scholarly article | Q13442814 |
P2093 | author name string | Terry L Smith | |
Linda L Phillips | |||
Thomas M Reeves | |||
Judy C Williamson | |||
P2860 | cites work | Myelination of the mouse corpus callosum | Q71447905 |
Myelinated nerve fibers: computed effect of myelin thickness on conduction velocity | Q71576774 | ||
A theory of the effects of fibre size in medullated nerve | Q24543926 | ||
Matrix metalloproteinase-3 expression profile differentiates adaptive and maladaptive synaptic plasticity induced by traumatic brain injury | Q28253692 | ||
Traumatic axonal injury induces proteolytic cleavage of the voltage-gated sodium channels modulated by tetrodotoxin and protease inhibitors | Q28261511 | ||
Rostrocaudal analysis of corpus callosum demyelination and axon damage across disease stages refines diffusion tensor imaging correlations with pathological features | Q30495412 | ||
Current concepts: diffuse axonal injury-associated traumatic brain injury | Q30661862 | ||
MRI identification of the rostral-caudal pattern of pathology within the corpus callosum in the cuprizone mouse model. | Q31134655 | ||
Stereology of nerve cross sections | Q31942307 | ||
Calpain mediates proteolysis of the voltage-gated sodium channel alpha-subunit | Q33563907 | ||
The effects of cyclosporin-A on axonal conduction deficits following traumatic brain injury in adult rats | Q33912632 | ||
Sex and environmental influences on the size and ultrastructure of the rat corpus callosum | Q34177627 | ||
A systematic review of brain injury epidemiology in Europe | Q34470717 | ||
Concussive brain trauma in the mouse results in acute cognitive deficits and sustained impairment of axonal function | Q34757586 | ||
Traumatically induced axonal injury: pathogenesis and pathobiological implications | Q35243746 | ||
Proteolysis of submembrane cytoskeletal proteins ankyrin-G and αII-spectrin following diffuse brain injury: a role in white matter vulnerability at Nodes of Ranvier | Q35692390 | ||
White matter injury mechanisms | Q35699486 | ||
Lateral fluid percussion brain injury: a 15-year review and evaluation | Q36017663 | ||
Secondary injury and acidosis | Q36123361 | ||
Impaired axonal transport and neurofilament compaction occur in separate populations of injured axons following diffuse brain injury in the immature rat | Q37226940 | ||
Preferential neuroprotective effect of tacrolimus (FK506) on unmyelinated axons following traumatic brain injury | Q37244252 | ||
Calpain as a therapeutic target in traumatic brain injury | Q37686765 | ||
Animal models of traumatic brain injury: a critical evaluation | Q37831638 | ||
Animate models of human head injury | Q40580348 | ||
Free radicals in brain metabolism and pathology | Q40771884 | ||
The neuronal cytoskeleton is at risk after mild and moderate brain injury | Q40830432 | ||
The pathobiology of traumatically induced axonal injury in animals and humans: a review of current thoughts | Q41017976 | ||
A mechanistic analysis of nondisruptive axonal injury: a review | Q41563658 | ||
Changes in axonal physiology and morphology after chronic compressive injury of the rat thoracic spinal cord | Q43581094 | ||
The immunophilin ligand FK506 attenuates axonal injury in an impact-acceleration model of traumatic brain injury | Q43661598 | ||
Intra-axonal neurofilament compaction does not evoke local axonal swelling in all traumatically injured axons | Q43804610 | ||
Dextran-coupled deferoxamine improves outcome in a murine model of head injury | Q43898793 | ||
Traumatic axonal injury results in biphasic calpain activation and retrograde transport impairment in mice | Q44261064 | ||
Cyclosporin A limits calcium-induced axonal damage following traumatic brain injury | Q44859730 | ||
Postinjury cyclosporin A administration limits axonal damage and disconnection in traumatic brain injury | Q44862029 | ||
Elevation of hippocampal MMP-3 expression and activity during trauma-induced synaptogenesis. | Q44908250 | ||
Myelinated and unmyelinated axons of the corpus callosum differ in vulnerability and functional recovery following traumatic brain injury | Q44913018 | ||
Quantitative analysis of the relationship between intra- axonal neurofilament compaction and impaired axonal transport following diffuse traumatic brain injury | Q44914476 | ||
Administration of the immunophilin ligand FK506 differentially attenuates neurofilament compaction and impaired axonal transport in injured axons following diffuse traumatic brain injury | Q44915166 | ||
Prolonged memory impairment in the absence of hippocampal cell death following traumatic brain injury in the rat. | Q44975454 | ||
Workshop on animal models of traumatic brain injury | Q45083451 | ||
Traumatically induced altered membrane permeability: its relationship to traumatically induced reactive axonal change | Q45085305 | ||
Impact acceleration injury in the rat: evidence for focal axolemmal change and related neurofilament sidearm alteration. | Q45103845 | ||
The number, size, and type of axons in rat subcortical white matter on left and right sides: a stereological, ultrastructural study | Q47424834 | ||
