van der Horn, H J; Liemburg, E J; Scheenen, M E; de Koning, M E; Marsman, J B; Spikman, J M; van der Naalt, J
Brain network dysregulation, emotion, and complaints after mild traumatic brain injury Journal Article
In: Human Brain Mapping, vol. 37, no. 4, pp. 1645–1654, 2016.
Abstract | BibTeX | Tags: *Brain Concussion/pp [Physiopathology], *Brain/pp [Physiopathology], *Emotions, *MAGNETIC resonance imaging, *Nerve Net/pp [Physiopathology], Adolescent, adult, Brain Concussion/px [Psychology], Emotions/ph [Physiology], Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging/mt [Methods], Male, middle aged, Prospective Studies, Young Adult
@article{VanderHorn2016,
title = {Brain network dysregulation, emotion, and complaints after mild traumatic brain injury},
author = {van der Horn, H J and Liemburg, E J and Scheenen, M E and de Koning, M E and Marsman, J B and Spikman, J M and van der Naalt, J},
year = {2016},
date = {2016-01-01},
journal = {Human Brain Mapping},
volume = {37},
number = {4},
pages = {1645--1654},
abstract = {OBJECTIVES: To assess the role of brain networks in emotion regulation and post-traumatic complaints in the sub-acute phase after non-complicated mild traumatic brain injury (mTBI). EXPERIMENTAL DESIGN: Fifty-four patients with mTBI (34 with and 20 without complaints) and 20 healthy controls (group-matched for age, sex, education, and handedness) were included. Resting-state fMRI was performed at four weeks post-injury. Static and dynamic functional connectivity were studied within and between the default mode, executive (frontoparietal and bilateral frontal network), and salience network. The hospital anxiety and depression scale (HADS) was used to measure anxiety (HADS-A) and depression (HADS-D). PRINCIPAL OBSERVATIONS: Regarding within-network functional connectivity, none of the selected brain networks were different between groups. Regarding between-network interactions, patients with complaints exhibited lower functional connectivity between the bilateral frontal and salience network compared to patients without complaints. In the total patient group, higher HADS-D scores were related to lower functional connectivity between the bilateral frontal network and both the right frontoparietal and salience network, and to higher connectivity between the right frontoparietal and salience network. Furthermore, whereas higher HADS-D scores were associated with lower connectivity within the parietal midline areas of the bilateral frontal network, higher HADS-A scores were related to lower connectivity within medial prefrontal areas of the bilateral frontal network. CONCLUSIONS: Functional interactions of the executive and salience networks were related to emotion regulation and complaints after mTBI, with a key role for the bilateral frontal network. These findings may have implications for future studies on the effect of psychological interventions.Copyright © 2016 Wiley Periodicals, Inc.},
keywords = {*Brain Concussion/pp [Physiopathology], *Brain/pp [Physiopathology], *Emotions, *MAGNETIC resonance imaging, *Nerve Net/pp [Physiopathology], Adolescent, adult, Brain Concussion/px [Psychology], Emotions/ph [Physiology], Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging/mt [Methods], Male, middle aged, Prospective Studies, Young Adult},
pubstate = {published},
tppubtype = {article}
}
Laksari, K; Wu, L C; Kurt, M; Kuo, C; Camarillo, D C
Resonance of human brain under head acceleration Journal Article
In: Journal of the Royal Society Interface, vol. 12, no. 108, pp. 20150331, 2015.
