Department of Physiology, Anatomy and Genetics, University of Oxford, Oxford, United Kingdom.
Neurosurgery. 2012 Jan;70(1):162-9; discussion 169. doi: 10.1227/NEU.0b013e3182262c9a.
Targeting of the motor thalamus for the treatment of tremor has traditionally been achieved by a combination of anatomical atlases and neuroimaging, intraoperative clinical assessment, and physiological recordings.
To evaluate whether thalamic nuclei targeted in tremor surgery could be identified by virtue of their differing connections with noninvasive neuroimaging, thereby providing an extra factor to aid successful targeting.
Diffusion tensor tractography was performed in 17 healthy control subjects using diffusion data acquired at 1.5-T magnetic resonance imaging (60 directions, b value = 1000 s/mm, 2 × 2 × 2-mm³ voxels). The ventralis intermedius (Vim) and ventralis oralis posterior (Vop) nuclei were identified by a stereotactic neurosurgeon, and these sites were used as seeds for probabilistic tractography. The expected cortical connections of these nuclei, namely the primary motor cortex (M1) and contralateral cerebellum for the Vim and M1, the supplementary motor area, and dorsolateral prefrontal cortex for the Vop, were determined a priori from the literature.
Tractogram signal intensity was highest in the dorsolateral prefrontal cortex and supplementary motor area after Vop seeding (P < .001, Wilcoxon signed-rank tests). High intensity was seen in M1 after seeding of both nuclei but was greater with Vim seeding (P < .001). Contralateral cerebellar signal was highest with Vim seeding (P < .001).
Probabilistic tractography can depict differences in connectivity between intimate nuclei within the motor thalamus. These connections are consistent with published anatomical studies; therefore, tractography may provide an important adjunct in future targeting in tremor surgery.
传统上,通过解剖图谱和神经影像学、术中临床评估和生理记录的结合,实现了对丘脑运动核团的靶向治疗,以治疗震颤。
评估震颤手术中靶向的丘脑核是否可以通过其与无创神经影像学的不同连接来识别,从而提供额外的因素来辅助成功的靶向。
对 17 名健康对照者进行弥散张量纤维束成像,使用在 1.5-T 磁共振成像(60 个方向,b 值=1000 s/mm,2×2×2-mm³体素)上采集的弥散数据。由立体定向神经外科医生识别腹侧中间核(Vim)和腹侧前核(Vop),并将这些部位用作概率纤维束成像的种子。根据文献,确定这些核的预期皮质连接,即 Vim 核和对侧小脑的初级运动皮层(M1),以及 Vop 核的辅助运动区和背外侧前额叶皮层。
Vop 种子后,纤维束成像信号强度在背外侧前额叶皮层和辅助运动区最高(P<0.001,Wilcoxon 符号秩检验)。两种核种子后均可见 M1 信号强度较高,但 Vim 种子后更高(P<0.001)。Vim 种子后对侧小脑信号最高(P<0.001)。
概率纤维束成像可以描绘运动丘脑内亲密核之间连接的差异。这些连接与已发表的解剖研究一致;因此,纤维束成像可能在未来的震颤手术靶向中提供重要的辅助手段。