Accumulation of amyloid beta and tau and the formation of neurofilament inclusions following diffuse brain injury in the pig. | Q48105099 | ||
Calpain inhibitor MDL-28170 reduces the functional and structural deterioration of corpus callosum following fluid percussion injury | Q48121937 | ||
cerebellar atrophy after moderate-to-severe pediatric traumatic brain injury | Q48246556 | ||
Role of peroxynitrite in secondary oxidative damage after spinal cord injury | Q48332415 | ||
Incidence of traumatic brain injury in the United States, 2003. | Q48360717 | ||
Ultrastructure of visual callosal axons in the rabbit | Q48361104 | ||
Prevalence and impact of diffuse axonal injury in patients with moderate and severe head injury: a cohort study of early magnetic resonance imaging findings and 1-year outcome | Q48426042 | ||
Attenuation of the electrophysiological function of the corpus callosum after fluid percussion injury in the rat. | Q48591059 | ||
Temporal lobe morphology in normal aging and traumatic brain injury | Q48687397 | ||
Ontogeny of interhemispheric evoked potentials in the rat: Significance of myelination of the corpus callosum | Q48768798 | ||
A re-examination of sex differences in axon density and number in the splenium of the rat corpus callosum | Q48859727 | ||
Spatial and temporal characteristics of neurodegeneration after controlled cortical impact in mice: more than a focal brain injury | Q49039730 | ||
Cytochemical evidence for redistribution of membrane pump calcium-ATPase and ecto-Ca-ATPase activity, and calcium influx in myelinated nerve fibres of the optic nerve after stretch injury. | Q52520260 | ||
Axonal cytoskeletal changes after non-disruptive axonal injury. | Q52525962 | ||
Unmyelinated and myelinated axon membrane from rat corpus callosum: differences in macromolecular structure | Q68464199 | ||
Maturation of the corpus callosum of the rat: II. Influence of thyroid hormones on the number and maturation of axons | Q68700098 | ||
A fluid percussion model of experimental brain injury in the rat | Q69065316 | ||
P433 | issue | 3 | |
P921 | main subject | traumatic brain injury | Q1995526 |
P304 | page(s) | 198-210 | |
P577 | publication date | 2012-03-01 | |
P1433 | published in | Journal of Neuropathology & Experimental Neurology | Q15716771 |
P1476 | title | Unmyelinated axons show selective rostrocaudal pathology in the corpus callosum after traumatic brain injury | |
P478 | volume | 71 |
Q45208332 | A longitudinal evaluation of diffusion kurtosis imaging in patients with mild traumatic brain injury |
Q36294770 | Age at First Exposure to Football Is Associated with Altered Corpus Callosum White Matter Microstructure in Former Professional Football Players |
Q38170997 | Age-related changes in the visual pathways: blame it on the axon |
Q33998370 | Brain-on-a-chip microsystem for investigating traumatic brain injury: Axon diameter and mitochondrial membrane changes play a significant role in axonal response to strain injuries |
Q93171617 | CLARITY reveals a more protracted temporal course of axon swelling and disconnection than previously described following traumatic brain injury |
Q28395193 | Chronic traumatic encephalopathy and other neurodegenerative proteinopathies |
Q35081711 | Components of myelin damage and repair in the progression of white matter pathology after mild traumatic brain injury |
Q26859194 | Critical pathogenic events underlying progression of neurodegeneration in glaucoma |
Q36389919 | Differential effects of FK506 on structural and functional axonal deficits after diffuse brain injury in the immature rat. |
Q36152400 | Diffusion tensor imaging studies of mild traumatic brain injury: a meta-analysis |
Q89542427 | Diffusion-time dependence of diffusional kurtosis in the mouse brain |
Q89122462 | Effects of nerve bundle geometry on neurotrauma evaluation |
Q57284905 | Experimental Traumatic Brain Injury Identifies Distinct Early and Late Phase Axonal Conduction Deficits of White Matter Pathophysiology, and Reveals Intervening Recovery |
Q45074714 | Mild fluid percussion injury induces diffuse axonal damage and reactive synaptic plasticity in the mouse olfactory bulb |
Q31049095 | Myelin Water Fraction Is Transiently Reduced after a Single Mild Traumatic Brain Injury--A Prospective Cohort Study in Collegiate Hockey Players |
Q28384455 | Neurochemical profile of dementia pugilistica |
Q47380139 | Newfound sex differences in axonal structure underlie differential outcomes from in vitro traumatic axonal injury. |
Q33847572 | PEG-PDLLA micelle treatment improves axonal function of the corpus callosum following traumatic brain injury |
Q47893283 | Reaction time impairments in decision-making networks as a diagnostic marker for traumatic brain injuries and neurological diseases |
Q41484523 | Targeting Kv1.3 channels to reduce white matter pathology after traumatic brain injury |
Q36768885 | Therapy development for diffuse axonal injury |
Q26753059 | Traumatic Axonal Injury: Mechanisms and Translational Opportunities |
Q48497298 | Traumatic brain injury: The first 15 milliseconds |