Loh Kep Kee, Hadj-Bouziane Fadila, Petrides Michael, Procyk Emmanuel, Amiez Céline
Univ Lyon, Université Claude Bernard Lyon 1, Institut National de la Santé Et de la Recherche Médicale, Stem Cell and Brain Research Institute U1208, Bron, France.
Institut National de la Santé Et de la Recherche Médicale, U1028, Centre National de la Recherche Scientifique UMR5292, Lyon Neuroscience Research Center, ImpAct Team - University UCBL Lyon 1, Lyon, France.
Front Neurosci. 2018 Jan 11;11:753. doi: 10.3389/fnins.2017.00753. eCollection 2017.
According to contemporary views, the lateral frontal cortex is organized along a rostro-caudal functional axis with increasingly complex cognitive/behavioral control implemented rostrally, and increasingly detailed motor control implemented caudally. Whether the medial frontal cortex follows the same organization remains to be elucidated. To address this issue, the functional connectivity of the 3 cingulate motor areas (CMAs) in the human brain with the lateral frontal cortex was investigated. First, the CMAs and their representations of hand, tongue, and eye movements were mapped via task-related functional magnetic resonance imaging (fMRI). Second, using resting-state fMRI, their functional connectivity with lateral prefrontal and lateral motor cortical regions of interest (ROIs) were examined. Importantly, the above analyses were conducted at the single-subject level to account for variability in individual cingulate morphology. The results demonstrated a rostro-caudal functional organization of the CMAs in the human brain that parallels that in the lateral frontal cortex: the rostral CMA has stronger functional connectivity with prefrontal regions and weaker connectivity with motor regions; conversely, the more caudal CMAs have weaker prefrontal and stronger motor connectivity. Connectivity patterns of the hand, tongue and eye representations within the CMAs are consistent with that of their parent CMAs. The parallel rostral-to-caudal functional organization observed in the medial and lateral frontal cortex could likely contribute to different hierarchies of cognitive-motor control.
根据当代观点,额叶外侧皮质沿前后功能轴组织,越靠前实现越复杂的认知/行为控制,越靠后实现越精细的运动控制。内侧额叶皮质是否遵循相同的组织方式仍有待阐明。为解决这个问题,研究了人脑中3个扣带运动区(CMA)与额叶外侧皮质的功能连接。首先,通过任务相关功能磁共振成像(fMRI)绘制CMA及其对手、舌和眼运动的表征。其次,使用静息态fMRI,检查它们与额叶外侧和运动皮质感兴趣区域(ROI)的功能连接。重要的是,上述分析在单受试者水平进行,以考虑个体扣带回形态的变异性。结果表明,人脑中CMA存在与额叶外侧皮质平行的前后功能组织:吻侧CMA与额叶区域的功能连接更强,与运动区域的连接较弱;相反,越靠尾侧的CMA与额叶的连接较弱,与运动的连接较强。CMA内手、舌和眼表征的连接模式与其母CMA一致。在内侧和外侧额叶皮质中观察到的平行前后功能组织可能有助于不同层次的认知-运动控制。
