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纯原发性运动皮层进展性胶质瘤患者的功能重组:一例特别参考体感诱发电位定义的地形中央沟的病例报告

Functional reorganization in the patient with progressing glioma of the pure primary motor cortex: a case report with special reference to the topographic central sulcus defined by somatosensory-evoked potential.

作者信息

Hayashi Yutaka, Nakada Mitsutoshi, Kinoshita Masashi, Hamada Jun-ichiro

机构信息

Department of Neurosurgery, Kanazawa University, Kanazawa, Japan.

Department of Neurosurgery, Kanazawa University, Kanazawa, Japan.

出版信息

World Neurosurg. 2014 Sep-Oct;82(3-4):536.e1-4. doi: 10.1016/j.wneu.2013.01.084. Epub 2013 Jan 19.

DOI:10.1016/j.wneu.2013.01.084
PMID:23336982
Abstract

BACKGROUND

The concept of human brain reorganization due to slow-growing lesions, including low-grade glioma, has been gradually and generally accepted. However, few cases have been reported in which the reorganization, especially in the topographic pure primary motor cortex, was observed during brain surgery. We report a case of slow-growing oligodendroglioma located in the pure primary motor cortex, as detected by magnetic resonance imaging that could be resected in part thanks to the brain plasticity. In addition, we describe a pitfall of topographic guidance using somatosensory-evoked potential (SEP) monitoring.

CASE DESCRIPTION

A 36-year-old right-handed patient underwent resection of a gradually growing oligodendroglioma located in the right primary motor cortex, with no other adjacent lesions, 8 years after the initial biopsy. The central sulcus was defined with intraoperative SEP monitoring in both operations. Based on the findings of the intraoperative direct electrical stimulation under awake craniotomy, we suspect that motor function shifted posteriorly and reorganized beyond the central sulcus.

CONCLUSIONS

Pure primary motor cortex could be reorganized by its own lesion. In reorganized brain, topographic central sulcus defined based on SEP findings may be an inappropriate guidance to estimate true functional area. In such a condition, intraoperative direct electrical stimulation under awake craniotomy makes it feasible to resect pure primary motor cortex invaded by tumors.

摘要

背景

由于生长缓慢的病变(包括低级别胶质瘤)导致人类大脑重组的概念已逐渐被广泛接受。然而,鲜有报告称在脑手术过程中观察到这种重组,尤其是在地形学上纯粹的初级运动皮层中。我们报告一例位于纯粹初级运动皮层的生长缓慢的少突胶质细胞瘤病例,磁共振成像检测到该肿瘤,由于大脑可塑性得以部分切除。此外,我们描述了使用体感诱发电位(SEP)监测进行地形学引导时的一个陷阱。

病例描述

一名36岁右利手患者在初次活检8年后,接受了位于右侧初级运动皮层的逐渐生长的少突胶质细胞瘤切除术,无其他相邻病变。在两次手术中均通过术中SEP监测确定中央沟。基于清醒开颅手术中术中直接电刺激的结果,我们怀疑运动功能向后移位并在中央沟以外进行了重组。

结论

纯粹的初级运动皮层可因其自身病变而重组。在重组的大脑中,基于SEP结果定义的地形学中央沟可能不是估计真正功能区的合适引导。在这种情况下,清醒开颅手术中的术中直接电刺激使切除受肿瘤侵犯的纯粹初级运动皮层成为可能。

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