Ojo, J O; Mouzon, B C; Crawford, F
Repetitive head trauma, chronic traumatic encephalopathy and tau: Challenges in translating from mice to men Journal Article
In: Experimental Neurology, vol. 275, pp. 389–404, 2016.
Abstract | Links | BibTeX | Tags: amyloid beta protein, animal, Animal models, Animals, Astroglial tangles, Brain Injury, cell activation, Chronic, complication, Concussion, Craniocerebral Trauma, CTE, diffuse axonal injury, disease duration, disease model, Disease Models, genetic predisposition, gliosis, head injury, hippocampus, human, Humans, lifestyle modification, lithium, metabolism, Mice, microglia, minocycline, mouse, nervous system inflammation, Neurobehaviour, Neurofibrillary tangles, neuropathology, nonhuman, pathogenesis, pathology, priority journal, procedures, protein aggregation, protein analysis, protein blood level, protein cleavage, Repetitive TBI, Review, sex difference, stress activated protein kinase inhibitor, Systematic Review, Tau, tau protein, tau Proteins, Transgenic mice, Translational Medical Research, translational research, traumatic brain injury, trends
@article{Ojo2016,
title = {Repetitive head trauma, chronic traumatic encephalopathy and tau: Challenges in translating from mice to men},
author = {Ojo, J O and Mouzon, B C and Crawford, F},
doi = {10.1016/j.expneurol.2015.06.003},
year = {2016},
date = {2016-01-01},
journal = {Experimental Neurology},
volume = {275},
pages = {389--404},
abstract = {Chronic traumatic encephalopathy (CTE) is a neurological and psychiatric condition marked by preferential perivascular foci of neurofibrillary and glial tangles (composed of hyperphosphorylated-tau proteins) in the depths of the sulci. Recent retrospective case series published over the last decade on athletes and military personnel have added considerably to our clinical and histopathological knowledge of CTE. This has marked a vital turning point in the traumatic brain injury (TBI) field, raising public awareness of the potential long-term effects of mild and moderate repetitive TBI, which has been recognized as one of the major risk factors associated with CTE. Although these human studies have been informative, their retrospective design carries certain inherent limitations that should be cautiously interpreted. In particular, the current overriding issue in the CTE literature remains confusing in regard to appropriate definitions of terminology, variability in individual pathologies and the potential case selection bias in autopsy based studies. There are currently no epidemiological or prospective studies on CTE. Controlled preclinical studies in animals therefore provide an alternative means for specifically interrogating aspects of CTE pathogenesis. In this article, we review the current literature and discuss difficulties and challenges of developing in-vivo TBI experimental paradigms to explore the link between repetitive head trauma and tau-dependent changes. We provide our current opinion list of recommended features to consider for successfully modeling CTE in animals to better understand the pathobiology and develop therapeutics and diagnostics, and critical factors, which might influence outcome. We finally discuss the possible directions of future experimental research in the repetitive TBI/CTE field. © 2015 Elsevier Inc..},
keywords = {amyloid beta protein, animal, Animal models, Animals, Astroglial tangles, Brain Injury, cell activation, Chronic, complication, Concussion, Craniocerebral Trauma, CTE, diffuse axonal injury, disease duration, disease model, Disease Models, genetic predisposition, gliosis, head injury, hippocampus, human, Humans, lifestyle modification, lithium, metabolism, Mice, microglia, minocycline, mouse, nervous system inflammation, Neurobehaviour, Neurofibrillary tangles, neuropathology, nonhuman, pathogenesis, pathology, priority journal, procedures, protein aggregation, protein analysis, protein blood level, protein cleavage, Repetitive TBI, Review, sex difference, stress activated protein kinase inhibitor, Systematic Review, Tau, tau protein, tau Proteins, Transgenic mice, Translational Medical Research, translational research, traumatic brain injury, trends},
pubstate = {published},
tppubtype = {article}
}
Holtkamp, M D; Grimes, J; Ling, G
Concussion in the Military: an Evidence-Base Review of mTBI in US Military Personnel Focused on Posttraumatic Headache Journal Article
In: Current Pain & Headache Reports, vol. 20, no. 6, 2016.