Abstract | BibTeX | Tags: *Acceleration/ae [Adverse Effects], *BRAIN, *Brain Injuries, *Craniocerebral Trauma, *MAGNETIC resonance imaging, *Skull, adult, Brain Injuries/dg [Diagnostic Imaging], Brain Injuries/pp [Physiopathology], Brain/dg [Diagnostic Imaging], Brain/pp [Physiopathology], Craniocerebral Trauma/dg [Diagnostic Imaging], Craniocerebral Trauma/pp [Physiopathology], Humans, Male, Radiography, Skull/dg [Diagnostic Imaging], Skull/pp [Physiopathology]
@article{Laksari2015,
title = {Resonance of human brain under head acceleration},
author = {Laksari, K and Wu, L C and Kurt, M and Kuo, C and Camarillo, D C},
year = {2015},
date = {2015-01-01},
journal = {Journal of the Royal Society Interface},
volume = {12},
number = {108},
pages = {20150331},
abstract = {Although safety standards have reduced fatal head trauma due to single severe head impacts, mild trauma from repeated head exposures may carry risks of long-term chronic changes in the brain's function and structure. To study the physical sensitivities of the brain to mild head impacts, we developed the first dynamic model of the skull-brain based on in vivo MRI data. We showed that the motion of the brain can be described by a rigid-body with constrained kinematics. We further demonstrated that skull-brain dynamics can be approximated by an under-damped system with a low-frequency resonance at around 15 Hz. Furthermore, from our previous field measurements, we found that head motions in a variety of activities, including contact sports, show a primary frequency of less than 20 Hz. This implies that typical head exposures may drive the brain dangerously close to its mechanical resonance and lead to amplified brain-skull relative motions. Our results suggest a possible cause for mild brain trauma, which could occur due to repetitive low-acceleration head oscillations in a variety of recreational and occupational activities. Copyright © 2015 The Author(s) Published by the Royal Society. All rights reserved.},
keywords = {*Acceleration/ae [Adverse Effects], *BRAIN, *Brain Injuries, *Craniocerebral Trauma, *MAGNETIC resonance imaging, *Skull, adult, Brain Injuries/dg [Diagnostic Imaging], Brain Injuries/pp [Physiopathology], Brain/dg [Diagnostic Imaging], Brain/pp [Physiopathology], Craniocerebral Trauma/dg [Diagnostic Imaging], Craniocerebral Trauma/pp [Physiopathology], Humans, Male, Radiography, Skull/dg [Diagnostic Imaging], Skull/pp [Physiopathology]},
pubstate = {published},
tppubtype = {article}
}
Nauman, E A; Breedlove, K M; Breedlove, E L; Talavage, T M; Robinson, M E; Leverenz, L J
Post-Season Neurophysiological Deficits Assessed by ImPACT and fMRI in Athletes Competing in American Football Journal Article
In: Developmental Neuropsychology, vol. 40, no. 2, pp. 85–91, 2015.
Abstract | BibTeX | Tags: *Athletes, *Brain Concussion/pp [Physiopathology], *Football/in [Injuries], *MAGNETIC resonance imaging, Adolescent, Brain Concussion/pa [Pathology], Head, Humans, Male, Neurophysiology, Neuropsychological Tests, Schools, Seasons, Surveys and Questionnaires, UNITED States, Young Adult
@article{Nauman2015,
title = {Post-Season Neurophysiological Deficits Assessed by ImPACT and fMRI in Athletes Competing in American Football},
author = {Nauman, E A and Breedlove, K M and Breedlove, E L and Talavage, T M and Robinson, M E and Leverenz, L J},
year = {2015},
date = {2015-01-01},
journal = {Developmental Neuropsychology},
volume = {40},
number = {2},
pages = {85--91},
abstract = {Neurocognitive assessment, functional magnetic resonance imaging, and head impact monitoring were used to evaluate neurological changes in high school football players throughout competitive seasons. A substantial number of asymptomatic athletes exhibited neurophysiological changes that persisted post-season, with abnormal measures significantly more common in athletes receiving 50 or more hits per week during the season.},
keywords = {*Athletes, *Brain Concussion/pp [Physiopathology], *Football/in [Injuries], *MAGNETIC resonance imaging, Adolescent, Brain Concussion/pa [Pathology], Head, Humans, Male, Neurophysiology, Neuropsychological Tests, Schools, Seasons, Surveys and Questionnaires, UNITED States, Young Adult},
pubstate = {published},
tppubtype = {article}
}
van der Horn, H J; Liemburg, E J; Scheenen, M E; de Koning, M E; Marsman, J B; Spikman, J M; van der Naalt, J
Brain network dysregulation, emotion, and complaints after mild traumatic brain injury Journal Article
In: Human Brain Mapping, vol. 37, no. 4, pp. 1645–1654, 2016.
