Aging effects on control ability: an ERP study using the AX continuous performance task in middle-aged and older adults

Abstract The dual mechanisms of control model (DMC model) assumes that aging leads to decline in proactive control and reactive control abilities in various aspects of daily life. However, the methods adopted by previous ERP studies limit their capacity to provide in-depth information on the aging effects of neural processes, such as N2 (reactive control), P3b, and CNV (proactive control). This study aims to clarify the aging effects on proactive control and reactive control by controlling additional (potentially confounding) variables (e.g., physical fitness level) and utilizing N2, CNV, and P3b to specify neural processes in the DMC model. To achieve this goal, a total of sixty-two middle-aged and fifty-nine older adults were recruited. Participants underwent the Senior Fitness Test to measure physical fitness level. Furthermore, participants were required to perform the AX-CPT task while ERPs were recorded. The results were primarily focused on the analysis of N2 in AY trials and the analysis of P3b and CNV in BX trials. Notably, older adults exhibited faster reaction times (RT) than middle-aged adults in AY trials. Conversely, in BX trials, older adults displayed slower RT compared with middle-aged adults. Furthermore, our findings indicated that older adults had higher CNV amplitude at the parietal region in comparison with middle-aged adults in BX trials. We suggest that older adults may tend to engage more attentional resources in avoiding the false alarm in AY trials. In contrast, middle-aged adults may engage in a predictive function that directs attention to a particular response in BX trials.