Vassal François, Pommier Benjamin, Sontheimer Anna, Lemaire Jean-Jacques
IGCNC (Image-Guided Clinical Neuroscience and Connectomics), CNRS, Sigma, Institut Pascal, UMR 6602, Université d'Auvergne, Clermont-Ferrand, France.
Service de Neurochirurgie, Hôpital Nord, Centre Hospitalier Universitaire, Saint-Etienne, France.
Surg Radiol Anat. 2018 Feb;40(2):129-137. doi: 10.1007/s00276-017-1966-0. Epub 2017 Dec 28.
Precise knowledge of the structural connectivity of white matter fascicles could yield new insights into function and is important for neurosurgical planning. Therefore, we aimed to provide a detailed map of the cortical terminations of the inferior fronto-occipital fascicle (IFOF), with special emphasis on putative inter-individual variations and hemispheric asymmetries.
Deterministic diffusion tensor imaging-based tractography was used to perform virtual dissection of the IFOF in 20 healthy subjects. The IFOF was probed from a single seed region of interest placed within the external/extreme capsule, i.e. the white matter region of "obligatory passage" along the known path of the IFOF. This enabled to reconstruct all the fibers belonging to the IFOF and to provide the complete map of their cortical terminations.
We observed widespread projections over a total of 11 cortical territories within the occipital, parietal, temporal and frontal lobes. Importantly, compared to previous studies we consistently found some inter-individual variability with several distinct patterns connecting subsets of the 11 cortical territories, and tangible differences between the two hemispheres. IFOF terminations within the superior parietal lobule were rightward lateralized, whereas terminations within the inferior frontal gyrus were leftward lateralized.
Our results provide a clinically relevant map of IFOF's cortical terminations, including intra- and inter-individual variations. Right-left differences in connectivity patterns might be related to known functional asymmetries in the human brain, and reinforce the general evidence that the IFOF likely supports distinct clinical features and functional roles according to the (affected) hemisphere, such as language and spatial attention.
对白质束的结构连通性有精确的了解,可能会为功能带来新的见解,并且对神经外科手术规划很重要。因此,我们旨在提供一份详细的额枕下束(IFOF)皮质终末图谱,特别强调个体间可能存在的差异以及半球不对称性。
在20名健康受试者中,使用基于确定性扩散张量成像的纤维束成像技术对IFOF进行虚拟解剖。从位于外囊/极端囊内的单个感兴趣种子区域探测IFOF,即沿着IFOF已知路径的“必经通道”白质区域。这使得能够重建属于IFOF的所有纤维,并提供其皮质终末的完整图谱。
我们观察到在枕叶、顶叶、颞叶和额叶内总共11个皮质区域有广泛的投射。重要的是,与之前的研究相比,我们一致发现了一些个体间差异,有几种不同的模式连接着11个皮质区域的不同子集,并且两个半球之间存在明显差异。顶上小叶内的IFOF终末向右半球侧化,而下额回内的终末向左半球侧化。
我们的结果提供了一份与临床相关的IFOF皮质终末图谱,包括个体内和个体间的差异。连通性模式的左右差异可能与人类大脑中已知的功能不对称性有关,并强化了这样一个普遍证据,即IFOF可能根据(受影响的)半球支持不同的临床特征和功能作用,如语言和空间注意力。
