Mottolese C, Szathmari A, Beuriat P-A, Sirigu A, Desmurget M
Pediatric Neurosurgery E, Neurological Hospital P.-Wertheimer, 59, boulevard Pinel, 69500 Bron, France.
Pediatric Neurosurgery E, Neurological Hospital P.-Wertheimer, 59, boulevard Pinel, 69500 Bron, France.
Neurochirurgie. 2015 Apr-Jun;61(2-3):101-5. doi: 10.1016/j.neuchi.2013.05.004. Epub 2014 Jun 26.
The cerebellum is a fundamental structure of the central nervous system. However, in humans, its anatomo-functional organization and the processes through which this organization adapts in response to injuries remain widely unknown.
Motor and somatosensory evoked potentials were used to map functional representations in the posterior cerebellum of patients with extra- and intracellebellar injuries. Extracerebellar patients had injuries outside the cerebellum (e.g. pineal region, quadrigeminal plate) while intracerebellar patients had injuries within the cerebellum. Data were collected in 20 extracerebellar patients for motor representations. Only preliminary data were gathered for somatosensory representations and intracerebellar patients.
In extracerebellar patients, electrical stimulation induced muscle contractions in the ipsilateral hemibody. These representations were somatotopically organized with large overlaps between the face and upper limb in the superior posterior cerebellum and the upper and lower limb in the inferior posterior cerebellum. Neck muscles were represented in the oculomotor vermis. In intracerebellar patients, preliminary data seem to indicate that motor plasticity is achieved by recruiting the contralesional (healthy) cerebellar hemisphere.
Although still ongoing, this project could eventually lead to an improvement of the surgical treatment of patients with lesions of the posterior fossa, by improving our knowledge of cerebellar organization and the process of post-lesional plasticity.
小脑是中枢神经系统的一个基本结构。然而,在人类中,其解剖功能组织以及这种组织对损伤作出适应性改变的过程仍鲜为人知。
运动和体感诱发电位被用于绘制小脑内外损伤患者小脑后部的功能表征图。小脑外患者的损伤位于小脑之外(如松果体区、四叠体板),而小脑内患者的损伤位于小脑内。收集了20例小脑外患者的运动表征数据。对于体感表征和小脑内患者,仅收集了初步数据。
在小脑外患者中,电刺激诱发同侧半身的肌肉收缩。这些表征呈躯体定位组织,在小脑上后部,面部和上肢的表征有很大重叠,在小脑下后部,上肢和下肢的表征有很大重叠。颈部肌肉的表征位于动眼神经蚓部。在小脑内患者中,初步数据似乎表明运动可塑性是通过对侧(健康)小脑半球的募集来实现的。
尽管该项目仍在进行中,但通过增进我们对小脑组织和损伤后可塑性过程的了解,最终可能会改善后颅窝病变患者的手术治疗。
