Department of Radiology, Mount Sinai School of Medicine, New York, New York 10029, USA.
Environ Health Perspect. 2011 Jul;119(7):908-13. doi: 10.1289/ehp.1002529. Epub 2011 Feb 4.
Deficits in cognitive function have been demonstrated among workers chronically exposed to solvents, but the neural basis for these deficits has not been shown.
We used functional magnetic resonance imaging (fMRI) to compare pathophysiological changes in brain function between solvent-exposed and control workers.
Painters, drywall tapers, and carpenters were recruited from the International Union of Painters and Allied Trades, District Council 9 in New York City and District Council 21 in Philadelphia, Pennsylvania, and from the Carpenters Union in New Jersey. Twenty-seven solvent-exposed and 27 control subjects of similar age, education, and occupational status completed the N-Back working memory test during fMRI. After controlling for confounders (age; lifetime marijuana, cocaine, and alcohol use; blood lead; symptoms of depression; verbal intelligence), voxelwise group analysis and regional activation levels were compared and then correlated with an index of lifetime solvent exposure.
Solvent-exposed workers' performance on the N-Back was significantly worse than that of controls. Activation of the anterior cingulate, prefrontal, and parietal cortices--areas serving working memory function and attention--was also significantly lower for solvent-exposed workers relative to controls. After controlling for confounders, we observed a negative correlation between lifetime solvent exposure and activation in these same regions among the solvent-exposed workers.
This study is one of the few to document neural structures affected by exposure to solvents. Our findings provide a biological mechanism for the neurobehavioral deficits in working memory and attention that have previously been reported by other groups studying the effects of chronic exposure to solvents. These imaging markers, which are consistent with the neurobehavioral measures in our subject population, are consistent with altered brain pathology caused by prolonged exposure to solvent mixtures during construction work.
长期接触溶剂的工人表现出认知功能缺陷,但尚未证明这些缺陷的神经基础。
我们使用功能磁共振成像(fMRI)比较暴露于溶剂的工人和对照组工人之间大脑功能的病理生理变化。
从纽约市国际油漆工及相关行业工会、宾夕法尼亚州费城第 9 区和第 21 区以及新泽西州木匠工会招募油漆工、干墙刮刀和木匠。27 名暴露于溶剂的工人和 27 名年龄、教育程度和职业状况相似的对照组工人在 fMRI 期间完成了 N-Back 工作记忆测试。在控制混杂因素(年龄;终生使用大麻、可卡因和酒精;血铅;抑郁症状;言语智力)后,进行了体素水平的组间分析和区域激活水平比较,然后与终生溶剂暴露指数相关联。
暴露于溶剂的工人在 N-Back 上的表现明显差于对照组。暴露于溶剂的工人的前扣带回、前额叶和顶叶皮质的激活也明显低于对照组。在控制混杂因素后,我们观察到暴露于溶剂的工人的终生溶剂暴露与这些区域的激活之间存在负相关。
这项研究是少数几篇记录接触溶剂影响的神经结构的研究之一。我们的发现为先前研究慢性接触溶剂工人的其他小组报告的工作记忆和注意力的神经行为缺陷提供了生物学机制。这些与我们研究人群中的神经行为测量一致的成像标志物与在建筑工作期间长时间接触溶剂混合物引起的大脑病理改变一致。
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