Atypical white matter volume development in children following craniospinal irradiation
about
Prognostic factors that increase the risk for reduced white matter volumes and deficits in attention and learning for survivors of childhood cancers.The relationship between working memory and cerebral white matter volume in survivors of childhood brain tumors treated with conformal radiation therapy.Predictors of independent living status in adult survivors of childhood cancer: a report from the Childhood Cancer Survivor Study.White matter integrity is associated with cognitive processing in patients treated for a posterior fossa brain tumorCerebral white matter integrity and executive function in adult survivors of childhood medulloblastoma.Effect of cerebellum radiation dosimetry on cognitive outcomes in children with infratentorial ependymomaA 5-year investigation of children's adaptive functioning following conformal radiation therapy for localized ependymomaSmaller white-matter volumes are associated with larger deficits in attention and learning among long-term survivors of acute lymphoblastic leukemia.Radiation-Induced Growth Retardation and Microstructural and Metabolite Abnormalities in the Hippocampus.Brain structural abnormalities in survivors of pediatric posterior fossa brain tumors: a voxel-based morphometry study using free-form deformation.Neurodevelopmental impact on children treated for medulloblastoma: a review and proposed conceptual modelSlower processing speed after treatment for pediatric brain tumor and acute lymphoblastic leukemia.Early Cognitive Outcomes Following Proton Radiation in Pediatric Patients With Brain and Central Nervous System Tumors.Processing speed, attention, and working memory after treatment for medulloblastoma: an international, prospective, and longitudinal studyIrradiation to the young mouse brain impaired white matter growth more in females than in malesSenseCam as a rehabilitation tool in a child with anterograde amnesia.Central nervous system injury and neurobiobehavioral function in children with brain tumors: a review of the literature.Childhood Brain Tumors: a Systematic Review of the Structural Neuroimaging Literature.A prospective study of corpus callosum regional volumes and neurocognitive outcomes following cranial radiation for pediatric brain tumors.Measurement of neurodevelopmental changes in children treated with radiation for brain tumors: what is a true 'baseline?'Benefits and limitations of errorless learning after surviving pediatric brain tumors: a case study.Proton Beam Radiation Therapy: The Future May Prove Brighter for Pediatric Patients With Brain TumorsUtility of the General Ability Index (GAI) and Cognitive Proficiency Index (CPI) with survivors of pediatric brain tumors: Comparison to Full Scale IQ and premorbid IQ estimates.A quantitative method for microstructural analysis of myelinated axons in the injured rodent brain.Altered brain morphology after focal radiation reveals impact of off-target effects: implications for white matter development and neurogenesis.Diffusion Tensor Imaging and Neurobehavioral Outcome in Children With Brain Tumors Treated With Chemotherapy.Discrepancies among Measures of Executive Functioning in a Subsample of Young Adult Survivors of Childhood Brain Tumor: Associations with Treatment Intensity.Visualization and segmentation of reciprocal cerebrocerebellar pathways in the healthy and injured brain.Brain tumor survivors speak out.A prospective study of cerebral, frontal lobe, and temporal lobe volumes and neuropsychological performance in children with primary brain tumors