一项评估燃煤发电厂对肺癌发病率影响的区域研究。
A Regional Study to Evaluate the Impact of Coal-fired Power Plants on Lung Cancer Incident Rates.
作者信息
Ige Oluwatobiloba, Ratnayake Isuru, Martinez Joshua, Pepper Sam, Alsup Alexander, McGuirk Matthew, Gajewski Byron, Mudaranthakam Dinesh Pal
机构信息
Department of Biostatistics & Data Science, The University of Kansas Medical Center, Mail Stop 1026, 3901 Rainbow Blvd., Kansas City, KS 66160 USA.
The University of Kansas Cancer Center, The University of Kansas Medical Center, 3901 Rainbow Blvd., Kansas City, KS 66160 USA.
出版信息
Prev Oncol Epidemiol. 2024;2(1). doi: 10.1080/28322134.2024.2348469. Epub 2024 Jun 6.
BACKGROUND
Lung cancer is the leading cause of cancer related deaths. In Kansas, where coal-fired power plants account for 34% of power, we investigated whether hosting counties had higher age-adjusted lung cancer incidence rates. We also examined demographics, poverty levels, percentage of smokers, and environmental conditions using spatial analysis.
METHODS
Data from the Kansas Health Matters, and the Behavioral Risk Factor Surveillance System (2010-2014) for 105 counties in Kansas were analyzed. Multiple Linear Regression (MLR) assessed associations between potential risk factors and age-adjusted lung cancer incidence rates while Geographically Weighted Regression (GWR) examined regional risk factors.
RESULTS
Moran's I test confirmed spatial autocorrelation in age-adjusted lung cancer incidence rates (p<0.0003). MLR identified percentage of smokers, population size, and proportion of elderly population as significant predictors of age-adjusted lung cancer incidence rates (p<0.05). GWR showed positive associations between percentage of smokers and age-adjusted lung cancer incidence rates in over 50% of counties.
CONCLUSION
Contrary to our hypothesis, proximity to a coal-fired power plant was not a significant predictor of age-adjusted lung cancer incidence rates. Instead, percentage of smokers emerged as a consistent global and regional risk factor. Regional lung cancer outcomes in Kansas are influenced by wind patterns and elderly population.
背景
肺癌是癌症相关死亡的主要原因。在堪萨斯州,燃煤发电厂占电力供应的34%,我们调查了所在县的年龄调整肺癌发病率是否更高。我们还使用空间分析研究了人口统计学、贫困水平、吸烟者比例和环境状况。
方法
分析了堪萨斯州105个县的堪萨斯健康事务数据以及行为风险因素监测系统(2010 - 2014年)的数据。多元线性回归(MLR)评估潜在风险因素与年龄调整肺癌发病率之间的关联,而地理加权回归(GWR)则研究区域风险因素。
结果
莫兰指数检验证实年龄调整肺癌发病率存在空间自相关性(p < 0.0003)。MLR确定吸烟者比例、人口规模和老年人口比例是年龄调整肺癌发病率的显著预测因素(p < 0.05)。GWR显示,在超过50%的县,吸烟者比例与年龄调整肺癌发病率之间存在正相关。
结论
与我们的假设相反,靠近燃煤发电厂并不是年龄调整肺癌发病率的显著预测因素。相反,吸烟者比例成为一个一致的全球和区域风险因素。堪萨斯州的区域肺癌结果受风向模式和老年人口的影响。
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