易损的神经网络与脑衰老和神经退行性变的交界。
Vulnerable neural systems and the borderland of brain aging and neurodegeneration.
机构信息
Helen Wills Neuroscience Institute, University of California Berkeley, Berkeley, CA 94720-3190, USA.
出版信息
Neuron. 2013 Jan 23;77(2):219-34. doi: 10.1016/j.neuron.2013.01.002.
Abstract
Brain aging is characterized by considerable heterogeneity, including varying degrees of dysfunction in specific brain systems, notably a medial temporal lobe memory system and a frontostriatal executive system. These same systems are also affected by neurodegenerative diseases. Recent work using techniques for presymptomatic detection of disease in cognitively normal older people has shown that some of the late life alterations in cognition, neural structure, and function attributed to aging probably reflect early neurodegeneration. However, it has become clear that these same brain systems are also vulnerable to aging in the absence of even subtle disease. Thus, fundamental systemic limitations appear to confer vulnerability of these neural systems to a variety of insults, including those recognized as typical disease and those that are attributed to age. By focusing on the fundamental causes of neural system vulnerability, the prevention or treatment of a wide range of late-life neural dysfunction might be possible.
摘要
大脑老化的特点是存在相当大的异质性,包括特定脑系统功能障碍的不同程度,特别是内侧颞叶记忆系统和额顶叶执行系统。这些相同的系统也受到神经退行性疾病的影响。最近使用技术对认知正常的老年人进行疾病的无症状检测的工作表明,一些归因于衰老的认知、神经结构和功能的晚年变化可能反映了早期神经退行性变。然而,很明显,即使没有轻微的疾病,这些相同的大脑系统也容易受到衰老的影响。因此,基本的系统性限制似乎使这些神经系统容易受到各种损伤的影响,包括那些被认为是典型疾病的损伤和归因于年龄的损伤。通过关注神经网络脆弱性的根本原因,可能有可能预防或治疗广泛的晚年神经功能障碍。
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