Diffusion tensor imaging in the corpus callosum in children after moderate to severe traumatic brain injury.
about
Tau elevations in the brain extracellular space correlate with reduced amyloid-β levels and predict adverse clinical outcomes after severe traumatic brain injuryA decade of DTI in traumatic brain injury: 10 years and 100 articles laterChanges in Diffusion Kurtosis Imaging and Magnetic Resonance Spectroscopy in a Direct Cranial Blast Traumatic Brain Injury (dc-bTBI) ModelNeuropsychology and clinical neuroscience of persistent post-concussive syndromeTraumatic brain injury, neuroimaging, and neurodegenerationBrain development in rodents and humans: Identifying benchmarks of maturation and vulnerability to injury across species.Diffusion tensor imaging and magnetic resonance spectroscopy in traumatic brain injury: a review of recent literature.Is there evidence for neurodegenerative change following traumatic brain injury in children and youth? A scoping reviewApplication of advanced neuroimaging modalities in pediatric traumatic brain injury.Corpus callosum thickness in children: an MR pattern-recognition approach on the midsagittal image.Clinical review: Prognostic value of magnetic resonance imaging in acute brain injury and comaDiffusion tensor imaging in relation to cognitive and functional outcome of traumatic brain injury in children.Neuroimaging in pediatric traumatic brain injury: current and future predictors of functional outcome.Longitudinal study of callosal microstructure in the normal adult aging brain using quantitative DTI fiber trackingAdvanced neuroimaging in children with nonaccidental trauma.Social outcomes in childhood brain disorder: a heuristic integration of social neuroscience and developmental psychologyDiffusion tensor imaging differences relate to memory deficits in diffuse traumatic brain injury.What does diffusion tensor imaging reveal about the brain and cognition in fetal alcohol spectrum disorders?Metabolic levels in the corpus callosum and their structural and behavioral correlates after moderate to severe pediatric TBI.Diffusion tensor imaging of diffuse axonal injury in a rat brain trauma model.Neurocognitive and neuroimaging correlates of pediatric traumatic brain injury: a diffusion tensor imaging (DTI) study.Corpus callosum segment circumference is associated with response control in children with attention-deficit hyperactivity disorder (ADHD).Microstructural corpus callosum anomalies in children with prenatal alcohol exposure: an extension of previous diffusion tensor imaging findingsEmerging imaging tools for use with traumatic brain injury research.Characterization of microstructural injury: a novel approach in infant abusive head trauma-initial experienceRegional brain morphometry predicts memory rehabilitation outcome after traumatic brain injury.Correlation of diffusion tensor imaging with executive function measures after early childhood traumatic brain injury.Whole brain approaches for identification of microstructural abnormalities in individual patients: comparison of techniques applied to mild traumatic brain injuryAlterations in white matter pathways in Angelman syndrome.Diffusion Tensor Imaging (DTI) findings following pediatric non-penetrating TBI: a meta-analysisDiffusion tensor imaging of incentive effects in prospective memory after pediatric traumatic brain injury.Longitudinal changes in the corpus callosum following pediatric traumatic brain injury.Cognitive development after