Dept Biomedical Sciences, College of Veterinary Medicine & Linus Pauling Institute, Oregon State University, Corvallis, OR, 97331, USA.
School of Psychology, College of Sciences, Georgia Institute of Technology, Atlanta, GA, 30332, USA.
Neuroimage. 2019 Nov 15;202:116069. doi: 10.1016/j.neuroimage.2019.116069. Epub 2019 Aug 2.
The current study applied a rodent-based virtual Morris water maze (vMWM) protocol to an investigation of differences in search performance and brain activations between young and older male human adults. All participants completed in-lab practice and testing before performing the task in the fMRI scanner. Behavioral performance during fMRI scanning - measured in terms of corrected cumulative proximity (CCProx) to the goal - showed that a subgroup of older good performers attained comparable levels of search accuracy to the young while another subgroup of older poor performers exhibited consistently lower levels of search accuracy than both older good performers and the young. With regard to brain activations, young adults exhibited greater activations in the cerebellum and cuneus than all older adults, as well as older poor performers. Older good performers exhibited higher activation than older poor performers in the orbitofrontal cortex (BA 10/11), as well as in the cuneus and cerebellum. Brain-behavior correlations further showed that activations in regions involved in visuomotor control (cerebellum, lingual gyrus) and egocentric spatial processing (premotor cortex, precuneus) correlated positively with search accuracy (i.e., closer proximity to goal) in all participants. Notably, activations in the anterior hippocampus correlated positively with search accuracy (CCProx inversed) in the young but not in the old. Taken together, these findings implicated the orbitofrontal cortex and the cerebellum as playing crucial roles in executive and visuospatial processing in older adults, supporting the proposal of an age-related compensatory shift in spatial memory functions away from the hippocampus toward the prefrontal cortex.
当前研究应用啮齿动物虚拟莫里斯水迷宫(vMWM)方案,探究年轻和老年男性人类在搜索表现和大脑激活方面的差异。所有参与者在 fMRI 扫描仪中执行任务之前,都完成了实验室实践和测试。fMRI 扫描期间的行为表现(以修正后的累计接近度(CCProx)衡量)表明,老年表现良好的亚组达到了与年轻人相当的搜索准确性水平,而另一组老年表现较差的亚组则表现出持续低于老年表现良好的亚组和年轻人的搜索准确性水平。就大脑激活而言,年轻人的小脑和楔前叶的激活程度高于所有老年人,以及老年表现较差的人。老年表现良好的人在眶额皮质(BA 10/11)以及楔前叶和小脑的激活程度高于老年表现较差的人。脑-行为相关性进一步表明,参与视动控制(小脑、舌回)和自我中心空间处理(运动前皮质、楔前叶)的区域的激活与所有参与者的搜索准确性(即,更接近目标)呈正相关。值得注意的是,年轻人的前海马体激活与搜索准确性(CCProx 反转)呈正相关,但老年人则没有。综上所述,这些发现表明眶额皮质和小脑在老年人的执行和视空间处理中起着关键作用,支持了海马体以外的空间记忆功能向额前皮质转移的与年龄相关的补偿性转变的假说。