AI Article Synopsis
- The study examined brain network function in patients with mild traumatic brain injury (mTBI) while performing working memory tasks, focusing on differences between those with and without post-concussive complaints (PCC) two weeks after injury.
- Fifty-two mTBI patients were split into two groups (PCC-present and PCC-absent) and compared to twenty healthy controls using functional MRI during an n-back task with varying difficulty levels.
- Findings revealed that while task performance was similar between mTBI patients and controls, those without PCC displayed stronger deactivation of the default mode network and lower connectivity with the frontal executive network, indicating potential non-injury related factors contributing to post-concussive complaints.
Article Abstract
The aim was to investigate brain network function during working memory (WM) task performance in patients with uncomplicated mild traumatic brain injury (mTBI) in the sub-acute phase post-injury. We were particularly interested in differences between patients with (PCC-present) and without post-concussive complaints (PCC-absent). Fifty-two patients and twenty healthy controls (HCs) (matched for age, sex, education and handedness) were included. Two patient groups were created based on reported post-concussive complaints at two weeks post-injury: PCC-present (n = 32) and PCC-absent (n = 20). Functional MRI scans were made at approximately four weeks post-injury. Participants performed an n-back task consisting of three conditions (0-, 1- and 2-back) with increasing difficulty. General linear model analysis was performed to investigate activation patterns. Independent component analysis was used to identify brain networks. The frontal executive network (FEN), frontoparietal network (FPN) and default mode network (DMN) were selected for further analyses based on their highest task-relatedness. Task accuracy and reaction times were similar for patients with mTBI and HCs. During high WM load (2-vs.0-back contrast), mTBI patients exhibited lower activation within the medial prefrontal cortex compared to HCs. No differences were found between PCC-present and PCC-absent patients. Regarding network function, PCC-absent patients showed stronger deactivation of the DMN compared to PCC-present patients and HCs, especially during difficult task conditions. Furthermore, functional connectivity between the DMN and FEN was lower in PCC-absent patients compared to PCC-present patients. Interestingly, network function did not differ between PCC-present patients and HCs, suggesting that non-injury related factors may underlie post-concussive complaints after mTBI.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5167217 | PMC |
| http://dx.doi.org/10.1007/s11682-015-9489-y | DOI Listing |
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