Abstract | Links | BibTeX | Tags: apolipoprotein E4, assessment, biological marker, botulinum toxin, brain concussion, calcitonin gene related peptide receptor antagonis, comorbidity, Concussion, depression, DIAGNOSTIC imaging, disease course, genetic polymorphism, genetic predisposition, glial fibrillary acidic protein, headache, Headache disorder, human, MANAGEMENT, migraine, Military personnel, mTBI, neuroimaging, Pathophysiology, postconcussion syndrome, posttraumatic headache, posttraumatic stress disorder, Prognosis, Review, serotonin 1 agonist, serotonin 1F agonist, soldier, traumatic brain injury, Treatment, tricyclic antidepressant agent, triptan derivative, unclassified drug, UNITED States
@article{Holtkamp2016,
title = {Concussion in the Military: an Evidence-Base Review of mTBI in US Military Personnel Focused on Posttraumatic Headache},
author = {Holtkamp, M D and Grimes, J and Ling, G},
doi = {10.1007/s11916-016-0572-x},
year = {2016},
date = {2016-01-01},
journal = {Current Pain \& Headache Reports},
volume = {20},
number = {6},
abstract = {Traumatic brain injury (TBI) is defined as an alteration in brain function caused by an external force. Mild TBI or concussion is now well recognized to be a risk of military service as well as participation in athletic sports such as football. Posttraumatic headache (PTH) is the most common symptom after mTBI in US service members. PTH most commonly presents with migraine-like headache features. The following is an overview of the epidemiology, pathophysiology, clinical course, prognosis, complications, and treatment of mTBI and associated comorbidities with a focus on PTH. There is a particular emphasis on emerging evidence-based clinical practice. One important medical consequence of the recognition that mTBI is a highly prevalent among military service members is that the Department of Defense (DoD) is dedicating significant financial and intellectual resources to better understanding and developing treatments for TBI. The identification of the importance of TBI among the US military population has had the added benefit of increasing awareness of this condition among civilian populations, particularly those engaged in both professional and youth sports. The NIH and NSF are also supporting important TBI research. President Obama’s Brain Initiative is also providing additional impetus for these efforts. Unfortunately, the understanding of the acute and chronic effects of mTBI on the brain remains limited. Gratefully, there is hope that through innovative research, there will be advances in elucidating the underlying pathophysiology, which will lead to clinical and prognostic indicators, ultimately resulting in new treatment options for this very complicated set of disorders. © 2016, Springer Science+Business Media New York (outside the USA).},
keywords = {apolipoprotein E4, assessment, biological marker, botulinum toxin, brain concussion, calcitonin gene related peptide receptor antagonis, comorbidity, Concussion, depression, DIAGNOSTIC imaging, disease course, genetic polymorphism, genetic predisposition, glial fibrillary acidic protein, headache, Headache disorder, human, MANAGEMENT, migraine, Military personnel, mTBI, neuroimaging, Pathophysiology, postconcussion syndrome, posttraumatic headache, posttraumatic stress disorder, Prognosis, Review, serotonin 1 agonist, serotonin 1F agonist, soldier, traumatic brain injury, Treatment, tricyclic antidepressant agent, triptan derivative, unclassified drug, UNITED States},
pubstate = {published},
tppubtype = {article}
}
Moon, K; Theodore, N
Football and Chronic Traumatic Encephalopathy: How Much Evidence Actually Exists? Journal Article
In: World Neurosurgery, vol. 89, pp. 720–721, 2016.
