Department of Neurology, MLC 2015, Cincinnati Children's Hospital Medical Center, 3333 Burnet Avenue, Cincinnati, OH 45229, USA.
Brain Topogr. 2011 Jan;23(4):375-84. doi: 10.1007/s10548-010-0151-0. Epub 2010 Jun 25.
Recent studies in adults have found consistent contralateral high gamma activities in the sensorimotor cortex during unilateral finger movement. However, no study has reported on this same phenomenon in children. We hypothesized that contralateral high gamma activities also exist in children during unilateral finger movement. Sixty normal children (6-17 years old) were studied with a 275-channel MEG system combined with synthetic aperture magnetometry (SAM). Sixty participants displayed consistently contralateral event-related synchronization (C-ERS) within high gamma band (65-150 Hz) in the primary motor cortices (M1) of both hemispheres. Interestingly, nineteen younger children displayed ipsilateral event-related synchronization (I-ERS) within the high gamma band (65-150 Hz) just during their left finger movement. Both I-ERS and C-ERS were localized in M1. The incidence of I-ERS showed a significant decrease with age. Males had significantly higher odds of having ipsilateral activity compared to females. Noteworthy, high gamma C-ERS appeared consistently, while high gamma I-ERS changed with age. The asymmetrical patterns of neuromagnetic activities in the children's brain might represent the maturational lateralization and/or specialization of motor function. In conclusion, the present results have demonstrated that contralateral high-gamma neuromagnetic activities are potential biomarkers for the accurate localization of the primary motor cortex in children. In addition, the interesting finding of the ipsilateral high-gamma neuromagnetic activities opens a new window for us to understand the developmental changes of the hemispherical functional lateralization in the motor system.
最近的成年人研究发现,在单侧手指运动期间,感觉运动皮层中存在一致的对侧高伽马活动。然而,没有研究报道过儿童中存在同样的现象。我们假设在单侧手指运动期间,儿童的对侧高伽马活动也存在。本研究使用 275 通道 MEG 系统结合合成孔径磁力计(SAM)对 60 名正常儿童(6-17 岁)进行了研究。60 名参与者在双侧半球的初级运动皮层(M1)中表现出一致的高伽马波段(65-150 Hz)的对侧事件相关同步(C-ERS)。有趣的是,19 名年龄较小的儿童在其左手手指运动期间仅在高伽马波段(65-150 Hz)表现出同侧事件相关同步(I-ERS)。I-ERS 和 C-ERS 均定位于 M1。I-ERS 的发生率随年龄显著下降。与女性相比,男性同侧活动的可能性显著更高。值得注意的是,高伽马 C-ERS 表现出一致性,而高伽马 I-ERS 随年龄变化。儿童大脑中神经磁活动的不对称模式可能代表运动功能的成熟侧化和/或专业化。总之,本研究结果表明,对侧高伽马神经磁活动是儿童初级运动皮层准确定位的潜在生物标志物。此外,同侧高伽马神经磁活动的有趣发现为我们理解运动系统中半球功能侧化的发育变化开辟了新的窗口。
