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Environmental Survey of Drinking Water Sources in Kampala, Uganda, during a Typhoid Fever Outbreak

Applied and environmental microbiology, 2017-12, Vol.83 (23), p.1 [Peer Reviewed Journal]

Copyright © 2017 American Society for Microbiology. ;Copyright American Society for Microbiology Dec 2017 ;Copyright © 2017 American Society for Microbiology. 2017 American Society for Microbiology ;ISSN: 0099-2240 ;EISSN: 1098-5336 ;DOI: 10.1128/aem.01706-17 ;PMID: 28970225

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  • Title:
    Environmental Survey of Drinking Water Sources in Kampala, Uganda, during a Typhoid Fever Outbreak
  • Author: Murphy, J L ; Kahler, A M ; Nansubuga, I ; Nanyunja, E M ; Kaplan, B ; Jothikumar, N ; Routh, J ; Gómez, G A ; Mintz, E D ; Hill, V R
  • Schaffner, Donald W.
  • Subjects: Bottled water ; Bottles ; Central business districts ; Chlorine ; Conductivity ; Disease transmission ; Drinking water ; E coli ; Environmental surveys ; Escherichia coli ; Fever ; Groundwater ; Outbreaks ; Plastics ; Public and Environmental Health Microbiology ; Salmonella ; Surface water ; Typhoid ; Water analysis ; Water quality ; Water sampling ; Water springs ; Water treatment ; Water wells ; Waterborne diseases
  • Is Part Of: Applied and environmental microbiology, 2017-12, Vol.83 (23), p.1
  • Description: In 2015, a typhoid fever outbreak began in downtown Kampala, Uganda, and spread into adjacent districts. In response, an environmental survey of drinking water source types was conducted in areas of the city with high case numbers. A total of 122 samples was collected from 12 source types and tested for , free chlorine, and conductivity. An additional 37 grab samples from seven source types and 16 paired large volume (20 liter) samples from wells and springs were also collected and tested for the presence of serovar Typhi. was detected in 60% of kaveras (drinking water sold in plastic bags) and 80% of refilled water bottles; free chlorine was not detected in either source type. Most jerry cans (68%) contained and had free chlorine residuals below the WHO-recommended level of 0.5 mg/liter during outbreaks. Elevated conductivity readings for kaveras, refilled water bottles, and jerry cans (compared to treated surface water supplied by the water utility) suggested that they likely contained untreated groundwater. All unprotected springs and wells and more than 60% of protected springs contained Water samples collected from the water utility were found to have acceptable free chlorine levels and no detectable While Typhi was not detected in water samples, spp. were detected in samples from two unprotected springs, one protected spring, and one refilled water bottle. These data provided clear evidence that unregulated vended water and groundwater represented a risk for typhoid transmission. Despite the high incidence of typhoid fever globally, relatively few outbreak investigations incorporate drinking water testing. During waterborne disease outbreaks, measurement of physical-chemical parameters, such as free chlorine residual and electrical conductivity, and of microbiological parameters, such as the presence of or the implicated etiologic agent, in drinking water samples can identify contaminated sources. This investigation indicated that unregulated vended water and groundwater sources were contaminated and were therefore a risk to consumers during the 2015 typhoid fever outbreak in Kampala. Identification of contaminated drinking water sources and sources that do not contain adequate disinfectant levels can lead to rapid targeted interventions.
  • Publisher: United States: American Society for Microbiology
  • Language: English
  • Identifier: ISSN: 0099-2240
    EISSN: 1098-5336
    DOI: 10.1128/aem.01706-17
    PMID: 28970225
  • Source: PubMed Central
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