Gray Matter Volume and Cognitive Performance During Normal Aging. A Voxel-Based Morphometry Study.

Normal aging is characterized by decline in cognitive functioning in conjunction with extensive gray matter (GM) atrophy. A first aim of this study was to determine GM volume differences related to aging by comparing two groups of participants, middle-aged group (MAG, mean age 41 years, N = 16) and older adults (OG, mean age 71 years, N = 14) who underwent an magnetic resonance images (MRI) voxel-based morphometry (VBM) evaluation. The VBM analyses included two optimized pipelines, for the cortex and for the cerebellum. Participants were also evaluated on a wide range of cognitive tests assessing both domain-general and language-specific processes, in order to examine how GM volume differences between OG and MAG relate to cognitive performance. Our results show smaller bilateral GM volume in the OG relative to the MAG, in several cerebral and right cerebellar regions involved in language and executive functions. Importantly, our results also revealed smaller GM volume in the right cerebellum in OG relative to MAG, supporting the idea of a complex cognitive role for this structure. This study provides a broad picture of cerebral, but also cerebellar and cognitive changes associated with normal aging.

Effect of social leisure activities on object naming in healthy aging A multimodal approach.

Environmental factors contribute to the constitution and maintenance of the cognitive reserve and partially explain the variability of cognitive performance in older individuals. We assessed the role of leisure activities - social and individual - on the access to lexico-semantic representations evaluated through a task of object naming (ON). We hypothesize that compared to individual, social leisure activities explain better the ON performance in the older adults, which is explained by a mechanism of neural reserve. Our results in older adults indicate (a) a significant correlation between leisure social activities and the response time for ON, (b) a significant correlation between link the neural activity of the left superior and medial frontal (SmFG) for ON and leisure social activities. Interestingly, the activity of the left SmFG partially mediates the relationship between social activities and OD performance. We suggest that social leisure activities may contribute to maintain ON performances in healthy aging, through a neural reserve mechanism, in relation with left SmFG activity. This region is typically involved in the access to semantic representations, guided by the emotional state. These results open interesting perspectives on the role of social leisure activities on lexical production during aging.

Aging Modulates the Hemispheric Specialization during Word Production.

Although older adults exhibit normal accuracy in performing word retrieval and generation (lexical production; e.g., object naming), they are generally slower in responding than younger adults. To maintain accuracy, older adults recruit compensatory mechanisms and strategies. We focused on two such possible compensatory mechanisms, one semantic and one executive. These mechanisms are reflected at inter- and intra-hemispheric levels by various patterns of reorganization of lexical production cerebral networks. Hemispheric reorganization (HR) changes were also evaluated in relation to increase naming latencies. Using functional magnetic resonance imaging (fMRI), we examined 27 healthy participants (from 30 years to 85 years) during an object naming task, exploring and identifying task-related patterns of cerebral reorganization. We report two main results. First, we observed a left intra-hemispheric pattern of reorganization, the left anterior-posterior aging (LAPA) effect, consisting of supplementary activation of left posterior (temporo-parietal) regions in older adults and asymmetric activation along the left fronto-temporal axis. This pattern suggests that older adults recruit posterior semantic regions to perform object naming. The second finding consisted of bilateral recruitment of frontal regions to maintain appropriate response times, especially in older adults who were faster performers. This pattern is discussed in terms of compensatory mechanism. We suggest that aging is associated with multiple, co-existing compensation and reorganization mechanisms and patterns associated with lexical production.