Single Mild Traumatic Brain Injury Deteriorates Progressive Interhemispheric Functional and Structural Connectivity

The present study examined dynamic interhemispheric structural and functional connectivity in mild traumatic brain injury (mTBI) patients with longitudinal observations from early subacute to chronic stages within 1 year of injury. Forty-two mTBI patients and 42 matched healthy controls underwent cl...

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Veröffentlicht in:	Journal of neurotrauma 2021-02, Vol.38 (4), p.464-473
Hauptverfasser:	Wang, Zhuonan, Zhang, Ming, Sun, Chuanzhu, Wang, Shan, Cao, Jieli, Wang, Kevin K W, Gan, Shuoqiu, Huang, Wenmin, Niu, Xuan, Zhu, Yanan, Sun, Yingxiang, Bai, Lijun
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Sprache:	eng
Schlagworte:	Age Amnesia Brain mapping Cerebral hemispheres Cognitive ability Corpus callosum Dementia Emergency medical care Executive function Functional magnetic resonance imaging Head injuries Independent sample Intubation Investigations Longitudinal studies Magnetic resonance imaging Mental disorders Neural networks Neuroimaging Parkinson's disease Prefrontal cortex Structure-function relationships Trauma Traumatic brain injury
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container_title	Journal of neurotrauma
container_volume	38
creator	Wang, Zhuonan Zhang, Ming Sun, Chuanzhu Wang, Shan Cao, Jieli Wang, Kevin K W Gan, Shuoqiu Huang, Wenmin Niu, Xuan Zhu, Yanan Sun, Yingxiang Bai, Lijun
description	The present study examined dynamic interhemispheric structural and functional connectivity in mild traumatic brain injury (mTBI) patients with longitudinal observations from early subacute to chronic stages within 1 year of injury. Forty-two mTBI patients and 42 matched healthy controls underwent clinical and neuropsychological evaluations, diffusion tensor imaging, and resting-state functional magnetic resonance imaging. All mTBI patients were initially evaluated within 14 d post-injury (T-1) and at 3 months (T-2) and 6-12 months (T-3) follow-ups. Separate transcallosal fiber tracts in the corpus callosum (CC) with respect to their specific interhemispheric cortical projections were derived with fiber tracking and voxel-mirrored homotopic connectivity analyses. With diffusion tensor imaging-based tractography, five vertical segments of the CC (I-V) were distinguished. Correlation analyses were performed to evaluate relationships between structural and functional imaging measures as well as imaging indices and neuropsychological measures. The loss of integrity in the CC demonstrated saliently persistent and time-dependent regional specificity after mTBI. The impairment spanned multiple segments from CC II at T-1 and CC I, II, VI, and V at T-2 to all subregions at T-3. Moreover, loss of interhemispheric structural connectivity through the CC corresponded well to regions presenting altered interhemispheric functional connectivity. Decreased functional connectivity in the dorsolateral prefrontal cortex thereafter contributed to poor executive function in mTBI patients. The current study provides further evidence that the CC is a sign to interhemispheric highways underpinning the widespread cerebral pathology typifying mTBI syndrome.