Links | BibTeX | Tags: Alzheimer disease, amyloid beta protein, amyloid plaque, anxiety disorder, apolipoprotein E, Article, behavior disorder, Boxing, brain atrophy, brain concussion, brain degeneration, chronic disease, Chronic traumatic encephalopathy, cognitive defect, degenerative disease, depression, environmental factor, football, frontotemporal dementia, genetic predisposition, genetic risk, genetic susceptibility, human, motor control, Neuroanatomy, opiate addiction, Parkinson disease, protein phosphorylation, scar formation, septum pellucidum, sport injury, substantia nigra, suicide, TAR DNA binding protein, tau protein, tauopathy, traumatic brain injury
@article{Moon2016,
title = {Football and Chronic Traumatic Encephalopathy: How Much Evidence Actually Exists?},
author = {Moon, K and Theodore, N},
doi = {10.1016/j.wneu.2016.03.073},
year = {2016},
date = {2016-01-01},
journal = {World Neurosurgery},
volume = {89},
pages = {720--721},
keywords = {Alzheimer disease, amyloid beta protein, amyloid plaque, anxiety disorder, apolipoprotein E, Article, behavior disorder, Boxing, brain atrophy, brain concussion, brain degeneration, chronic disease, Chronic traumatic encephalopathy, cognitive defect, degenerative disease, depression, environmental factor, football, frontotemporal dementia, genetic predisposition, genetic risk, genetic susceptibility, human, motor control, Neuroanatomy, opiate addiction, Parkinson disease, protein phosphorylation, scar formation, septum pellucidum, sport injury, substantia nigra, suicide, TAR DNA binding protein, tau protein, tauopathy, traumatic brain injury},
pubstate = {published},
tppubtype = {article}
}
Ojo, J O; Mouzon, B C; Crawford, F
Repetitive head trauma, chronic traumatic encephalopathy and tau: Challenges in translating from mice to men Journal Article
In: Experimental Neurology, vol. 275, pp. 389–404, 2016.
@article{Ojo2016,
title = {Repetitive head trauma, chronic traumatic encephalopathy and tau: Challenges in translating from mice to men},
author = {Ojo, J O and Mouzon, B C and Crawford, F},
doi = {10.1016/j.expneurol.2015.06.003},
year = {2016},
date = {2016-01-01},
journal = {Experimental Neurology},
volume = {275},
pages = {389--404},
abstract = {Chronic traumatic encephalopathy (CTE) is a neurological and psychiatric condition marked by preferential perivascular foci of neurofibrillary and glial tangles (composed of hyperphosphorylated-tau proteins) in the depths of the sulci. Recent retrospective case series published over the last decade on athletes and military personnel have added considerably to our clinical and histopathological knowledge of CTE. This has marked a vital turning point in the traumatic brain injury (TBI) field, raising public awareness of the potential long-term effects of mild and moderate repetitive TBI, which has been recognized as one of the major risk factors associated with CTE. Although these human studies have been informative, their retrospective design carries certain inherent limitations that should be cautiously interpreted. In particular, the current overriding issue in the CTE literature remains confusing in regard to appropriate definitions of terminology, variability in individual pathologies and the potential case selection bias in autopsy based studies. There are currently no epidemiological or prospective studies on CTE. Controlled preclinical studies in animals therefore provide an alternative means for specifically interrogating aspects of CTE pathogenesis. In this article, we review the current literature and discuss difficulties and challenges of developing in-vivo TBI experimental paradigms to explore the link between repetitive head trauma and tau-dependent changes. We provide our current opinion list of recommended features to consider for successfully modeling CTE in animals to better understand the pathobiology and develop therapeutics and diagnostics, and critical factors, which might influence outcome. We finally discuss the possible directions of future experimental research in the repetitive TBI/CTE field. © 2015 Elsevier Inc..},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Holtkamp, M D; Grimes, J; Ling, G
Concussion in the Military: an Evidence-Base Review of mTBI in US Military Personnel Focused on Posttraumatic Headache Journal Article
In: Current Pain & Headache Reports, vol. 20, no. 6, 2016.
