Habas Christophe, Cabanis Emmanuel Alain
Service de NeuroImagerie, Hôpital des Quinze-Vingts, UPMC Paris 6, 28, rue de Charenton, 75012 Paris, France.
Neuroradiology. 2008 Apr;50(4):367-75. doi: 10.1007/s00234-007-0354-6. Epub 2008 Jan 3.
The cerebral and cerebellar network involved in unimanual continuous and discrete movements was studied in blood oxygenation level-dependent functional magnetic resonance imaging (fMRI) at 3 T.
Seven healthy right-handed volunteers were scanned (1) while drawing a circle with the tip of the right index finger (continuous motor task), and (2) while drawing a triangle with the tip of the right index finger (discrete motor task).
In both motor tasks, extensive activations were observed in the sensorimotor (M1/S1), parietal, prefrontal, insular, lateral occipital (LOC) and anterior cerebellar cortices. Subcortical activations within red, thalamic and lentiform nuclei were also detected. However, discrete movements were specifically followed by the recruitment of the left orbitofrontal cortex, right dentate nucleus and the second cerebellar homunculus (HVIII), and bilateral and stronger activation of the sensorimotor cortical areas, whereas continuous movements specifically activated the right prefrontal cortex and the lateral hemispherical part of the neocerebellum (crus 1).
We confirm the findings of previous studies showing partly distinct neural networks involved in monitoring continuous and discrete movements, but we found new differential neural relays within the prefrontal, insular and neocerebellar cortices.
在3T场强下,利用血氧水平依赖性功能磁共振成像(fMRI)研究了参与单手连续和离散运动的大脑及小脑网络。
对7名健康右利手志愿者进行扫描,(1)用右手食指指尖画圆时(连续运动任务),以及(2)用右手食指指尖画三角形时(离散运动任务)。
在两项运动任务中,均在感觉运动区(M1/S1)、顶叶、前额叶、岛叶、枕外侧皮质(LOC)和小脑前叶皮质观察到广泛激活。在红核、丘脑和豆状核内也检测到皮质下激活。然而,离散运动之后,特异性地募集了左侧眶额皮质、右侧齿状核和第二小脑同型区(HVIII),以及感觉运动皮质区域的双侧更强激活,而连续运动则特异性激活右侧前额叶皮质和新小脑的外侧半球部分(小叶1)。
我们证实了先前研究的结果,即参与监测连续和离散运动的神经网络部分不同,但我们在额叶、岛叶和新小脑皮质内发现了新的差异神经中继。
