S
Shawn D. Gale
Researcher at Brigham Young University
Publications - 93
Citations - 3462
Shawn D. Gale is an academic researcher from Brigham Young University. The author has contributed to research in topics: Traumatic brain injury & Toxoplasma gondii. The author has an hindex of 26, co-authored 84 publications receiving 3135 citations. Previous affiliations of Shawn D. Gale include University of Virginia Health System & University of Virginia.
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Journal Article
Quantitative Volumetric Analysis of Brain MR: Normative Database Spanning 5 Decades of Life
Duane D. Blatter,Erin D. Bigler,Shawn D. Gale,Sterling C. Johnson,Carol V. Anderson,Bruce M. Burnett,Natalie Parker,Shanna M. Kurth,Susan D. Horn +8 more
TL;DR: These normative data tables can provide a comparison index for contrasting pathologic groups with a normative sample and compare favorably with data from large autopsy series.
Journal Article
Hippocampal volume in normal aging and traumatic brain injury.
Erin D. Bigler,Duane D. Blatter,Carol V. Anderson,Sterling C. Johnson,Shawn D. Gale,Ramona O. Hopkins,Bruce M. Burnett +6 more
TL;DR: The hippocampus and temporal horn volumes were inversely correlated in the group with traumatic brain injury, suggesting a differential relationship of these structures in patients with brain injury as compared with control subjects.
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Effects of hypoxia on the brain: neuroimaging and neuropsychological findings following carbon monoxide poisoning and obstructive sleep apnea.
Shawn D. Gale,Ramona O. Hopkins +1 more
TL;DR: It was found that hypoxia due to obstructive sleep apnea and CO poisoning resulted in neuropathological changes and neuropsychological impairments and the observed group differences provide insight into the relationship between etiology of injury, neuro Pathological changes, and clinical presentation.
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Traumatic brain injury and grey matter concentration: a preliminary voxel based morphometry study.
TL;DR: Using voxel based morphometry, regions of decreased grey matter concentration were observed in subjects with traumatic brain injury compared with well matched controls and in the brain injured patients, there was a relation betweengrey matter concentration and attentional ability.
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Nonspecific white matter degeneration following traumatic brain injury
TL;DR: Results demonstrate the diffuse nature of degeneration in TBI with more severe injury, and that quantified MR identified morphologic changes relate to neuropsychological outcome.