Kissler J, Müller M M, Fehr T, Rockstroh B, Elbert T
Fachgruppe Psychologie, Universität Konstanz, Konstanz, Germany.
Clin Neurophysiol. 2000 Nov;111(11):2079-87. doi: 10.1016/s1388-2457(00)00425-9.
High frequency oscillations have been suggested as a correlate of cognitive processes and have recently also been implicated in aberrant forms of information processing. The present study investigated whether magnetoencephalographic (MEG) gamma band activity (20-71 Hz) can serve as an index of cognitive processes in the absence of external stimulation and to what extent gamma activity differs between healthy people and schizophrenia patients.
The amount and topography of MEG power in the gamma band range was examined in 15 schizophrenia patients and 15 healthy comparison subjects while performing a complex mental arithmetic task and at rest.
In healthy subjects a left frontal and left fronto-temporal increase in gamma power was observed during mental arithmetic. Schizophrenia patients either failed to display such a task effect (30-45 Hz) or had reversed lateralization with enhanced activity over right frontal and right fronto-temporal regions under cognitive demands (45-71 Hz). In the frequency band from 60 to 71 Hz patients showed less gamma at fronto-temporal, posterio-temporal and occipital sites irrespective of the task.
These results indicate, first, that gamma topography can index cognitive activation in a very complex and purely internal task. Second, groups differed in the pattern of activation during the task, a result which may be consistent with working memory dysfunction in schizophrenia. Third, the general topographic difference between healthy subjects and patients is in line with the notion of abnormalities in the thalamocortical circuit in schizophrenia.
高频振荡已被认为是认知过程的一个相关因素,最近也被认为与异常形式的信息处理有关。本研究调查了在没有外部刺激的情况下,脑磁图(MEG)γ频段活动(20 - 71赫兹)是否可以作为认知过程的一个指标,以及γ活动在健康人和精神分裂症患者之间的差异程度。
在15名精神分裂症患者和15名健康对照受试者执行一项复杂的心算任务时以及休息时,检测γ频段范围内MEG功率的量和地形图。
在健康受试者中,在心算过程中观察到左额叶和左额颞叶γ功率增加。精神分裂症患者要么未能表现出这种任务效应(30 - 45赫兹),要么在认知需求下(45 - 71赫兹)出现侧化反转,右额叶和右额颞叶区域的活动增强。在60至71赫兹频段,无论任务如何,患者在额颞叶、后颞叶和枕叶部位的γ活动均较少。
这些结果表明,首先,γ地形图可以在一个非常复杂且纯粹内部的任务中索引认知激活。其次,两组在任务期间的激活模式不同,这一结果可能与精神分裂症中的工作记忆功能障碍一致。第三,健康受试者和患者之间的总体地形差异与精神分裂症中丘脑皮质回路异常的概念相符。
