Abstract
Successful prospective memory (PM) performance relies on executive functions, including inhibition. However, PM and inhibition are usually assessed in separate tasks, and analytically the focus is either on group differences or at most on interindividual differences. Conjoint measures of PM and inhibition performance that take into account intraindividual variability (IIV) are thus missing. In the present study, we assessed healthy older adults’ level of performance and IIV in both inhibition and PM using a classical Go/NoGo task. We also created a prospective Go/NoGo version that embeds a PM component into the task. Using dynamic structural equation modeling, we assessed the joint effects of mean level (), an indicator of amplitude of fluctuations in IIV (or net IIV; intraindividual standard deviation, iSD), and an indicator of time dependency in IIV (the autoregressive parameter ) in reaction times (RTs) on inhibition and PM performance. Results indicate that higher inhibition failure, but not IIV, predicted PM errors, corroborating the current literature on the involvement of prepotent response inhibition in PM processes. In turn, fastest RT latency () and increased net IIV (iSD) were consistently associated with prepotent response inhibition failure, while coherence in RT pattern () was beneficial to inhibition performance when the task was novel. Time-dependent IIV () appears to reflect an adaptive exploration of strategies to attain optimal performance, whereas increased net IIV (iSD) may indicate inefficient sustained cognitive processes when performance is high. We discuss trade-off processes between competing tasks.
Highlights
We investigated reaction times (RTs) in terms of mean level, as well as amplitude of fluctuations in intraindividual variability (IIV) and time-structured IIV modeled within the autoregressive framework
To summarize our interpretation of the two IIV components in these data, we suggest that a high autoregressive parameter φ in CGNG1 and in the first half of PGNG1 indicates exploration of best possible strategies during early phases of task acquisition, while net-IIV, as indicated by intraindividual standard deviation (iSD), reflects detrimental random processes in the classical version of GNG
Results of the present study indicate that higher RT latency and increased net variability are consistently associated with increased inhibition failure, while coherence in RT pattern predicts inhibition performance only when the task is novel
Summary
IIV as a Tool to Study Cognitive Aging. Aging is associated with a broad range of functional changes in cognition and structural changes in the brain [1]. The bulk of cognitive and developmental studies have focused on interindividual differences in mean level of performance, regarding reaction time (RT) latency and error rates [2]. Short-term variations in response within the same individual have mainly been considered error measurement, or noise, in the data. Fiske and Rice, stressed the importance of considering short-term fluctuations as valuable.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
