Department of Medicine, Albert Einstein College of Medicine, 1225 Morris Park Avenue, Van Etten Building, Room 313B, Bronx, NY, 10461, USA.
Department of Neurology, Albert Einstein College of Medicine, 1225 Morris Park Avenue, Van Etten Building, Room 313B, Bronx, NY, 10461, USA.
Brain Imaging Behav. 2019 Apr;13(2):446-460. doi: 10.1007/s11682-018-9871-7.
Accelerated gait decline in aging is associated with many adverse outcomes, including an increased risk for falls, cognitive decline, and dementia. Yet, the brain structures associated with gait speed, and how they relate to specific cognitive domains, are not well-understood. We examined structural brain correlates of gait speed, and how they relate to processing speed, executive function, and episodic memory in three non-demented and community-dwelling older adult cohorts (Overall N = 352), using voxel-based morphometry and multivariate covariance-based statistics. In all three cohorts, we identified gray matter volume covariance patterns associated with gait speed that included brain stem, precuneus, fusiform, motor, supplementary motor, and prefrontal (particularly ventrolateral prefrontal) cortex regions. Greater expression of these gray matter volume covariance patterns linked to gait speed were associated with better processing speed in all three cohorts, and with better executive function in one cohort. These gray matter covariance patterns linked to gait speed were not associated with episodic memory in any of the cohorts. These findings suggest that gait speed, processing speed (and to some extent executive functions) rely on shared neural systems that are subject to age-related and dementia-related change. The implications of these findings are discussed within the context of the development of interventions to compensate for age-related gait and cognitive decline.
衰老过程中步态的加速衰退与许多不良后果相关,包括跌倒风险增加、认知能力下降和痴呆。然而,与步态速度相关的大脑结构及其与特定认知领域的关系尚不清楚。我们使用基于体素的形态测量学和基于多元协方差的统计方法,在三个无痴呆和社区居住的老年成人队列(总 N=352)中检查了步态速度的结构脑相关性,以及它们与处理速度、执行功能和情景记忆的关系。在所有三个队列中,我们确定了与步态速度相关的灰质体积协变模式,包括脑干、楔前叶、梭状回、运动、辅助运动和前额叶(特别是腹外侧前额叶)皮层区域。这些与步态速度相关的灰质体积协变模式的表达与所有三个队列中的处理速度更好相关,与一个队列中的执行功能更好相关。这些与步态速度相关的灰质协变模式与任何队列中的情景记忆均无关。这些发现表明,步态速度、处理速度(在一定程度上还有执行功能)依赖于共享的神经系统,这些系统会受到年龄相关和痴呆相关变化的影响。在讨论干预措施以补偿与年龄相关的步态和认知能力下降的发展时,应考虑到这些发现的意义。
