The sensorimotor cortical system undergoes structural and functional changes across its lifespan. Some of these changes are physiological and parallel the normal aging process, while others might represent pathophysiological mechanisms underlying neurodegenerative disorders. In the last years, the study of possible age-related modifications in brain sensorimotor functional characteristics has been the focus of several research projects. Here we have used the transcranial magnetic stimulation (TMS)-electroencephalography (EEG) navigated co-registration to investigate the influence of physiological aging on the excitability and connectivity of the human sensorimotor cortical system. To this end, we compared the TMS-evoked EEG potentials (TEPs) collected after stimulating the dominant primary motor cortex (M1) in healthy young subjects (mean age 24.5years) with those collected in healthy older adults (mean age 67.6years). We have shown that, after stimulation of the left motor cortex, TEPs are significantly affected by physiological aging. This phenomenon has a clear spatio-temporal specificity and we speculate that normal aging per se leads to some changes in the excitability of specific cortical neural assemblies whereas other alterations could reflect compensatory mechanisms to such changes.

译文

:感觉运动皮质系统在其整个生命周期中都会发生结构和功能的变化。这些变化中的一些是生理上的并且与正常衰老过程平行,而其他一些则可能代表了神经退行性疾病的病理生理机制。近年来,对大脑感觉运动功能特征可能与年龄有关的修饰的研究一直是数个研究项目的重点。在这里,我们已经使用了经颅磁刺激(TMS)-脑电图(EEG)导航的共同注册,以研究生理老化对人类感觉运动皮层系统的兴奋性和连通性的影响。为此,我们比较了健康年轻受试者(平均年龄24.5岁)和健康老年人(平均年龄67.6岁)在刺激主要运动皮层(M1)后收集的TMS诱发的脑电势(TEP)。我们已经表明,刺激左运动皮层后,TEP受生理老化的影响很大。这种现象具有明确的时空特异性,我们推测正常衰老本身会导致特定皮层神经组件兴奋性发生某些变化,而其他变化可能反映出这种变化的补偿机制。

+1
+2
100研值 100研值 ¥99课程
检索文献一次
下载文献一次

去下载>

成功解锁2个技能,为你点赞

《SCI写作十大必备语法》
解决你的SCI语法难题!

技能熟练度+1

视频课《玩转文献检索》
让你成为检索达人!

恭喜完成新手挑战

手机微信扫一扫,添加好友领取

免费领《Endnote文献管理工具+教程》

微信扫码, 免费领取

手机登录

获取验证码
登录