Older individuals do not show task specific variations in EEG band power and finger force coordination

Abstract

AbstractBackgroundControlling and coordinating finger force is crucial for performing everyday tasks and maintaining functional independence. Aging naturally weakens neural, muscular, and musculoskeletal systems, leading to compromised hand motor function. This decline reduces cortical activity, finger force control and coordination in older adults.ObjectiveTo examine the relationship between EEG band power and finger force coordination in older individuals and compare the results with young adults.MethodsTwenty healthy young adults aged 20–30 (26.96±2.68) and fourteen older adults aged 58–72 (62.57±3.58) participated in this study. Participants held the instrumented handle gently for five seconds then lifted and held it for an additional five seconds in the two conditions: fixed (thumb platform secured) and free condition (thumb platform may slide on slider).ResultsIn the older individuals there was no difference observed in the finger force synergy indices, and EEG beta band power between the two task conditions. However, in the young group synergy indices and EEG beta band power were less in free condition compared to fixed condition. Additionally, in the fixed condition, older adults showed a reduced synergy indices and reduced EEG beta band power than the young adults.ConclusionOlder participants showed consistent synergy indices and beta band power across conditions, unlike young adults who adjusted strategies based on tasks. Young adults exhibited task-dependent finger force synergy indices contrasting with older individuals. These results suggest that the EEG beta band power may serve as a marker for finger force coordination rather than indicating the magnitude of force.