Schmahmann J D, Doyon J, McDonald D, Holmes C, Lavoie K, Hurwitz A S, Kabani N, Toga A, Evans A, Petrides M
Department of Neurology, Massachusetts General Hospital, Boston, Massachusetts, USA.
Neuroimage. 1999 Sep;10(3 Pt 1):233-60. doi: 10.1006/nimg.1999.0459.
We have prepared an atlas of the human cerebellum using high-resolution magnetic resonance-derived images warped into the proportional stereotaxic space of Talairach and Tournoux. Software that permits simultaneous visualization of the three cardinal planes facilitated the identification of the cerebellar fissures and lobules. A revised version of the Larsell nomenclature facilitated a simple description of the cerebellum. This atlas derived from a single individual was instrumental in addressing longstanding debates about the gross morphologic organization of the cerebellum. It may serve as the template for more precise identification of cerebellar topography in functional imaging studies in normals, for investigating clinical-pathologic correlations in patients, and for the development of future probabilistic maps of the human cerebellum.
我们利用高分辨率磁共振衍生图像,将其扭曲到Talairach和Tournoux的比例立体定向空间中,制作了一份人类小脑图谱。允许同时可视化三个主要平面的软件有助于识别小脑裂和小叶。Larsell命名法的修订版便于对小脑进行简单描述。这份源自单个个体的图谱有助于解决关于小脑大体形态组织的长期争论。它可作为模板,用于在正常功能成像研究中更精确地识别小脑地形,用于研究患者的临床病理相关性,以及用于开发未来人类小脑的概率图谱。
