Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI
Abstract Functional magnetic resonance imaging (fMRI) has significant potential to evaluate changes in brain network activity after traumatic brain injury (TBI) and enable early prognosis of potential functional (e.g., motor, cognitive, behavior) deficits. In this study, resting-state and task-based...
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Nature Publishing Group
2021-06-01
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| Series: | Scientific Reports |
| Online Access: | https://doi.org/10.1038/s41598-021-91853-5 |
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doaj-cce699e3d1034a91858fc8451ac06e152021-06-13T11:37:12ZengNature Publishing GroupScientific Reports2045-23222021-06-0111111910.1038/s41598-021-91853-5Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRIGregory Simchick0Kelly M. Scheulin1Wenwu Sun2Sydney E. Sneed3Madison M. Fagan4Savannah R. Cheek5Franklin D. West6Qun Zhao7Department of Physics and Astronomy, Franklin College of Arts and Sciences, University of GeorgiaRegenerative Bioscience Center, University of GeorgiaDepartment of Physics and Astronomy, Franklin College of Arts and Sciences, University of GeorgiaRegenerative Bioscience Center, University of GeorgiaRegenerative Bioscience Center, University of GeorgiaDepartment of Animal and Dairy Science, College of Agricultural and Environmental Sciences, University of GeorgiaRegenerative Bioscience Center, University of GeorgiaDepartment of Physics and Astronomy, Franklin College of Arts and Sciences, University of GeorgiaAbstract Functional magnetic resonance imaging (fMRI) has significant potential to evaluate changes in brain network activity after traumatic brain injury (TBI) and enable early prognosis of potential functional (e.g., motor, cognitive, behavior) deficits. In this study, resting-state and task-based fMRI (rs- and tb-fMRI) were utilized to examine network changes in a pediatric porcine TBI model that has increased predictive potential in the development of novel therapies. rs- and tb-fMRI were performed one day post-TBI in piglets. Activation maps were generated using group independent component analysis (ICA) and sparse dictionary learning (sDL). Activation maps were compared to pig reference functional connectivity atlases and evaluated using Pearson spatial correlation coefficients and mean ratios. Nonparametric permutation analyses were used to determine significantly different activation areas between the TBI and healthy control groups. Significantly lower Pearson values and mean ratios were observed in the visual, executive control, and sensorimotor networks for TBI piglets compared to controls. Significant differences were also observed within several specific individual anatomical structures within each network. In conclusion, both rs- and tb-fMRI demonstrate the ability to detect functional connectivity disruptions in a translational TBI piglet model, and these disruptions can be traced to specific affected anatomical structures.https://doi.org/10.1038/s41598-021-91853-5 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Gregory Simchick Kelly M. Scheulin Wenwu Sun Sydney E. Sneed Madison M. Fagan Savannah R. Cheek Franklin D. West Qun Zhao |
| spellingShingle |
Gregory Simchick Kelly M. Scheulin Wenwu Sun Sydney E. Sneed Madison M. Fagan Savannah R. Cheek Franklin D. West Qun Zhao Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI Scientific Reports |
| author_facet |
Gregory Simchick Kelly M. Scheulin Wenwu Sun Sydney E. Sneed Madison M. Fagan Savannah R. Cheek Franklin D. West Qun Zhao |
| author_sort |
Gregory Simchick |
| title |
Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI |
| title_short |
Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI |
| title_full |
Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI |
| title_fullStr |
Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI |
| title_full_unstemmed |
Detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fMRI |
| title_sort |
detecting functional connectivity disruptions in a translational pediatric traumatic brain injury porcine model using resting-state and task-based fmri |
| publisher |
Nature Publishing Group |
| series |
Scientific Reports |
| issn |
2045-2322 |
| publishDate |
2021-06-01 |
| description |
Abstract Functional magnetic resonance imaging (fMRI) has significant potential to evaluate changes in brain network activity after traumatic brain injury (TBI) and enable early prognosis of potential functional (e.g., motor, cognitive, behavior) deficits. In this study, resting-state and task-based fMRI (rs- and tb-fMRI) were utilized to examine network changes in a pediatric porcine TBI model that has increased predictive potential in the development of novel therapies. rs- and tb-fMRI were performed one day post-TBI in piglets. Activation maps were generated using group independent component analysis (ICA) and sparse dictionary learning (sDL). Activation maps were compared to pig reference functional connectivity atlases and evaluated using Pearson spatial correlation coefficients and mean ratios. Nonparametric permutation analyses were used to determine significantly different activation areas between the TBI and healthy control groups. Significantly lower Pearson values and mean ratios were observed in the visual, executive control, and sensorimotor networks for TBI piglets compared to controls. Significant differences were also observed within several specific individual anatomical structures within each network. In conclusion, both rs- and tb-fMRI demonstrate the ability to detect functional connectivity disruptions in a translational TBI piglet model, and these disruptions can be traced to specific affected anatomical structures. |
| url |
https://doi.org/10.1038/s41598-021-91853-5 |
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