Rosser Joelle I, Openshaw John J, Lin Audrie, Taruc Ruzka R, Tela Autiko, Tamodding Nursehang, Abdullah Nurul Pausi Emelia, Amiruddin Murni, Buyukcangaz Esra, Barker S Fiona, Turagabeci Amelia, Ansariadi Ansariadi, Leder Karin, Wahid Isra
Stanford University.
University of California Santa Cruz.
Res Sq. 2024 Nov 13:rs.3.rs-5141509. doi: 10.21203/rs.3.rs-5141509/v1.
The burden of -transmitted viruses such as dengue, chikungunya, and Zika are increasing globally, fueled by urbanization and climate change, with some of the highest current rates of transmission in Asia. Local factors in the built environment have the potential to exacerbate or mitigate transmission.
In 24 informal urban settlements in Makassar, Indonesia and Suva, Fiji, we tested children under 5 years old for evidence of prior infection with dengue, chikungunya, and Zika viruses by IgG serology. We used a catalytic model using seroprevalence and mean age to estimate annual incidence of dengue in each country. We also conducted detailed questionnaires to evaluate environmental risk factors for a positive serology result. Dengue risk factors were evaluated for individual children by univariate and multivariable logistic regression accounting for settlement as a flxed effect. Trash and flooding were additionally evaluated as dengue risk factors at the settlement level by univariate linear regression.
In Fiji and Indonesia respectively, 46% and 33% of children under 5 years old were seropositive for dengue, 3% and 3% for chikungunya, and 9% and 2% for Zika. In Indonesia, children living in a household where trash is routinely collected and removed were signiflcantly less likely to be dengue seropositive in both unadjusted and adjusted models [adjusted model: OR 0.3 (95% CI: 0.1-0.8)]. In Indonesia, settlements with a higher proportion of households reporting flooding also had lower dengue rates (slope = 0.44; p-value: <0.05).
Household trash collection and community flood management are important targets for interventions to mitigate the increasing risk of -transmitted viruses.
登革热、基孔肯雅热和寨卡等蚊媒传播病毒在全球的负担日益加重,城市化和气候变化助长了这一趋势,亚洲目前是一些传播率最高的地区。建筑环境中的局部因素有可能加剧或减轻传播。
在印度尼西亚望加锡和斐济苏瓦的24个城市非正规住区,我们通过IgG血清学检测5岁以下儿童是否有登革热、基孔肯雅热和寨卡病毒既往感染的证据。我们使用一种催化模型,利用血清阳性率和平均年龄来估计每个国家登革热的年发病率。我们还进行了详细的问卷调查,以评估血清学检测结果呈阳性的环境风险因素。通过单变量和多变量逻辑回归评估个体儿童的登革热风险因素,并将住区作为固定效应纳入分析。此外,通过单变量线性回归在住区层面评估垃圾和洪水作为登革热风险因素的情况。
在斐济和印度尼西亚,5岁以下儿童登革热血清阳性率分别为46%和33%,基孔肯雅热为3%和3%,寨卡为9%和2%。在印度尼西亚,在未经调整和调整后的模型中,生活在垃圾定期收集和清理的家庭中的儿童登革热血清阳性的可能性显著降低[调整后模型:比值比0.3(95%置信区间:0.1-0.8)]。在印度尼西亚,报告有洪水的家庭比例较高的住区登革热发病率也较低(斜率=0.44;p值:<0.05)。
家庭垃圾收集和社区洪水管理是降低蚊媒传播病毒风险增加的重要干预目标。
