Effects of aging on functional connectivity in a neurodegenerative risk cohort: resting state versus task measurement using near-infrared spectroscopy

• Main Authors: Blum, L. (Author), Ehlis, A.-C (Author), Elshehabi, M. (Author), Fallgatter, A.J (Author), Hofmann, A. (Author), Metzger, F.G (Author), Rosenbaum, D. (Author), Suenkel, U. (Author)
• Format: Article
• Language: English
• Published: Nature Research 2022
• Subjects: age; aged; aging; article; cognition; cohort analysis; controlled study; dorsal attention network; executive function; female; functional connectivity; functional near-infrared spectroscopy; human; human experiment; inferior frontal gyrus; major clinical study; male; trail making test
• Online Access: View Fulltext in Publisher

 Changes in functional brain organization are considered to be particularly sensitive to age-related effects and may precede structural cognitive decline. Recent research focuses on aging processes determined by resting state (RS) functional connectivity (FC), but little is known about differences in FC during RS and cognitive task conditions in elderly participants. The purpose of this study is to compare FC within and between the cognitive control (CCN) and dorsal attention network (DAN) at RS and during a cognitive task using functional near-infrared spectroscopy (fNIRS). In a matched, neurodegenerative high-risk cohort comprising early (n = 98; 50–65 y) and late (n = 98; 65–85 y) elder subjects, FC was measured at RS and during performance of the Trail Making Test (TMT) via fNIRS. Both, under RS and task conditions our results revealed a main effect for age, characterized by reduced FC for late elder subjects within the left inferior frontal gyrus. During performance of the TMT, negative correlations of age and FC were confirmed in various regions of the CCN and DAN. For the whole sample, FC of within-region connections was elevated, while FC between regions was decreased at RS. The results confirm a reorganization of functional brain connectivity with increasing age and cognitive demands. © 2022, The Author(s).