Maingault Sophie, Tzourio-Mazoyer Nathalie, Mazoyer Bernard, Crivello Fabrice
Université de Bordeaux, GIN, IMN UMR 5293, Bordeaux, France; Centre National de la Recherche Scientifique, GIN, IMN UMR 5293, Bordeaux, France; CEA, GIN, IMN UMR 5293, Bordeaux, France.
Université de Bordeaux, GIN, IMN UMR 5293, Bordeaux, France; Centre National de la Recherche Scientifique, GIN, IMN UMR 5293, Bordeaux, France; CEA, GIN, IMN UMR 5293, Bordeaux, France.
Neuropsychologia. 2016 Dec;93(Pt B):350-364. doi: 10.1016/j.neuropsychologia.2016.03.025. Epub 2016 Mar 25.
We report on the patterns of asymmetries of various MRI-derived cortical phenotypes, namely cortical thickness (CT), cortical surface area (CSA), cortical volume (CV) and sulcal depth (SULC), as well as on their cross-relationships. A surface-based approach was designed to obtain cortical asymmetry maps unbiased for inter-hemispheric structural positional misalignment. Accurate vertex-wise asymmetries of CT, CSA, CV, and SULC were so obtained in 250 individuals including 120 left-handers that had been selected from a larger population as having a typical leftward language lateralization. We found no significant effect of handedness on CT, CSA or CV asymmetries, although a trend for a significant difference in the SULC asymmetry of the Rolandic genu was present (leftward in right-handers, rightward in left-handers). At the hemispheric level, we found rightward CT and CSA asymmetries that were not correlated. At the regional level, asymmetry patterns of CT and CSA were marked by a spatial overlap of both concordant and opposite CT and CSA asymmetries. Half of these regions of overlap presented a significant association (positive or negative) between CT and CSA asymmetries. Strikingly, the 3 regions showing positive correlations between CT and CSA asymmetries were those known to exhibit robust asymmetries across methodologies, such as the leftward asymmetrical planum temporale and the rightward asymmetrical superior temporal sulcus and cingulate cortex. This study demonstrates that regional correlations between CT and CSA asymmetries are a characteristic of brain structural organization that could be of significance in the choice of structural markers in studies dealing with the genetic basis of brain lateralization.
我们报告了各种磁共振成像衍生的皮质表型的不对称模式,即皮质厚度(CT)、皮质表面积(CSA)、皮质体积(CV)和脑沟深度(SULC),以及它们之间的相互关系。设计了一种基于表面的方法来获得不受半球间结构位置错位影响的皮质不对称图谱。在250名个体中获得了CT、CSA、CV和SULC精确的逐顶点不对称性数据,其中包括120名左利手个体,这些个体是从更大的人群中挑选出来的,具有典型的左侧语言优势。我们发现利手对CT、CSA或CV不对称性没有显著影响,尽管罗兰氏膝部的SULC不对称性存在显著差异的趋势(右利手向左,左利手向右)。在半球水平上,我们发现右侧的CT和CSA不对称性不相关。在区域水平上,CT和CSA的不对称模式以CT和CSA的同向和反向不对称性在空间上的重叠为特征。这些重叠区域中有一半在CT和CSA不对称性之间呈现出显著的关联(正相关或负相关)。引人注目的是,显示CT和CSA不对称性之间存在正相关的3个区域是那些在不同方法中都表现出强烈不对称性的区域,如左侧不对称的颞平面、右侧不对称的颞上沟和扣带回皮质。这项研究表明,CT和CSA不对称性之间的区域相关性是脑结构组织的一个特征,在研究脑侧化的遗传基础时,这可能对结构标记物的选择具有重要意义。