@article{Holtkamp2016,
title = {Concussion in the Military: an Evidence-Base Review of mTBI in US Military Personnel Focused on Posttraumatic Headache},
author = {Holtkamp, M D and Grimes, J and Ling, G},
doi = {10.1007/s11916-016-0572-x},
year = {2016},
date = {2016-01-01},
journal = {Current Pain \& Headache Reports},
volume = {20},
number = {6},
abstract = {Traumatic brain injury (TBI) is defined as an alteration in brain function caused by an external force. Mild TBI or concussion is now well recognized to be a risk of military service as well as participation in athletic sports such as football. Posttraumatic headache (PTH) is the most common symptom after mTBI in US service members. PTH most commonly presents with migraine-like headache features. The following is an overview of the epidemiology, pathophysiology, clinical course, prognosis, complications, and treatment of mTBI and associated comorbidities with a focus on PTH. There is a particular emphasis on emerging evidence-based clinical practice. One important medical consequence of the recognition that mTBI is a highly prevalent among military service members is that the Department of Defense (DoD) is dedicating significant financial and intellectual resources to better understanding and developing treatments for TBI. The identification of the importance of TBI among the US military population has had the added benefit of increasing awareness of this condition among civilian populations, particularly those engaged in both professional and youth sports. The NIH and NSF are also supporting important TBI research. President Obama’s Brain Initiative is also providing additional impetus for these efforts. Unfortunately, the understanding of the acute and chronic effects of mTBI on the brain remains limited. Gratefully, there is hope that through innovative research, there will be advances in elucidating the underlying pathophysiology, which will lead to clinical and prognostic indicators, ultimately resulting in new treatment options for this very complicated set of disorders. © 2016, Springer Science+Business Media New York (outside the USA).},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Moon, K; Theodore, N
Football and Chronic Traumatic Encephalopathy: How Much Evidence Actually Exists? Journal Article
In: World Neurosurgery, vol. 89, pp. 720–721, 2016.
@article{Moon2016,
title = {Football and Chronic Traumatic Encephalopathy: How Much Evidence Actually Exists?},
author = {Moon, K and Theodore, N},
doi = {10.1016/j.wneu.2016.03.073},
year = {2016},
date = {2016-01-01},
journal = {World Neurosurgery},
volume = {89},
pages = {720--721},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Ojo, J O; Mouzon, B C; Crawford, F
Repetitive head trauma, chronic traumatic encephalopathy and tau: Challenges in translating from mice to men Journal Article
In: Experimental Neurology, vol. 275, pp. 389–404, 2016.
Abstract | Links | BibTeX | Tags: amyloid beta protein, animal, Animal models, Animals, Astroglial tangles, Brain Injury, cell activation, Chronic, complication, Concussion, Craniocerebral Trauma, CTE, diffuse axonal injury, disease duration, disease model, Disease Models, genetic predisposition, gliosis, head injury, hippocampus, human, Humans, lifestyle modification, lithium, metabolism, Mice, microglia, minocycline, mouse, nervous system inflammation, Neurobehaviour, Neurofibrillary tangles, neuropathology, nonhuman, pathogenesis, pathology, priority journal, procedures, protein aggregation, protein analysis, protein blood level, protein cleavage, Repetitive TBI, Review, sex difference, stress activated protein kinase inhibitor, Systematic Review, Tau, tau protein, tau Proteins, Transgenic mice, Translational Medical Research, translational research, traumatic brain injury, trends
@article{Ojo2016,
title = {Repetitive head trauma, chronic traumatic encephalopathy and tau: Challenges in translating from mice to men},
author = {Ojo, J O and Mouzon, B C and Crawford, F},
doi = {10.1016/j.expneurol.2015.06.003},
year = {2016},
date = {2016-01-01},
journal = {Experimental Neurology},
volume = {275},
pages = {389--404},
