Department of Bio and Brain Engineering, Korea Advanced Institute of Science and Technology, Daejeon 305-701, Korea.
IEEE Trans Biomed Eng. 2013 Jan;60(1):159-63. doi: 10.1109/TBME.2012.2213598. Epub 2012 Aug 31.
This study applied dynamical nonstationarity analysis (DNA) to the resting EEGs of patients with attention-deficit/hyperactivity disorder (AD/HD). We aimed to assess and characterize AD/HD using features based on the local and global duration of dynamical microstate. We hypothesized that AD/HD patients would have difficulties in maintaining stable cognitive states (e.g., attention deficit and impulsivity) and that they would thus exhibit EEGs with temporal dynamics distinct from normal controls, i.e., rapidly and frequently changing dynamics. To test this hypothesis, we recorded EEGs from 12 adolescent subjects with AD/HD and 11 age-matched healthy subjects in the resting state with eyes closed and eyes open. We found that AD/HD patients exhibited significantly faster changes in dynamics than controls in the right temporal region during the eyes closed condition, but slower changes in dynamics in the frontal region during the eyes open condition. AD/HD patients exhibited a disruption in the rate of change of dynamics in the frontotemporal region at rest, probably due to executive and attention processes. We suggest that the DNA using complementary local and global features based on the duration of dynamical microstates could be a useful tool for the clinical diagnosis of subjects with AD/HD.
本研究将动态非平稳性分析(DNA)应用于注意缺陷多动障碍(AD/HD)患者的静息 EEG。我们旨在使用基于动态微观状态局部和全局持续时间的特征来评估和描述 AD/HD。我们假设 AD/HD 患者在维持稳定的认知状态(例如注意力缺陷和冲动)方面存在困难,因此他们的 EEG 会表现出与正常对照组不同的时间动态,即快速且频繁地变化。为了验证这一假设,我们记录了 12 名青少年 AD/HD 患者和 11 名年龄匹配的健康对照者在闭眼和睁眼静息状态下的 EEG。我们发现,AD/HD 患者在闭眼状态下右侧颞区的动态变化明显快于对照组,但在睁眼状态下额叶区的动态变化较慢。AD/HD 患者在静息时前颞区的动态变化率出现中断,可能是由于执行和注意力过程出现了问题。我们建议,基于动态微观状态持续时间的互补局部和全局特征的 DNA 可能是 AD/HD 患者临床诊断的有用工具。