traumatic brain injury in young childrenDiffusion tensor MR imaging reveals persistent white matter alteration after traumatic brain injury experienced during early childhood.White matter disruption in moderate/severe pediatric traumatic brain injury: advanced tract-based analyses.Early microstructural and metabolic changes following controlled cortical impact injury in rat: a magnetic resonance imaging and spectroscopy studyTrajectory analysis of serum biomarker concentrations facilitates outcome prediction after pediatric traumatic and hypoxemic brain injuryBrain activation while thinking about the self from another person's perspective after traumatic brain injury in adolescents.Brain activation during a social attribution task in adolescents with moderate to severe traumatic brain injuryDiffusion tensor imaging analysis of frontal lobes in pediatric traumatic brain injury
P2860
Q24597181-5EF14036-85BA-4C05-BA63-6BC3FF2FFB2AQ27015982-1D991E64-D612-4C82-8764-9942E1A6B13DQ27322633-2F626C33-4585-4FA0-BFFC-4F1C3073F5F2Q28260970-439CE936-4263-4045-8167-9A36D0B3363DQ28386903-A138C8FA-772D-48C6-8F28-0EFE529626D2Q30616090-36706F26-415E-4622-B908-A61DC9F56018Q30739121-9E8CC9AE-996F-43FB-A5B4-B8D24F3A06CAQ30788086-B44BDAA2-8255-440E-AFB7-478C3771E038Q30832983-2DBAA6A7-0F3D-485E-83B6-85CFF61D0471Q30846643-9BC561A1-830B-4AD7-8184-A3F85D749CFBQ31135319-D873BFB6-BA5A-4D68-AC1E-FB0160000B92Q33354384-29F22A12-D1EA-4F61-8618-182A7E073A53Q33458597-8B03EECC-EA5D-4C16-9906-B36B460752CEQ33571776-078FEF01-6E75-47B8-A901-36F1F1CAF965Q33715328-815252E1-8C8D-49BB-A36D-B6CC2810721DQ33736620-D36A7247-853D-408F-9068-B6AA5D620C8AQ33827626-958D8AA5-45AF-4198-8641-78E64C3E3C97Q33828981-1E74BD8D-5F77-4461-B26F-C2AF38B3D204Q33841450-C1D9FF8B-BA18-4C75-8EE8-922CB0DDAD2CQ33913723-06CD521C-AA52-4041-B248-239902403262Q33920711-4F2A1C95-ED56-4F0E-BCE6-5D111645E545Q33941633-5073B2FA-56FE-45C3-A402-86A0782A3CE1Q33956646-F3B956A1-407D-4128-BC53-7BF44C91B1F8Q33970379-B2CCAFB8-2D8A-4EA4-B954-22272883F730Q34224019-1F0E98F9-5FB0-4CE8-9FD2-3AC624827647Q34257285-5BB0C6A6-39FC-43CC-AC88-5EB8FDC56EA7Q34480123-23FC083C-8B0B-4D89-A5B2-3B6E180B9659Q34651200-43DF35D5-4E11-457A-9451-EF4279C69236Q34686688-90E2889C-9EBC-4D10-A42A-D4DD3E0B3047Q34730774-5B834CFA-C3A2-4966-9251-951AD2186CE9Q34757571-78E81087-10B2-4FC4-9420-C765CAA028EAQ34777949-F3F1B0D5-D526-48AA-B255-1D0E18B9B99FQ34794609-110609CE-846F-4810-B77A-D102972F5DA2Q34967041-3637907C-5DDD-403A-96BA-181C9619CDB4Q35113089-0D0D7809-B710-4724-89A9-FFDDCBB03776Q35319098-E474EB13-9E57-4BA9-8695-37EC15316ED4Q35547437-561CAB1C-AF3E-4461-A0B7-DCF8CA912DD6Q35569709-80C6E380-4352-4B3C-8C45-EA74474A856FQ35582215-449D5570-26E5-491C-A3C3-8F51A75C7F70Q35582232-F8847C50-9D85-487A-AEC8-E3C60C29C6F4
P2860
Diffusion tensor imaging in the corpus callosum in children after moderate to severe traumatic brain injury.
description
2006 nî lūn-bûn
@nan
2006 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@ast
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@en
type
label
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@ast
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@en
prefLabel
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@ast
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@en
P2093
P356
P1476
Diffusion tensor imaging in th ...... severe traumatic brain injury.
@en
P2093
Erin D Bigler
Gerri Hanten
Harvey S Levin
Jill V Hunter
Mary R Newsome
Michael A Fearing
Randall S Scheibel
P304
P356
10.1089/NEU.2006.23.1412
P577
2006-10-01T00:00:00Z