Uganda Public Health Fellowship Program, Ministry of Health, Kampala, Uganda.
Integrated Epidemiology, Surveillance and Public Health Emergencies Department, Ministry of Health, Kampala, Uganda.
BMC Public Health. 2022 Oct 12;22(1):1898. doi: 10.1186/s12889-022-14245-y.
In June 2019, surveillance data from the Uganda's District Health Information System revealed an outbreak of malaria in Kole District. Analysis revealed that cases had exceeded the outbreak threshold from January 2019. The Ministry of Health deployed our team to investigate the areas and people affected, identify risk factors for disease transmission, and recommend control and prevention measures.
We conducted an outbreak investigation involving a matched case-control study. We defined a confirmed case as a positive malaria test in a resident of Aboke, Akalo, Alito, and Bala sub-counties of Kole District January-June 2019. We identified cases by reviewing outpatient health records. Exposures were assessed in a 1:1 matched case-control study (n = 282) in Aboke sub-county. We selected cases systematically from 10 villages using probability proportionate to size and identified age- and village-matched controls. We conducted entomological and environmental assessments to identify mosquito breeding sites. We plotted epidemic curves and overlaid rainfall, and indoor residual spraying (IRS). Case-control exposures were combined into: breeding site near house, proximity to swamp and breeding site, and proximity to swamp; these were compared to no exposure in a logistic regression analysis.
Of 18,737 confirmed case-patients (AR = 68/1,000), Aboke sub-county residents (AR = 180/1,000), children < 5 years (AR = 94/1,000), and females (AR = 90/1,000) were most affected. Longitudinal analysis of surveillance data showed decline in cases after an IRS campaign in 2017 but an increase after IRS cessation in 2018-2019. Overlay of rainfall and case data showed two malaria upsurges during 2019, occurring 35-42 days after rainfall increases. Among 141 case-patients and 141 controls, the combination of having mosquito breeding sites near the house and proximity to swamps increased the odds of malaria 6-fold (OR = 6.6, 95% CI = 2.24-19.7) compared to no exposures. Among 84 abandoned containers found near case-patients' and controls' houses, 14 (17%) had mosquito larvae. Adult Anopheles mosquitoes, larvae, pupae, and pupal exuviae were identified near affected houses.
Stagnant water formed by increased rainfall likely provided increased breeding sites that drove this outbreak. Cessation of IRS preceded the malaria upsurges. We recommend re-introduction of IRS and removal of mosquito breeding sites in Kole District.
2019 年 6 月,乌干达地区卫生信息系统的监测数据显示,科勒地区爆发了疟疾。分析显示,自 2019 年 1 月以来,病例已超过爆发阈值。卫生部派遣我们的团队调查受影响的地区和人群,确定疾病传播的风险因素,并提出控制和预防措施。
我们进行了暴发调查,包括病例对照研究。我们将 2019 年 1 月至 6 月在科勒区阿博克、阿卡洛、阿利托和巴拉拉县居住的疟疾病例定义为阳性疟疾病例。我们通过审查门诊病历来确定病例。在阿博克县进行了 1:1 病例对照研究(n=282),以评估接触情况。我们使用概率比例大小从 10 个村庄系统地选择病例,并确定年龄和村庄匹配的对照。我们进行了昆虫学和环境评估,以确定蚊子滋生地。我们绘制了流行曲线,并叠加了降雨和室内滞留喷洒(IRS)。将病例对照的接触情况合并为:房屋附近的滋生地、靠近沼泽和滋生地以及靠近沼泽;并在逻辑回归分析中与无接触情况进行比较。
在 18737 例确诊病例中(发病率为 68/1000),阿博克县居民(发病率为 180/1000)、年龄<5 岁的儿童(发病率为 94/1000)和女性(发病率为 90/1000)受影响最大。监测数据的纵向分析显示,2017 年进行 IRS 运动后病例数下降,但 2018-2019 年 IRS 停止后病例数增加。降雨量和病例数据的叠加显示,2019 年出现了两次疟疾疫情高峰,分别发生在降雨量增加后的 35-42 天。在 141 例病例和 141 例对照中,与无接触相比,房屋附近有蚊子滋生地和靠近沼泽的组合使疟疾的发病几率增加了 6 倍(OR=6.6,95%CI=2.24-19.7)。在病例和对照房屋附近发现的 84 个废弃容器中,有 14 个(17%)有蚊子幼虫。在受影响房屋附近发现了成年疟蚊、幼虫、蛹和蛹壳。
降雨量增加形成的静止水可能为蚊子滋生提供了更多的滋生地,从而引发了这次疫情。IRS 的停止先于疟疾的上升。我们建议在科勒区重新引入 IRS 并清除蚊子滋生地。
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