微囊藻毒素和每日日照:慢性肝病和肝硬化死亡率的预测因子

R. Melaram
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引用次数: 3

摘要

蓝藻(蓝绿藻)可以在有利条件下迅速繁殖,形成密集的水华。随着水华的恶化,蓝绿藻会产生强大的毒素,对伴侣动物、野生动物甚至人类都有潜在的危害。一种被广泛认可的蓝藻毒素是微囊藻毒素。这种藻类毒素已在全球地表水中出现,增加了那些依赖易受微囊藻毒素污染来源的人患肝癌和/或疾病的风险。有趣的是,在将肝脏健康结果与淡水蓝藻毒素联系起来时,没有研究关注天气条件。本研究的目的是确定气候是否是生态水平上肝脏死亡率和微囊藻毒素总量的重要决定因素。次要资料被用来评估所提出的假设。环境数据(CDC WONDER)和毒素数据(USEPA)进行多因素回归分析。平均每日日照和总微囊藻毒素是年龄调整慢性肝病和肝硬化死亡率的重要预测因子。年平均降水量和日平均最高气温是不显著的预测因子。这项研究表明,微囊藻毒素与气候的结合可能会增加肝脏死亡率。研究结果可以提示他人研究晚期肝病的环境暴露,指导环境卫生和水行业对人类生存的需求。
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Microcystins and Daily Sunlight: Predictors of Chronic Liver Disease and Cirrhosis Mortality
Cyanobacteria (blue-green algae) may rapidly propagate under favorable conditions, forming dense blooms. As water blooms deteriorate, blue-green algae can generate potent toxins, potentially harmful to companion animals, wildlife, and even humans. One widely recognized cyanobacterial toxin is microcystin. This algal toxin has been implicated in surface waters globally, increasing liver cancer and/or disease risk amongst those who depend on sources prone to microcystin contamination. Interestingly, no study looked at weather conditions when connecting liver health outcomes to freshwater cyanotoxins. The purpose of this study was to determine if climate was an important determinant of liver mortality and total microcystins at the ecological level. Secondary data was used to evaluate the proposed hypothesis. Environmental data (CDC WONDER) and toxin data (USEPA) were used in multivariate regression analysis. Mean daily sunlight and total microcystins were significant predictors of age-adjusted chronic liver disease and cirrhosis death rates. Mean annual precipitation and mean daily max temperature were non-significant predictors. This study demonstrated how microcystins in combination with climate may increase liver mortality. The results can prompt others to study environmental exposures of terminal liver diseases, guiding environmental health and the water industry of human survival needs.
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