abstract = {Chronic traumatic encephalopathy (CTE) is a neurological and psychiatric condition marked by preferential perivascular foci of neurofibrillary and glial tangles (composed of hyperphosphorylated-tau proteins) in the depths of the sulci. Recent retrospective case series published over the last decade on athletes and military personnel have added considerably to our clinical and histopathological knowledge of CTE. This has marked a vital turning point in the traumatic brain injury (TBI) field, raising public awareness of the potential long-term effects of mild and moderate repetitive TBI, which has been recognized as one of the major risk factors associated with CTE. Although these human studies have been informative, their retrospective design carries certain inherent limitations that should be cautiously interpreted. In particular, the current overriding issue in the CTE literature remains confusing in regard to appropriate definitions of terminology, variability in individual pathologies and the potential case selection bias in autopsy based studies. There are currently no epidemiological or prospective studies on CTE. Controlled preclinical studies in animals therefore provide an alternative means for specifically interrogating aspects of CTE pathogenesis. In this article, we review the current literature and discuss difficulties and challenges of developing in-vivo TBI experimental paradigms to explore the link between repetitive head trauma and tau-dependent changes. We provide our current opinion list of recommended features to consider for successfully modeling CTE in animals to better understand the pathobiology and develop therapeutics and diagnostics, and critical factors, which might influence outcome. We finally discuss the possible directions of future experimental research in the repetitive TBI/CTE field. © 2015 Elsevier Inc..},
keywords = {amyloid beta protein, animal, Animal models, Animals, Astroglial tangles, Brain Injury, cell activation, Chronic, complication, Concussion, Craniocerebral Trauma, CTE, diffuse axonal injury, disease duration, disease model, Disease Models, genetic predisposition, gliosis, head injury, hippocampus, human, Humans, lifestyle modification, lithium, metabolism, Mice, microglia, minocycline, mouse, nervous system inflammation, Neurobehaviour, Neurofibrillary tangles, neuropathology, nonhuman, pathogenesis, pathology, priority journal, procedures, protein aggregation, protein analysis, protein blood level, protein cleavage, Repetitive TBI, Review, sex difference, stress activated protein kinase inhibitor, Systematic Review, Tau, tau protein, tau Proteins, Transgenic mice, Translational Medical Research, translational research, traumatic brain injury, trends},
pubstate = {published},
tppubtype = {article}
}
Holtkamp, M D; Grimes, J; Ling, G
Concussion in the Military: an Evidence-Base Review of mTBI in US Military Personnel Focused on Posttraumatic Headache Journal Article
In: Current Pain & Headache Reports, vol. 20, no. 6, 2016.
Abstract | Links | BibTeX | Tags: apolipoprotein E4, assessment, biological marker, botulinum toxin, brain concussion, calcitonin gene related peptide receptor antagonis, comorbidity, Concussion, depression, DIAGNOSTIC imaging, disease course, genetic polymorphism, genetic predisposition, glial fibrillary acidic protein, headache, Headache disorder, human, MANAGEMENT, migraine, Military personnel, mTBI, neuroimaging, Pathophysiology, postconcussion syndrome, posttraumatic headache, posttraumatic stress disorder, Prognosis, Review, serotonin 1 agonist, serotonin 1F agonist, soldier, traumatic brain injury, Treatment, tricyclic antidepressant agent, triptan derivative, unclassified drug, UNITED States
@article{Holtkamp2016,
title = {Concussion in the Military: an Evidence-Base Review of mTBI in US Military Personnel Focused on Posttraumatic Headache},
author = {Holtkamp, M D and Grimes, J and Ling, G},
doi = {10.1007/s11916-016-0572-x},
year = {2016},
date = {2016-01-01},
journal = {Current Pain \& Headache Reports},
volume = {20},
number = {6},
