Narr K, Thompson P, Sharma T, Moussai J, Zoumalan C, Rayman J, Toga A
Laboratory of Neuro Imaging, Department of Neurology, Division of Brain Mapping, UCLA School of Medicine, Los Angeles, CA 90095-1769, USA.
Am J Psychiatry. 2001 Feb;158(2):244-55. doi: 10.1176/appi.ajp.158.2.244.
People with schizophrenia exhibit abnormalities in brain structure, often in the left hemisphere. Disturbed structural lateralization is controversial, however, and effects appear mediated by gender. The authors mapped differences between schizophrenic and normal subjects in gyral asymmetries, complexity, and variability across the entire cortex.
Asymmetry and shape profiles for 25 schizophrenic patients (15 men) and 28 demographically similar normal subjects (15 men) were obtained for 38 gyral regions, including the sylvian fissure and temporal and postcentral gyri, by using magnetic resonance data and a novel surface-based mesh-modeling approach. Cortical complexity was examined for sex and diagnosis effects in lobar regions. Intragroup variability was quantified and visualized to assess regional group abnormalities at the cortical surface.
The patients showed greater variability in frontal areas than the comparison subjects. They also had significant deviations in gyral complexity asymmetry in the superior frontal cortex. In temporoparietal regions, significant gyral asymmetries were present in both groups. Sex differences were apparent in superior temporal gyral measures, and cortical complexity in inferior frontal regions was significantly greater in men.
Cortical variability and complexity show regional abnormalities in the frontal cortex potentially specific to schizophrenia. The results indicate highly significant temporoparietal gyral asymmetries in both diagnostic groups, contrary to reports of less lateralization in schizophrenia. Substantially larger study groups are necessary to isolate smaller deviations in surface asymmetries, if present in schizophrenia, suggesting their diagnostic value is minimal.
精神分裂症患者的大脑结构存在异常,通常发生在左半球。然而,结构侧化紊乱存在争议,且其影响似乎由性别介导。作者绘制了精神分裂症患者与正常受试者在整个皮质的脑回不对称性、复杂性和变异性方面的差异。
通过使用磁共振数据和一种基于表面的新型网格建模方法,获取了25名精神分裂症患者(15名男性)和28名人口统计学特征相似的正常受试者(15名男性)的38个脑回区域(包括外侧裂、颞回和中央后回)的不对称性和形状轮廓。研究了叶区域中性别和诊断对皮质复杂性的影响。对组内变异性进行量化和可视化,以评估皮质表面的区域组异常情况。
与对照组相比,患者额叶区域的变异性更大。他们在额上皮质的脑回复杂性不对称方面也存在显著偏差。在颞顶区域,两组均存在显著的脑回不对称。颞上回测量中存在明显的性别差异,男性额下区域的皮质复杂性显著更高。
皮质变异性和复杂性在额叶皮质显示出可能特定于精神分裂症的区域异常。结果表明,两个诊断组的颞顶脑回不对称性都非常显著,这与精神分裂症侧化较少的报道相反。如果精神分裂症存在表面不对称的较小偏差,需要更大的研究组来分离这些偏差,这表明它们的诊断价值很小。