@article{VanderHorn2016,
title = {Brain network dysregulation, emotion, and complaints after mild traumatic brain injury},
author = {van der Horn, H J and Liemburg, E J and Scheenen, M E and de Koning, M E and Marsman, J B and Spikman, J M and van der Naalt, J},
year = {2016},
date = {2016-01-01},
journal = {Human Brain Mapping},
volume = {37},
number = {4},
pages = {1645--1654},
abstract = {OBJECTIVES: To assess the role of brain networks in emotion regulation and post-traumatic complaints in the sub-acute phase after non-complicated mild traumatic brain injury (mTBI). EXPERIMENTAL DESIGN: Fifty-four patients with mTBI (34 with and 20 without complaints) and 20 healthy controls (group-matched for age, sex, education, and handedness) were included. Resting-state fMRI was performed at four weeks post-injury. Static and dynamic functional connectivity were studied within and between the default mode, executive (frontoparietal and bilateral frontal network), and salience network. The hospital anxiety and depression scale (HADS) was used to measure anxiety (HADS-A) and depression (HADS-D). PRINCIPAL OBSERVATIONS: Regarding within-network functional connectivity, none of the selected brain networks were different between groups. Regarding between-network interactions, patients with complaints exhibited lower functional connectivity between the bilateral frontal and salience network compared to patients without complaints. In the total patient group, higher HADS-D scores were related to lower functional connectivity between the bilateral frontal network and both the right frontoparietal and salience network, and to higher connectivity between the right frontoparietal and salience network. Furthermore, whereas higher HADS-D scores were associated with lower connectivity within the parietal midline areas of the bilateral frontal network, higher HADS-A scores were related to lower connectivity within medial prefrontal areas of the bilateral frontal network. CONCLUSIONS: Functional interactions of the executive and salience networks were related to emotion regulation and complaints after mTBI, with a key role for the bilateral frontal network. These findings may have implications for future studies on the effect of psychological interventions.Copyright © 2016 Wiley Periodicals, Inc.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Laksari, K; Wu, L C; Kurt, M; Kuo, C; Camarillo, D C
Resonance of human brain under head acceleration Journal Article
In: Journal of the Royal Society Interface, vol. 12, no. 108, pp. 20150331, 2015.
@article{Laksari2015,
title = {Resonance of human brain under head acceleration},
author = {Laksari, K and Wu, L C and Kurt, M and Kuo, C and Camarillo, D C},
year = {2015},
date = {2015-01-01},
journal = {Journal of the Royal Society Interface},
volume = {12},
number = {108},
pages = {20150331},
abstract = {Although safety standards have reduced fatal head trauma due to single severe head impacts, mild trauma from repeated head exposures may carry risks of long-term chronic changes in the brain's function and structure. To study the physical sensitivities of the brain to mild head impacts, we developed the first dynamic model of the skull-brain based on in vivo MRI data. We showed that the motion of the brain can be described by a rigid-body with constrained kinematics. We further demonstrated that skull-brain dynamics can be approximated by an under-damped system with a low-frequency resonance at around 15 Hz. Furthermore, from our previous field measurements, we found that head motions in a variety of activities, including contact sports, show a primary frequency of less than 20 Hz. This implies that typical head exposures may drive the brain dangerously close to its mechanical resonance and lead to amplified brain-skull relative motions. Our results suggest a possible cause for mild brain trauma, which could occur due to repetitive low-acceleration head oscillations in a variety of recreational and occupational activities. Copyright © 2015 The Author(s) Published by the Royal Society. All rights reserved.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Nauman, E A; Breedlove, K M; Breedlove, E L; Talavage, T M; Robinson, M E; Leverenz, L J
Post-Season Neurophysiological Deficits Assessed by ImPACT and fMRI in Athletes Competing in American Football Journal Article
In: Developmental Neuropsychology, vol. 40, no. 2, pp. 85–91, 2015.
