精神分裂症患者异常感觉门控期间海马体、丘脑和前额叶皮质血流动力学反应增强。
Increased hemodynamic response in the hippocampus, thalamus and prefrontal cortex during abnormal sensory gating in schizophrenia.
作者信息
Tregellas Jason R, Davalos Deana B, Rojas Donald C, Waldo Merilyne C, Gibson Linzi, Wylie Korey, Du Yiping P, Freedman Robert
机构信息
VISN19/MIRECC, Denver VA Medical Center, Denver, Colorado, USA.
出版信息
Schizophr Res. 2007 May;92(1-3):262-72. doi: 10.1016/j.schres.2006.12.033. Epub 2007 Mar 2.
OBJECTIVE
Deficits in sensory gating are a common feature of schizophrenia. Failure of inhibitory gating mechanisms, shown by poor suppression of evoked responses to repeated auditory stimuli, has been previously studied using EEG methods. These methods yield information about the temporal characteristics of sensory gating deficits, but do not identify brain regions involved in the process. Hence, the neuroanatomical substrates of poor sensory gating in schizophrenia remain largely unknown. This study used functional magnetic resonance imaging (fMRI) to investigate the functional neuroanatomy of sensory gating deficits in schizophrenia.
METHODS
Twelve patients with schizophrenia and 12 healthy comparison subjects were scanned at 3 Tesla while performing a sensory gating task developed for fMRI. P50 EEG evoked potential recordings from a paired-stimulus conditioning-test paradigm were obtained from the same subjects.
RESULTS
Compared to healthy comparison subjects, patients with schizophrenia exhibited greater activation in the hippocampus, thalamus, and dorsolateral prefrontal cortex (DLPFC) during the fMRI sensory gating task. No group difference was observed in the superior temporal gyrus. Schizophrenia subjects also showed decreased P50 suppression as measured with EEG. Hemodynamic response in the fMRI measure was positively correlated with test/conditioning ratios from the EEG sensory gating measure.
CONCLUSIONS
Poor sensory gating in schizophrenia is associated with dysfunction of an apparent network of brain regions, including the hippocampus, thalamus and DLPFC. Greater activation of these regions is consistent with evidence for diminished inhibitory function in schizophrenia.
目的
感觉门控缺陷是精神分裂症的一个常见特征。抑制性门控机制失效表现为对重复听觉刺激的诱发反应抑制不佳,此前已使用脑电图方法进行研究。这些方法可得出感觉门控缺陷的时间特征信息,但无法确定该过程中涉及的脑区。因此,精神分裂症中感觉门控不佳的神经解剖学基础在很大程度上仍不清楚。本研究使用功能磁共振成像(fMRI)来探究精神分裂症中感觉门控缺陷的功能性神经解剖学。
方法
12名精神分裂症患者和12名健康对照受试者在3特斯拉磁场下接受扫描,同时执行一项为fMRI开发的感觉门控任务。从同一受试者获取配对刺激条件-测试范式下的P50脑电图诱发电位记录。
结果
与健康对照受试者相比,精神分裂症患者在fMRI感觉门控任务期间,海马体、丘脑和背外侧前额叶皮质(DLPFC)的激活程度更高。颞上回未观察到组间差异。精神分裂症受试者脑电图测量的P50抑制也降低。fMRI测量中的血液动力学反应与脑电图感觉门控测量中的测试/条件比率呈正相关。
结论
精神分裂症中感觉门控不佳与包括海马体、丘脑和DLPFC在内的明显脑区网络功能障碍有关。这些区域的更大激活与精神分裂症中抑制功能减弱的证据一致。
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