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老年人神经可塑性的体内证据。

In vivo evidence for neuroplasticity in older adults.

作者信息

Porto Fábio Henrique de Gobbi, Fox Anne Murphy, Tusch Erich S, Sorond Farzaneh, Mohammed Abdul H, Daffner Kirk R

机构信息

Laboratory of Healthy Cognitive Aging, Division of Cognitive and Behavioral Neurology and Center for Brain/Mind Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA.

Division of Stroke and Cerebrovascular Disease, Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA.

出版信息

Brain Res Bull. 2015 May;114:56-61. doi: 10.1016/j.brainresbull.2015.03.004. Epub 2015 Apr 6.

Abstract

Neuroplasticity can be conceptualized as an intrinsic property of the brain that enables modification of function and structure in response to environmental demands. Neuroplastic strengthening of synapses is believed to serve as a critical mechanism underlying learning, memory, and other cognitive functions. Ex vivo work investigating neuroplasticity has been done on hippocampal slices using high frequency stimulation. However, in vivo neuroplasticity in humans has been difficult to demonstrate. Recently, a long-term potentiation-like phenomenon, a form of neuroplastic change, was identified in young adults by differences in visual evoked potentials (VEPs) that were measured before and after tetanic visual stimulation (TVS). The current study investigated whether neuroplastic changes in the visual pathway can persist in older adults. Seventeen healthy subjects, 65 years and older, were recruited from the community. Subjects had a mean age of 77.4 years, mean education of 17 years, mean MMSE of 29.1, and demonstrated normal performance on neuropsychological tests. 1Hz checkerboard stimulation, presented randomly to the right or left visual hemi-field, was followed by 2min of 9Hz stimulation (TVS) to one hemi-field. After 2min of rest, 1Hz stimulation was repeated. Temporospatial principal component analysis was used to identify the N1b component of the VEPs, at lateral occipital locations, in response to 1Hz stimulation pre- and post-TVS. Results showed that the amplitude of factors representing the early and late N1b component was substantially larger after tetanic stimulation. These findings indicate that high frequency visual stimulation can enhance the N1b in cognitively high functioning old adults, suggesting that neuroplastic changes in visual pathways can continue into late life. Future studies are needed to determine the extent to which this marker of neuroplasticity is sustained over a longer period of time, and is influenced by age, cognitive status, and neurodegenerative disease.

摘要

神经可塑性可被概念化为大脑的一种内在属性,它能够使大脑根据环境需求对功能和结构进行改变。突触的神经可塑性增强被认为是学习、记忆及其他认知功能背后的关键机制。利用高频刺激对海马切片进行的体外研究已对神经可塑性展开了探究。然而,人类体内的神经可塑性一直难以得到证实。最近,通过在强直视觉刺激(TVS)前后测量的视觉诱发电位(VEP)差异,在年轻人中发现了一种类似长时程增强的现象,这是神经可塑性变化的一种形式。本研究调查了视觉通路中的神经可塑性变化在老年人中是否能够持续存在。从社区招募了17名65岁及以上的健康受试者。受试者的平均年龄为77.4岁,平均受教育年限为17年,平均简易精神状态检查表(MMSE)评分为29.1,并且在神经心理学测试中表现正常。向右侧或左侧视觉半视野随机呈现1Hz的棋盘格刺激,随后对一个半视野进行2分钟的9Hz刺激(TVS)。休息2分钟后,重复1Hz刺激。使用颞空间主成分分析来识别枕叶外侧位置对TVS前后1Hz刺激产生反应的VEP的N1b成分。结果显示,强直刺激后代表早期和晚期N1b成分的因子幅度显著更大。这些发现表明,高频视觉刺激可以增强认知功能良好的老年人的N1b,这表明视觉通路中的神经可塑性变化可以持续到老年。未来需要开展研究来确定这种神经可塑性标志物在更长时间段内的持续程度,以及它受年龄、认知状态和神经退行性疾病影响的程度。

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