doi_str_mv	10.1089/neu.2018.6196
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Forty-two mTBI patients and 42 matched healthy controls underwent clinical and neuropsychological evaluations, diffusion tensor imaging, and resting-state functional magnetic resonance imaging. All mTBI patients were initially evaluated within 14 d post-injury (T-1) and at 3 months (T-2) and 6-12 months (T-3) follow-ups. Separate transcallosal fiber tracts in the corpus callosum (CC) with respect to their specific interhemispheric cortical projections were derived with fiber tracking and voxel-mirrored homotopic connectivity analyses. With diffusion tensor imaging-based tractography, five vertical segments of the CC (I-V) were distinguished. Correlation analyses were performed to evaluate relationships between structural and functional imaging measures as well as imaging indices and neuropsychological measures. The loss of integrity in the CC demonstrated saliently persistent and time-dependent regional specificity after mTBI. The impairment spanned multiple segments from CC II at T-1 and CC I, II, VI, and V at T-2 to all subregions at T-3. Moreover, loss of interhemispheric structural connectivity through the CC corresponded well to regions presenting altered interhemispheric functional connectivity. Decreased functional connectivity in the dorsolateral prefrontal cortex thereafter contributed to poor executive function in mTBI patients. The current study provides further evidence that the CC is a sign to interhemispheric highways underpinning the widespread cerebral pathology typifying mTBI syndrome.</description><identifier>ISSN: 0897-7151</identifier><identifier>EISSN: 1557-9042</identifier><identifier>DOI: 10.1089/neu.2018.6196</identifier><identifier>PMID: 30931824</identifier><language>eng</language><publisher>United States: Mary Ann Liebert, Inc</publisher><subject>Age ; Amnesia ; Brain mapping ; Cerebral hemispheres ; Cognitive ability ; Corpus callosum ; Dementia ; Emergency medical care ; Executive function ; Functional magnetic resonance imaging ; Head injuries ; Independent sample ; Intubation ; Investigations ; Longitudinal studies ; Magnetic resonance imaging ; Mental disorders ; Neural networks ; Neuroimaging ; Parkinson's disease ; Prefrontal cortex ; Structure-function relationships ; Trauma ; Traumatic brain injury</subject><ispartof>Journal of neurotrauma, 2021-02, Vol.38 (4), p.464-473</ispartof><rights>Copyright Mary Ann Liebert, Inc. 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The impairment spanned multiple segments from CC II at T-1 and CC I, II, VI, and V at T-2 to all subregions at T-3. Moreover, loss of interhemispheric structural connectivity through the CC corresponded well to regions presenting altered interhemispheric functional connectivity. Decreased functional connectivity in the dorsolateral prefrontal cortex thereafter contributed to poor executive function in mTBI patients. 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Forty-two mTBI patients and 42 matched healthy controls underwent clinical and neuropsychological evaluations, diffusion tensor imaging, and resting-state functional magnetic resonance imaging. All mTBI patients were initially evaluated within 14 d post-injury (T-1) and at 3 months (T-2) and 6-12 months (T-3) follow-ups. Separate transcallosal fiber tracts in the corpus callosum (CC) with respect to their specific interhemispheric cortical projections were derived with fiber tracking and voxel-mirrored homotopic connectivity analyses. With diffusion tensor imaging-based tractography, five vertical segments of the CC (I-V) were distinguished. Correlation analyses were performed to evaluate relationships between structural and functional imaging measures as well as imaging indices and neuropsychological measures. The loss of integrity in the CC demonstrated saliently persistent and time-dependent regional specificity after mTBI. The impairment spanned multiple segments from CC II at T-1 and CC I, II, VI, and V at T-2 to all subregions at T-3. Moreover, loss of interhemispheric structural connectivity through the CC corresponded well to regions presenting altered interhemispheric functional connectivity. Decreased functional connectivity in the dorsolateral prefrontal cortex thereafter contributed to poor executive function in mTBI patients. The current study provides further evidence that the CC is a sign to interhemispheric highways underpinning the widespread cerebral pathology typifying mTBI syndrome.</abstract><cop>United States</cop><pub>Mary Ann Liebert, Inc</pub><pmid>30931824</pmid><doi>10.1089/neu.2018.6196</doi><tpages>10</tpages></addata></record>
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subjects	Age Amnesia Brain mapping Cerebral hemispheres Cognitive ability Corpus callosum Dementia Emergency medical care Executive function Functional magnetic resonance imaging Head injuries Independent sample Intubation Investigations Longitudinal studies Magnetic resonance imaging Mental disorders Neural networks Neuroimaging Parkinson's disease Prefrontal cortex Structure-function relationships Trauma Traumatic brain injury
title	Single Mild Traumatic Brain Injury Deteriorates Progressive Interhemispheric Functional and Structural Connectivity
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