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“Through a Drinking Glass and What Was Found There”: Pseudocontamination of a Hospital's Drinking Water

Published online by Cambridge University Press:  21 June 2016

Stephen A. Klotz
Affiliation:
Departments of Medicine and Ophthalmology, Louisiana State University, Shreveport, Louisiana
Richard E. Normand
Affiliation:
Departments of Medicine and Ophthalmology, and Infection Control, Louisiana State University, Shreveport, Louisiana
Robert G. Kalinsky
Affiliation:
Over-ton Brooks Veterans Affairs and Louisiana State University Medical Centers, and the Department of Biological Sciences, Louisiana State University, Shreveport, Louisiana

Abstract

Oejective:

Examination of suspended macroscopic debris that was noted in hospital cafeteria drinking water over a prolonged period of time.

Setting:

A tertiary care hospital.

Design:

A retrospective description of events.

Methods:

Conventional medical microbiology techniques were employed to determine if contamination of drinking water had occurred.

Results:

Microscopic examinations of the debris showed live nematodes similar to Strongyloides stercoralis rhabditiform larvae and amoebic trophozoites. A culture of an ice container in the cafeteria yielded coliform bacteria. Hospital employees lost work because of a diarrheal illness thought to be contracted from drinking cafeteria water. Further investigation revealed that the debris contained numerous ciliated organisms, nematodes, fresh water amoebae, bacterial mats, flagellated fungi, and unidentified cysts suggesting that the debris was of a freshwater origin rather than fecal contamination. Another hospital served by a collateral city water line experienced a similar problem. The debris was observed in November when lake water in the reservoir undergoes inversion.

Conclusions:

Nonpathogenic freshwater microbiota probably originating from the city reservoir were the cause of pseudocontamination of hospital drinking water.

Type
Original Articles
Copyright
Copyright © The Society for Healthcare Epidemiology of America 1992

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References

1. Klotz, SA, ed. Shreveport Society for Nature Study Bird Group Newsletter 1987;1:8.Google Scholar
2. Bourrelly, P Les Algues D'eau Douce. Tome III. Paris, France: Editions N. Boubée & Cie; 1979.Google Scholar
3. Fogel, CJ, Doran, K. City aims to cut sewage flow to lake. The Times (Shreveport, IA). 1990 June 29.Google Scholar
4. Wolter, I? City is ahead of the game on EPA drinking water regulations. Shreveport Journal. 1989 July 12.Google Scholar
5. Shreveport treating its water right. The Times (Shreveport, LA). 1990 July 29.Google Scholar
6. Norder, S. Cross Lake part of the plan for safe, plentiful water. Shreveport Journal. 1989 January 30.Google Scholar
7. Levine, WC, Stephenson, WT, Craun, CE Waterborne disease outbreaks, 19861988. MMWR. 1990;39(55-I):113.Google Scholar
8. National primary drinking water regulations. Federal Register. 1989;54:2748627541.Google Scholar
9. Abreo, K, Sella, M-L, Brown, ST. Aluminum in domestic water. Overload may be hazardous to dialysis patients. J Environ Health. 1990; 52:289290.Google Scholar