Background:On 12 October 2015,a cholera outbreak involving 65 cases and two deaths was reported in a fishing village in Hoima District,Western Uganda.Despite initial response by the local health department,the outbrea...Background:On 12 October 2015,a cholera outbreak involving 65 cases and two deaths was reported in a fishing village in Hoima District,Western Uganda.Despite initial response by the local health department,the outbreak persisted.We conducted an investigation to identify the source and mode of transmission,and recommend evidenceled interventions to control and prevent cholera outbreaks in this area.Methods:We defined a suspected case as the onset of acute watery diarrhoea from 1 October to 2 November 2015 in a resident of Kaiso Village.A confirmed case was a suspected case who had Vibrio cholerae isolated from stool.We found cases by record review and active community case finding.We performed descriptive epidemiologic analysis for hypothesis generation.In an unmatched case-control study,we compared exposure histories of 61 cases and 126 controls randomly selected among asymptomatic village residents.We also conducted an environmental assessment and obtained meteorological data from a weather station.Results:We identified 122 suspected cases,of which six were culture-confirmed,47 were confirmed positive with a rapid diagnostic test and two died.The two deceased cases had onset of the disease on 2 October and 10 October,respectively.Heavy rainfall occurred on 7-11 October;a point-source outbreak occurred on 12-15 October,followed by continuous community transmission for two weeks.Village residents usually collected drinking water from three lakeshore points-A,B and C:9.8%(6/61)of case-persons and 31%(39/126)of control-persons were found to usually use point A,21%(13/61)of case-persons and 37%(46/126)of control-persons were found to usually use point B(OR=1.8,95%CI:0.64-5.3),and 69%(42/61)of case-persons and 33%(41/126)of control-persons were found to usually use point C(OR=6.7;95%CI:2.5-17)for water collection.All case-persons(61/61)and 93%(117/126)of control-persons reportedly never treated/boiled drinking water(OR=∞,95%CIFisher:1.0-∞).The village’s piped water system had been vandalised and open defecation was common due to a lack of latrines.The lake water was found to be contiminated due to a gully channel that washed the faeces into the lake at point C.Conclusions:This outbreak was likely caused by drinking lake water contaminated by faeces from a gully channel.We recommend treatment of drinking water,fixing the vandalised piped-water system and constructing latrines.展开更多
基金This project was supported by the President’s Emergency Plan for AIDS Relief(PEPFAR)through the US CDCs Cooperative Agreement Program(no:GH001353-01)through Makerere University School of Public Health to the Uganda Public Health Fellowship Program,Ministry of Health.Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the US CDCs/the Agency for Toxic Substances and Disease Registry,the Department of Health and Human Services,Makerere University School of Public Health,or the Ministry of Health of Uganda.
文摘Background:On 12 October 2015,a cholera outbreak involving 65 cases and two deaths was reported in a fishing village in Hoima District,Western Uganda.Despite initial response by the local health department,the outbreak persisted.We conducted an investigation to identify the source and mode of transmission,and recommend evidenceled interventions to control and prevent cholera outbreaks in this area.Methods:We defined a suspected case as the onset of acute watery diarrhoea from 1 October to 2 November 2015 in a resident of Kaiso Village.A confirmed case was a suspected case who had Vibrio cholerae isolated from stool.We found cases by record review and active community case finding.We performed descriptive epidemiologic analysis for hypothesis generation.In an unmatched case-control study,we compared exposure histories of 61 cases and 126 controls randomly selected among asymptomatic village residents.We also conducted an environmental assessment and obtained meteorological data from a weather station.Results:We identified 122 suspected cases,of which six were culture-confirmed,47 were confirmed positive with a rapid diagnostic test and two died.The two deceased cases had onset of the disease on 2 October and 10 October,respectively.Heavy rainfall occurred on 7-11 October;a point-source outbreak occurred on 12-15 October,followed by continuous community transmission for two weeks.Village residents usually collected drinking water from three lakeshore points-A,B and C:9.8%(6/61)of case-persons and 31%(39/126)of control-persons were found to usually use point A,21%(13/61)of case-persons and 37%(46/126)of control-persons were found to usually use point B(OR=1.8,95%CI:0.64-5.3),and 69%(42/61)of case-persons and 33%(41/126)of control-persons were found to usually use point C(OR=6.7;95%CI:2.5-17)for water collection.All case-persons(61/61)and 93%(117/126)of control-persons reportedly never treated/boiled drinking water(OR=∞,95%CIFisher:1.0-∞).The village’s piped water system had been vandalised and open defecation was common due to a lack of latrines.The lake water was found to be contiminated due to a gully channel that washed the faeces into the lake at point C.Conclusions:This outbreak was likely caused by drinking lake water contaminated by faeces from a gully channel.We recommend treatment of drinking water,fixing the vandalised piped-water system and constructing latrines.