treated with cranial radiation.Different reactions to irradiation in the juvenile and adult hippocampus.Executive function in paediatric medulloblastoma: The role of cerebrocerebellar connections.Disrupted development and integrity of frontal white matter in patients treated for pediatric medulloblastoma.Changes to memory structures in children treated for posterior fossa tumors.Processing speed in children treated for brain tumors: effects of radiation therapy and age.Repairing the brain with physical exercise: Cortical thickness and brain volume increases in long-term pediatric brain tumor survivors in response to a structured exercise intervention.Neurocognitive and Psychosocial Outcomes in Pediatric Brain Tumor SurvivorsEarly changes in white matter predict intellectual outcome in children treated for posterior fossa tumors
P2860
Q33739935-5CDAA956-EE64-4D3A-B135-BCBBF3ABDAE2Q34047094-5028F9D5-2DCA-4B0E-88EE-27474561C2C9Q35115644-DBEB8419-AAD3-439F-86EC-A0F016E9CA8AQ36179195-1863A3B7-7033-497B-A2CD-1C34FF7992B0Q36344727-9E0A25CC-95A2-4FF6-B6E4-D7F4F8FC323FQ36441575-380BCE1E-9E1A-4A6A-97D2-5636320E9355Q36501191-570CC4BA-E28B-4F7F-AEC3-C04FE3D80B91Q36677462-A2770DF9-5585-4006-86BF-DC512342CBFBQ36924201-B07F6256-E955-4502-8C9D-3F4B0C1F34FEQ36990804-462C73F6-2052-4EB0-9D4D-39D551ACF4B5Q37065670-0559EECD-AD3D-4909-8A1F-2A3440B1E08BQ37086453-430BBC6E-0176-449B-AE86-DC7DB15FE36DQ37113836-92D404C1-9078-4A15-B536-E62A29FC6B0CQ37195237-97F638BD-6932-4FD8-81DE-3D369BB864DCQ37577412-66576716-4D26-4DAB-AD67-B42A02500A1CQ37775567-9C9DFA1B-6C74-433D-9CAF-1F6B97353537Q38025283-9BD84B93-2C1B-4CE1-AFF1-4AA5654E99C9Q38667330-D4F1EDC5-3D9B-4AD3-BA12-7D84C3555668Q38813422-156DC424-F1EF-42AE-AB55-9B79958BA57BQ38972695-3B59307F-61BB-4066-BD33-0FB190AEA188Q39637257-B3B83384-1BA9-443A-96F9-0C5336102576Q42353040-E8562904-3592-4E0C-BD3F-FA33468C12BDQ46965887-31AB8B23-6EAA-41B9-8A8B-3DD80769D203Q47099613-5CEE2898-AB45-46D3-BB5C-69A268D6E245Q47261189-ECCB624C-E26A-41CD-A808-521651C28B7EQ47565119-8CA6D8FD-E1EB-411F-897C-F083334FE124Q47971464-DD838D4B-6DB1-4DC7-A82F-46495D96187AQ48228377-2A58BC98-1BAB-4701-B28A-703B7FA4DF7DQ48430767-08E364AE-8F05-44CF-A8F5-0B0F74E994EBQ48544847-029DCCCF-33EA-4AEC-822D-4355BF4E6B45Q48669723-F49220B4-79BF-4259-B2DF-83CC9BC2535AQ50573983-BC2141C7-7D09-4C4C-96D4-E8F35FD4A163Q50582289-2140189F-E9E7-400D-B6FF-F4533A7CED7CQ50663697-E4D5A101-C61C-46D1-9D59-7EA5E6EDBC74Q52330763-F2E1F792-F0E8-4305-A10D-7D25798638A0Q55264664-621E8CB2-4107-43BD-A513-2D02781F39B8Q58749511-A70A1666-809E-4B43-A19D-DC6EBC109808Q58761313-5B623049-0FA5-416A-8BF4-AEF7E042200A
P2860
Atypical white matter volume development in children following craniospinal irradiation
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Atypical white matter volume development in children following craniospinal irradiation
@ast
Atypical white matter volume development in children following craniospinal irradiation
@en
type
label
Atypical white matter volume development in children following craniospinal irradiation
@ast
Atypical white matter volume development in children following craniospinal irradiation
@en
prefLabel
Atypical white matter volume development in children following craniospinal irradiation
@ast
Atypical white matter volume development in children following craniospinal irradiation
@en
P2093
P2860
P1433
P1476
Atypical white matter volume development in children following craniospinal irradiation
@en
P2093
Amar Gajjar
James W Langston
John O Glass
Larry E Kun
Raymond K Mulhern
Shawna L Palmer
Shingjie Wu
Wilburn E Reddick
Xiaoping Xiong
P2860
P356
10.1215/S1152851704000079
P577
2005-01-01T00:00:00Z