@article{Nauman2015,
title = {Post-Season Neurophysiological Deficits Assessed by ImPACT and fMRI in Athletes Competing in American Football},
author = {Nauman, E A and Breedlove, K M and Breedlove, E L and Talavage, T M and Robinson, M E and Leverenz, L J},
year = {2015},
date = {2015-01-01},
journal = {Developmental Neuropsychology},
volume = {40},
number = {2},
pages = {85--91},
abstract = {Neurocognitive assessment, functional magnetic resonance imaging, and head impact monitoring were used to evaluate neurological changes in high school football players throughout competitive seasons. A substantial number of asymptomatic athletes exhibited neurophysiological changes that persisted post-season, with abnormal measures significantly more common in athletes receiving 50 or more hits per week during the season.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
van der Horn, H J; Liemburg, E J; Scheenen, M E; de Koning, M E; Marsman, J B; Spikman, J M; van der Naalt, J
Brain network dysregulation, emotion, and complaints after mild traumatic brain injury Journal Article
In: Human Brain Mapping, vol. 37, no. 4, pp. 1645–1654, 2016.
Abstract | BibTeX | Tags: *Brain Concussion/pp [Physiopathology], *Brain/pp [Physiopathology], *Emotions, *MAGNETIC resonance imaging, *Nerve Net/pp [Physiopathology], Adolescent, adult, Brain Concussion/px [Psychology], Emotions/ph [Physiology], Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging/mt [Methods], Male, middle aged, Prospective Studies, Young Adult
@article{VanderHorn2016,
title = {Brain network dysregulation, emotion, and complaints after mild traumatic brain injury},
author = {van der Horn, H J and Liemburg, E J and Scheenen, M E and de Koning, M E and Marsman, J B and Spikman, J M and van der Naalt, J},
year = {2016},
date = {2016-01-01},
journal = {Human Brain Mapping},
volume = {37},
number = {4},
pages = {1645--1654},
abstract = {OBJECTIVES: To assess the role of brain networks in emotion regulation and post-traumatic complaints in the sub-acute phase after non-complicated mild traumatic brain injury (mTBI). EXPERIMENTAL DESIGN: Fifty-four patients with mTBI (34 with and 20 without complaints) and 20 healthy controls (group-matched for age, sex, education, and handedness) were included. Resting-state fMRI was performed at four weeks post-injury. Static and dynamic functional connectivity were studied within and between the default mode, executive (frontoparietal and bilateral frontal network), and salience network. The hospital anxiety and depression scale (HADS) was used to measure anxiety (HADS-A) and depression (HADS-D). PRINCIPAL OBSERVATIONS: Regarding within-network functional connectivity, none of the selected brain networks were different between groups. Regarding between-network interactions, patients with complaints exhibited lower functional connectivity between the bilateral frontal and salience network compared to patients without complaints. In the total patient group, higher HADS-D scores were related to lower functional connectivity between the bilateral frontal network and both the right frontoparietal and salience network, and to higher connectivity between the right frontoparietal and salience network. Furthermore, whereas higher HADS-D scores were associated with lower connectivity within the parietal midline areas of the bilateral frontal network, higher HADS-A scores were related to lower connectivity within medial prefrontal areas of the bilateral frontal network. CONCLUSIONS: Functional interactions of the executive and salience networks were related to emotion regulation and complaints after mTBI, with a key role for the bilateral frontal network. These findings may have implications for future studies on the effect of psychological interventions.Copyright © 2016 Wiley Periodicals, Inc.},
keywords = {*Brain Concussion/pp [Physiopathology], *Brain/pp [Physiopathology], *Emotions, *MAGNETIC resonance imaging, *Nerve Net/pp [Physiopathology], Adolescent, adult, Brain Concussion/px [Psychology], Emotions/ph [Physiology], Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging/mt [Methods], Male, middle aged, Prospective Studies, Young Adult},
pubstate = {published},
tppubtype = {article}
}
Laksari, K; Wu, L C; Kurt, M; Kuo, C; Camarillo, D C
Resonance of human brain under head acceleration Journal Article
In: Journal of the Royal Society Interface, vol. 12, no. 108, pp. 20150331, 2015.
