美国莱姆病发病率与绿化和土地覆盖指标之间的关系

IF 1.7 Q3 PARASITOLOGY
Sydney Westra , Mark S. Goldberg , Kamel Didan
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引用次数: 0

摘要

莱姆病(LD)是美国最常见的媒介传播疾病。发病率与特定的环境条件有关,如温度、土地覆盖指标和脊椎动物物种多样性。为了确定2000年至2018年美国东北部地区绿地度(由归一化植被指数(NDVI)测量)和其他选定的土地覆盖指数是否与LD发病率相关,我们对2000年至2018年15个“高”发病率州的县和哥伦比亚特区的LD发病率进行了生态分析。美国疾病控制与预防中心提供了各县每年的LD计数数据,Terra和Aqua卫星上的中分辨率成像光谱仪提供了NDVI值。各县人口密度、土地面积和水域的具体数值均来自美国人口普查。利用准泊松回归,估计了LD发生率、NDVI、土地覆盖变量、人口密度和历年之间的多变量关联。我们发现LD发病率每年增加7.1%(95%可信区间:6.8-8.2%)。土地覆被各变量与NDVI呈复杂的非线性关系:县域平均NDVI呈“u”型关系,NDVI标准差呈单调上升关系,人口密度呈下降趋势,土地面积和水域面积呈“n”型关系。我们发现NDVI均值与标准差之间存在交互作用,平均NDVI类别最高;NDVI标准偏差增加时,发病率增加幅度最大。这些关联不能被解释为因果关系,但表明某些土地覆盖模式可能会增加接触受感染蜱虫的机会,从而可能间接导致LD发病率上升。公共卫生干预措施可以利用这些结果,告知人们哪些地方的风险可能很高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The association between the incidence of Lyme disease in the USA and indicators of greenness and land cover

The association between the incidence of Lyme disease in the USA and indicators of greenness and land cover

Lyme disease (LD) is the most common vector-borne illness in the USA. Incidence is related to specific environmental conditions such as temperature, metrics of land cover, and vertebrate species diversity. To determine whether greenness, as measured by the Normalized Difference Vegetation Index (NDVI), and other selected indices of land cover were associated with the incidence of LD in the northeastern USA for the years 2000–2018, we conducted an ecological analysis of incidence rates of LD in counties of 15 “high” incidence states and the District of Columbia for 2000–2018. Annual counts of LD by county were obtained from the US Centers for Disease Control and values of NDVI were acquired from the Moderate Resolution Imaging Spectroradiometer instrument aboard Terra and Aqua Satellites. County-specific values of human population density, area of land and water were obtained from the US Census. Using quasi-Poisson regression, multivariable associations were estimated between the incidence of LD, NDVI, land cover variables, human population density, and calendar year. We found that LD incidence increased by 7.1% per year (95% confidence interval: 6.8–8.2%). Land cover variables showed complex non-linear associations with incidence: average county-specific NDVI showed a “u-shaped” association, the standard deviation of NDVI showed a monotonic upward relationship, population density showed a decreasing trend, areas of land and water showed “n-shaped” relationships. We found an interaction between average and standard deviation of NDVI, with the highest average NDVI category; increased standard deviation of NDVI showed the greatest increase in rates. These associations cannot be interpreted as causal but indicate that certain patterns of land cover may have the potential to increase exposure to infected ticks and thereby may contribute indirectly to increased rates of LD. Public health interventions could make use of these results in informing people where risks may be high.

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