abstract = {Traumatic brain injury (TBI) is defined as an alteration in brain function caused by an external force. Mild TBI or concussion is now well recognized to be a risk of military service as well as participation in athletic sports such as football. Posttraumatic headache (PTH) is the most common symptom after mTBI in US service members. PTH most commonly presents with migraine-like headache features. The following is an overview of the epidemiology, pathophysiology, clinical course, prognosis, complications, and treatment of mTBI and associated comorbidities with a focus on PTH. There is a particular emphasis on emerging evidence-based clinical practice. One important medical consequence of the recognition that mTBI is a highly prevalent among military service members is that the Department of Defense (DoD) is dedicating significant financial and intellectual resources to better understanding and developing treatments for TBI. The identification of the importance of TBI among the US military population has had the added benefit of increasing awareness of this condition among civilian populations, particularly those engaged in both professional and youth sports. The NIH and NSF are also supporting important TBI research. President Obama’s Brain Initiative is also providing additional impetus for these efforts. Unfortunately, the understanding of the acute and chronic effects of mTBI on the brain remains limited. Gratefully, there is hope that through innovative research, there will be advances in elucidating the underlying pathophysiology, which will lead to clinical and prognostic indicators, ultimately resulting in new treatment options for this very complicated set of disorders. © 2016, Springer Science+Business Media New York (outside the USA).},
keywords = {apolipoprotein E4, assessment, biological marker, botulinum toxin, brain concussion, calcitonin gene related peptide receptor antagonis, comorbidity, Concussion, depression, DIAGNOSTIC imaging, disease course, genetic polymorphism, genetic predisposition, glial fibrillary acidic protein, headache, Headache disorder, human, MANAGEMENT, migraine, Military personnel, mTBI, neuroimaging, Pathophysiology, postconcussion syndrome, posttraumatic headache, posttraumatic stress disorder, Prognosis, Review, serotonin 1 agonist, serotonin 1F agonist, soldier, traumatic brain injury, Treatment, tricyclic antidepressant agent, triptan derivative, unclassified drug, UNITED States},
pubstate = {published},
tppubtype = {article}
}
Moon, K; Theodore, N
Football and Chronic Traumatic Encephalopathy: How Much Evidence Actually Exists? Journal Article
In: World Neurosurgery, vol. 89, pp. 720–721, 2016.
Links | BibTeX | Tags: Alzheimer disease, amyloid beta protein, amyloid plaque, anxiety disorder, apolipoprotein E, Article, behavior disorder, Boxing, brain atrophy, brain concussion, brain degeneration, chronic disease, Chronic traumatic encephalopathy, cognitive defect, degenerative disease, depression, environmental factor, football, frontotemporal dementia, genetic predisposition, genetic risk, genetic susceptibility, human, motor control, Neuroanatomy, opiate addiction, Parkinson disease, protein phosphorylation, scar formation, septum pellucidum, sport injury, substantia nigra, suicide, TAR DNA binding protein, tau protein, tauopathy, traumatic brain injury
@article{Moon2016,
title = {Football and Chronic Traumatic Encephalopathy: How Much Evidence Actually Exists?},
author = {Moon, K and Theodore, N},
doi = {10.1016/j.wneu.2016.03.073},
year = {2016},
date = {2016-01-01},
journal = {World Neurosurgery},
volume = {89},
pages = {720--721},
keywords = {Alzheimer disease, amyloid beta protein, amyloid plaque, anxiety disorder, apolipoprotein E, Article, behavior disorder, Boxing, brain atrophy, brain concussion, brain degeneration, chronic disease, Chronic traumatic encephalopathy, cognitive defect, degenerative disease, depression, environmental factor, football, frontotemporal dementia, genetic predisposition, genetic risk, genetic susceptibility, human, motor control, Neuroanatomy, opiate addiction, Parkinson disease, protein phosphorylation, scar formation, septum pellucidum, sport injury, substantia nigra, suicide, TAR DNA binding protein, tau protein, tauopathy, traumatic brain injury},
pubstate = {published},
tppubtype = {article}
}