Abstract | BibTeX | Tags: *Acceleration/ae [Adverse Effects], *BRAIN, *Brain Injuries, *Craniocerebral Trauma, *MAGNETIC resonance imaging, *Skull, adult, Brain Injuries/dg [Diagnostic Imaging], Brain Injuries/pp [Physiopathology], Brain/dg [Diagnostic Imaging], Brain/pp [Physiopathology], Craniocerebral Trauma/dg [Diagnostic Imaging], Craniocerebral Trauma/pp [Physiopathology], Humans, Male, Radiography, Skull/dg [Diagnostic Imaging], Skull/pp [Physiopathology]
@article{Laksari2015,
title = {Resonance of human brain under head acceleration},
author = {Laksari, K and Wu, L C and Kurt, M and Kuo, C and Camarillo, D C},
year = {2015},
date = {2015-01-01},
journal = {Journal of the Royal Society Interface},
volume = {12},
number = {108},
pages = {20150331},
abstract = {Although safety standards have reduced fatal head trauma due to single severe head impacts, mild trauma from repeated head exposures may carry risks of long-term chronic changes in the brain's function and structure. To study the physical sensitivities of the brain to mild head impacts, we developed the first dynamic model of the skull-brain based on in vivo MRI data. We showed that the motion of the brain can be described by a rigid-body with constrained kinematics. We further demonstrated that skull-brain dynamics can be approximated by an under-damped system with a low-frequency resonance at around 15 Hz. Furthermore, from our previous field measurements, we found that head motions in a variety of activities, including contact sports, show a primary frequency of less than 20 Hz. This implies that typical head exposures may drive the brain dangerously close to its mechanical resonance and lead to amplified brain-skull relative motions. Our results suggest a possible cause for mild brain trauma, which could occur due to repetitive low-acceleration head oscillations in a variety of recreational and occupational activities. Copyright © 2015 The Author(s) Published by the Royal Society. All rights reserved.},
keywords = {*Acceleration/ae [Adverse Effects], *BRAIN, *Brain Injuries, *Craniocerebral Trauma, *MAGNETIC resonance imaging, *Skull, adult, Brain Injuries/dg [Diagnostic Imaging], Brain Injuries/pp [Physiopathology], Brain/dg [Diagnostic Imaging], Brain/pp [Physiopathology], Craniocerebral Trauma/dg [Diagnostic Imaging], Craniocerebral Trauma/pp [Physiopathology], Humans, Male, Radiography, Skull/dg [Diagnostic Imaging], Skull/pp [Physiopathology]},
pubstate = {published},
tppubtype = {article}
}
Nauman, E A; Breedlove, K M; Breedlove, E L; Talavage, T M; Robinson, M E; Leverenz, L J
Post-Season Neurophysiological Deficits Assessed by ImPACT and fMRI in Athletes Competing in American Football Journal Article
In: Developmental Neuropsychology, vol. 40, no. 2, pp. 85–91, 2015.
Abstract | BibTeX | Tags: *Athletes, *Brain Concussion/pp [Physiopathology], *Football/in [Injuries], *MAGNETIC resonance imaging, Adolescent, Brain Concussion/pa [Pathology], Head, Humans, Male, Neurophysiology, Neuropsychological Tests, Schools, Seasons, Surveys and Questionnaires, UNITED States, Young Adult
@article{Nauman2015,
title = {Post-Season Neurophysiological Deficits Assessed by ImPACT and fMRI in Athletes Competing in American Football},
author = {Nauman, E A and Breedlove, K M and Breedlove, E L and Talavage, T M and Robinson, M E and Leverenz, L J},
year = {2015},
date = {2015-01-01},
journal = {Developmental Neuropsychology},
volume = {40},
number = {2},
pages = {85--91},
abstract = {Neurocognitive assessment, functional magnetic resonance imaging, and head impact monitoring were used to evaluate neurological changes in high school football players throughout competitive seasons. A substantial number of asymptomatic athletes exhibited neurophysiological changes that persisted post-season, with abnormal measures significantly more common in athletes receiving 50 or more hits per week during the season.},
keywords = {*Athletes, *Brain Concussion/pp [Physiopathology], *Football/in [Injuries], *MAGNETIC resonance imaging, Adolescent, Brain Concussion/pa [Pathology], Head, Humans, Male, Neurophysiology, Neuropsychological Tests, Schools, Seasons, Surveys and Questionnaires, UNITED States, Young Adult},
pubstate = {published},
tppubtype = {article}
}