Lewis Mechelle M, Flynn Michael R, Lee Eun-Young, Van Buren Scott, Van Buren Eric, Du Guangwei, Fry Rebecca C, Herring Amy H, Kong Lan, Mailman Richard B, Huang Xuemei
Department of Neurology, Pennsylvania State University College of Medicine-Milton S. Hershey Medical Center, Hershey, PA, USA; Department of Pharmacology, Pennsylvania State University College of Medicine-Milton S. Hershey Medical Center, Hershey, PA, USA.
Department of Environmental Sciences and Engineering, Gillings School of Global Public Health, University of North Carolina, Chapel Hill, NC, USA.
Neurotoxicology. 2016 Dec;57:39-44. doi: 10.1016/j.neuro.2016.08.012. Epub 2016 Aug 24.
We demonstrated recently that the T1 relaxation rate (R1) captured short-term Mn exposure in welders with chronic, relatively low exposure levels in a cross-sectional study. In the current study, we used a longitudinal design to examine whether R1 values reflect the short-term dynamics of Mn exposure.
Twenty-nine welders were evaluated at baseline and 12 months. Occupational questionnaires estimated short-term welding exposure using welding hours in the 90days prior to each study visit (HrsW). In addition, blood Mn levels, the pallidal index (PI; globus pallidus T1-weighted intensity (T1WI)/frontal white matter T1WI), and R1 values in brain regions of interest (ROIs) were determined as Mn biomarkers at each visit. Associations between changes in estimated welding exposure and changes in purported Mn biomarkers were assessed by Spearman's correlations with adjustment for age and baseline R1, HrsW, and blood Mn values.
Changes in welding hours (HrsW: the short-term welding exposure estimate), was associated significantly with changes in R1 values in the putamen (r=0.541, p=0.005), caudate (R=0.453, p=0.023), globus pallidus (R=0.430, p=0.032), amygdala (R=0.461, p=0.020), and hippocampus (R=0.447, p=0.025), but not with changes in blood Mn levels or the PI.
Changes in R1 values correlated with changes in the short-term welding exposure estimate, but not with more traditional measures of Mn exposure (blood Mn levels or PI). These results suggest that R1 may serve as a useful marker to capture the short-term dynamics in Mn brain accumulation related to welding exposure.
我们最近在一项横断面研究中证明,T1 弛豫率(R1)能够反映长期处于相对低暴露水平的焊工短期锰暴露情况。在本研究中,我们采用纵向设计来检验 R1 值是否能反映锰暴露的短期动态变化。
对 29 名焊工在基线期和 12 个月时进行评估。职业调查问卷通过每次研究访视前 90 天的焊接时长(HrsW)来估算短期焊接暴露情况。此外,每次访视时测定血锰水平、苍白球指数(PI;苍白球 T1 加权强度(T1WI)/额叶白质 T1WI)以及感兴趣脑区(ROI)的 R1 值作为锰生物标志物。通过 Spearman 相关性分析评估估计的焊接暴露变化与所谓的锰生物标志物变化之间的关联,并对年龄、基线 R1、HrsW 和血锰值进行校正。
焊接时长(HrsW:短期焊接暴露估计值)的变化与壳核(r = 0.541,p = 0.005)、尾状核(R = 0.453,p = 0.023)、苍白球(R = 0.430,p = 0.032)、杏仁核(R = 0.461,p = 0.020)和海马体(R = 0.447,p = 0.025)的 R1 值变化显著相关,但与血锰水平或 PI 的变化无关。
R1 值的变化与短期焊接暴露估计值的变化相关,但与更传统的锰暴露指标(血锰水平或 PI)无关。这些结果表明,R1 可能是一个有用的标志物,用于捕捉与焊接暴露相关的锰在脑内蓄积的短期动态变化。