Affiliation:
1. Beijing Key Laboratory of Mental Disorders, National Clinical Research Center for Mental Disorders & National Center for Mental Disorders, Beijing Anding Hospitaldiscu Capital Medical University Beijing China
2. Advanced Innovation Center for Human Brain Protection Capital Medical University Beijing China
Abstract
SummaryIt has been demonstrated that shift work can affect cognitive functions. Several neuroimaging studies have revealed altered brain function and structure for patients with shift work disorder (SWD). However, knowledge on the dysfunction of large‐scale brain networks underlying cognitive impairments in shift work disorder is limited. This study aims to identify altered functional networks associated with cognitive declines in shift work disorder, and to assess their potential diagnostic value. Thirty‐four patients with shift work disorder and 36 healthy controls (HCs) were recruited to perform the Repeatable Battery for the Assessment of Neuropsychological Status (RBANS) and resting‐state functional scans. After surface‐based preprocessing, we calculated within‐ and between‐network functional connectivity (FC) using the Dosenbach atlas. Moreover, correlation analysis was done between altered functional connectivity of large‐scale brain networks and scores of cognitive assessments in patients with shift work disorder. Finally, we established a classification model to provide features for patients with shift work disorder concerning the disrupted large‐scale networks. Compared with healthy controls, increased functional connectivity within‐networks across the seven brain networks, and between‐networks involving ventral attention network (VAN)‐subcortical network (SCN), SCN‐frontoparietal network (FPN), and somatosensory network (SMN)‐SCN were observed in shift work disorder. Decreased functional connectivity between brain networks was found in shift work disorder compared with healthy controls, including visual network (VN)‐FPN, VN‐default mode network (DMN), SMN‐DMN, dorsal attention network (DAN)‐DMN, VAN‐DMN, and FPN‐DMN. Furthermore, the altered functional connectivity of large‐scale brain networks was significantly correlated with scores of immediate memory, visuospatial, and delayed memory in patients with shift work disorder, respectively. Abnormal functional connectivity of large‐scale brain networks may play critical roles in cognitive dysfunction in shift work disorder. Our findings provide new evidence to interpret the underlying neural mechanisms of cognitive impairments in shift work disorder.
Funder
National Natural Science Foundation of China
Subject
Behavioral Neuroscience,Cognitive Neuroscience,General Medicine
Reference56 articles.
1. Sleep deprivation: Impact on cognitive performance;Alhola P.;Neuropsychiatric Disease and Treatment,2007
2. Evidence for the default network's role in spontaneous cognition;Andrews‐Hanna J. R.;Journal of Neurophysiology,2010
3. The role of sleep hygiene in the risk of shift work disorder in nurses;Booker L. A.;Sleep,2020
4. Exploring the associations between shift work disorder, depression, anxiety and sick leave taken amongst nurses;Booker L. A.;Journal of Sleep Research,2020
5. The effectiveness of an individualized sleep and shift work education and coaching program to manage shift work disorder in nurses: A randomized controlled trial;Booker L. A.;Journal of Clinical Sleep Medicine,2022