google Scholar
25.Cartwright, RY.Dadswell, JV.Lewis, MJ.Lightfoot, N. Laboratory investigations: the numbers game. In: Davvson, A.West, P. eds. Drinking water supplies: a microbiological perspective. London: HMSO. 1993: Chapter 1,4.Google Scholar
26.Korich, DG.Mead, JR.Madore, MS et al. Effects of ozone, chlorine dioxide, chlorine and monocholramine on Cryptosporidium oocyst viability. Appl Environ Microbiol 1990: 56: 1423.CrossRefGoogle Scholar
27.Campbell, AT.Robertson, LJ.Smith, HV. Viability of Cryptosporidium parvum oocysts: correlation of in vitro excystation with inclusion or exclusion of fluorogenic vital dyes. Appl Environ Microbiol 1992; 58: 3488–93.CrossRefGoogle ScholarPubMed
28.Water Supply (Water Quality) Regulations. Statutory Instrument No. 1147. and as amended in 1989 (SI No. 1384). and 1991 (SI No. 1837). London: HMSO. 1989.Google Scholar
29.Leland, D, McAnulty, J.Keene, W, Stevens, G. A cryptosporidiosis outbreak in a filtered-water supply. J Am Water Works Assoc 1993; 85: 3442.CrossRefGoogle Scholar
30.Water Authorities Association. Operational guidelines for the protection of drinking water supplies: Safeguards in the operation and management of public water supplies in England and Wales. London: Water Authorities Association. 1988.Google Scholar
31.National Rivers Authority. Policy and practice for the protection of groundwater. Bristol: National Rivers Authority. 1992.Google Scholar