Autor: |
van der Horn, Harm J., Dodd, Andrew B., Wick, Tracey V., Robertson‐Benta, Cidney R., McQuaid, Jessica R., Hittson, Anne K., Ling, Josef M., Zotev, Vadim, Ryman, Sephira G., Erhardt, Erik B., Phillips, John P., Campbell, Richard A., Sapien, Robert E., Mayer, Andrew R. |
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Zdroj: |
Human Brain Mapping; Dec2023, Vol. 44 Issue 17, p6173-6184, 12p |
Abstrakt: |
There is a growing body of research showing that cerebral pathophysiological processes triggered by pediatric mild traumatic brain injury (pmTBI) may extend beyond the usual clinical recovery timeline. It is paramount to further unravel these processes, because the possible long‐term cognitive effects resulting from ongoing secondary injury in the developing brain are not known. In the current fMRI study, neural processes related to cognitive control were studied in 181 patients with pmTBI at sub‐acute (SA; ~1 week) and early chronic (EC; ~4 months) stages post‐injury. Additionally, a group of 162 age‐ and sex‐matched healthy controls (HC) were recruited at equivalent time points. Proactive (post‐cue) and reactive (post‐probe) cognitive control were examined using a multimodal attention fMRI paradigm for either congruent or incongruent stimuli. To study brain network function, the triple‐network model was used, consisting of the executive and salience networks (collectively known as the cognitive control network), and the default mode network. Additionally, whole‐brain voxel‐wise analyses were performed. Decreased deactivation was found within the default mode network at the EC stage following pmTBI during both proactive and reactive control. Voxel‐wise analyses revealed sub‐acute hypoactivation of a frontal area of the cognitive control network (left pre‐supplementary motor area) during proactive control, with a reversed effect at the EC stage after pmTBI. Similar effects were observed in areas outside of the triple‐network during reactive control. Group differences in activation during proactive control were limited to the visual domain, whereas for reactive control findings were more pronounced during the attendance of auditory stimuli. No significant correlations were present between task‐related activations and (persistent) post‐concussive symptoms. In aggregate, current results show alterations in neural functioning during cognitive control in pmTBI up to 4 months post‐injury, regardless of clinical recovery. We propose that subacute decreases in activity reflect a general state of hypo‐excitability due to the injury, while early chronic hyperactivation represents a compensatory mechanism to prevent default mode interference and to retain cognitive control. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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