Wang Yawen, Li Conglu, Zhao Shi, Lin Guozhang, Jiang Xiaoting, Yin Shi, He Mu, Wu Qianyu, Guo Zihao, Wei Yuchen, Ren Chao, Chong Ka Chun
Division of Landscape Architecture, Department of Architecture, Faculty of Architecture, The University of Hong Kong, Hong Kong.
Jockey Club School of Public Health and Primary Care, The Chinese University of Hong Kong, Hong Kong.
J Infect Public Health. 2025 Sep;18(9):102849. doi: 10.1016/j.jiph.2025.102849. Epub 2025 May 30.
Climate change is raising the risk of dengue fever outbreaks in South and Southeast Asia, where public health challenges persist. Warmer temperatures promote year-round mosquito breeding and pathogen transmission, particularly in crowded urban areas. This underscores the urgent need for a comprehensive assessment to develop effective prevention strategies and improve health outcomes. This study evaluated the relationship between dengue fever vulnerability and disease incidence in three countries in the region.
Monthly dengue surveillance data from 2012 to 2018 were collected in Sri Lanka, Malaysia, and Thailand, alongside environmental and socioeconomic data. Principal component analysis and binomial regression model were used to calculate the vulnerability index and evaluate the relationship between dengue infection, vulnerability, and its seasonality.
The results indicated significant spatial variations in vulnerability across the three countries. High-vulnerability regions included western coastal Sri Lanka, western and southern Thailand, and eastern Malaysia, with notable seasonal fluctuations in high-risk areas. Areas with higher vulnerability levels were associated with increased dengue fever incidence rate ratios (IRRs), particularly in Sri Lanka (IRR= 1.97, 95 % confidence interval [CI]: 1.08-3.65) and Thailand (IRR= 14.56, 95 % CI: 5.55-39.90). Notably, the IRR increased significantly during the warm seasons, particularly in August in Sri Lanka (high vs. low, IRR= 6.11, 95 % CI: 2.83-13.47) and in June in Thailand (middle-high vs. low, IRR= 23.61, 95 % CI: 9.39-61.67).
The spatial heterogeneity of dengue vulnerability suggests that targeted public health interventions are essential for mitigating dengue fever risks, particularly in regions vulnerable to climate change.
气候变化正在增加南亚和东南亚登革热疫情爆发的风险,这些地区公共卫生挑战依然存在。气温升高促进了全年蚊虫繁殖和病原体传播,尤其是在拥挤的城市地区。这凸显了进行全面评估以制定有效预防策略和改善健康结果的迫切需求。本研究评估了该地区三个国家登革热易感性与疾病发病率之间的关系。
收集了2012年至2018年斯里兰卡、马来西亚和泰国的月度登革热监测数据,以及环境和社会经济数据。采用主成分分析和二项回归模型计算脆弱性指数,并评估登革热感染、脆弱性及其季节性之间的关系。
结果表明,三个国家的脆弱性存在显著的空间差异。高脆弱性地区包括斯里兰卡西部沿海、泰国西部和南部以及马来西亚东部,高危地区有明显的季节性波动。脆弱性水平较高的地区登革热发病率比值(IRR)增加,尤其是在斯里兰卡(IRR = 1.97,95%置信区间[CI]:1.08 - 3.65)和泰国(IRR = 14.56,95% CI:5.55 - 39.90)。值得注意的是,IRR在温暖季节显著增加,特别是在斯里兰卡的8月(高与低,IRR = 6.11,95% CI:2.83 - 13.47)和泰国的6月(中高与低,IRR = 23.61,95% CI:9.39 - 61.67)。
登革热脆弱性的空间异质性表明,有针对性的公共卫生干预对于降低登革热风险至关重要,特别是在易受气候变化影响的地区。
