Dissecting the cognitive phenotype of post‐stroke fatigue using computerized assessment and computational modeling of sustained attention

• Published in: The European journal of neuroscience Vol. 52; no. 7; pp. 3828 - 3845
• Main Authors: Ulrichsen, Kristine M., Alnæs, Dag, Kolskår, Knut K., Richard, Geneviève, Sanders, Anne‐Marthe, Dørum, Erlend S., Ihle‐Hansen, Hege, Pedersen, Mads L., Tornås, Sveinung, Nordvik, Jan E., Westlye, Lars T.
• Format: Journal Article
• Language: English
• Published: France Wiley Subscription Services, Inc 01.10.2020
• Subjects: Attention; attention networks; Cognitive ability; cognitive fatigue; computational modeling; Computer applications; Fatigue; Genotype & phenotype; Information processing; Phenotypes; reaction time; rehabilitation; Stroke; stroke sequela; reaction time; cognitive fatigue; rehabilitation; computational modeling; attention networks; stroke sequela
• ISSN: 0953-816X; 1460-9568
• DOI: 10.1111/ejn.14861

Post‐stroke fatigue (PSF) is prevalent among stroke patients, but its mechanisms are poorly understood. Many patients with PSF experience cognitive difficulties, but studies aiming to identify cognitive correlates of PSF have been largely inconclusive. With the aim of characterizing the relationship between subjective fatigue and attentional function, we collected behavioral data using the attention network test (ANT) and self‐reported fatigue scores using the fatigue severity scale (FSS) from 53 stroke patients. In order to evaluate the utility and added value of computational modeling for delineating specific underpinnings of response time (RT) distributions, we fitted a hierarchical drift diffusion model (hDDM) to the ANT data. Results revealed a relationship between fatigue and RT distributions. Specifically, there was a positive interaction between FSS score and elapsed time on RT. Group analyses suggested that patients without PSF increased speed during the course of the session, while patients with PSF did not. In line with the conventional analyses based on observed RT, the best fitting hDD model identified an interaction between elapsed time and fatigue on non‐decision time, suggesting an increase in time needed for stimulus encoding and response execution rather than cognitive information processing and evidence accumulation. These novel results demonstrate the significance of considering the sustained nature of effort when defining the cognitive phenotype of PSF, intuitively indicating that the cognitive phenotype of fatigue entails an increased vulnerability to sustained effort, and suggest that the use of computational approaches offers a further characterization of specific processes underlying behavioral differences. Characterizing post stroke fatigue by the ANT test, we found a positive interaction between FSS score and elapsed time on RT. Patients with low fatigue increased speed during the course of the session, while patients with high fatigue did not. hDD modelling identified an interaction between elapsed time and fatigue on non‐decision time, suggesting an increase in time needed for stimulus encoding and response execution.