about
A combinatorial radiographic phenotype may stratify patient survival and be associated with invasion and proliferation characteristics in glioblastomaImaging genomic mapping of an invasive MRI phenotype predicts patient outcome and metabolic dysfunction: a TCGA glioma phenotype research group project.Outcome prediction in patients with glioblastoma by using imaging, clinical, and genomic biomarkers: focus on the nonenhancing component of the tumor.MR imaging predictors of molecular profile and survival: multi-institutional study of the TCGA glioblastoma data set.Genomic mapping and survival prediction in glioblastoma: molecular subclassification strengthened by hemodynamic imaging biomarkers.Addition of MR imaging features and genetic biomarkers strengthens glioblastoma survival prediction in TCGA patientsFeasibility of probing boundary morphology of structured materials by 2D NMR q-space imaging.Multicenter imaging outcomes study of The Cancer Genome Atlas glioblastoma patient cohort: imaging predictors of overall and progression-free survivalAvoiding the clamp during off-pump coronary artery bypass reduces cerebral embolic events: results of a prospective randomized trial.Successive distinct high-grade gliomas in L-2-hydroxyglutaric aciduria.Reproducibility and clinical correlations of post-treatment changes on CT of prostate cancer bone metastases treated with chemotherapy.Indirect measurement of regional axon diameter in excised mouse spinal cord with q-space imaging: simulation and experimental studies.MR Imaging Characteristics of Wingless-Type-Subgroup Pediatric Medulloblastoma.Gliomatosis cerebri in children shares molecular characteristics with other pediatric gliomas.Relative ADC and Location Differ between Posterior Fossa Pilocytic Astrocytomas with and without Gangliocytic Differentiation.Primary CNS natural killer/T-cell lymphoma of the nasal type presenting in a woman: case report and review of the literature.Posttreatment DSC-MRI is Predictive of Early Treatment Failure in Children with Supratentorial High-Grade Glioma Treated with Erlotinib.Topological analysis of trabecular bone MR images.Discrepant longitudinal volumetric and metabolic evolution of diffuse intrinsic Pontine gliomas during treatment: implications for current response assessment strategiesBithalamic gliomas may be molecularly distinct from their unilateral high-grade counterparts.11C-Methionine positron emission tomography delineates non-contrast enhancing tumor regions at high risk for recurrence in pediatric high-grade glioma.Prognostic Relevance of Treatment Failure Patterns in Pediatric High-Grade Glioma: Is There a Role for a Revised Failure Classification System?Effect of prostaglandin and bisphosphonate on cancellous bone volume and structure in the ovariectomized rat studied by quantitative three-dimensional nuclear magnetic resonance microscopyDiffusion-weighted imaging of the spinal cord.The Impact of Persistent Leukoencephalopathy on Brain White Matter Microstructure in Long-Term Survivors of Acute Lymphoblastic Leukemia Treated with Chemotherapy Only.Probability-based structural parameters from three-dimensional nuclear magnetic resonance images as predictors of trabecular bone strengthAssessment of axonal fiber tract architecture in excised rat spinal cord by localized NMR q-space imaging: simulations and experimental studiesMRI Patterns of Extrapontine Lesion Extension in Diffuse Intrinsic Pontine GliomasEditorial for "Practical Approaches to Bone Marrow Fat Fraction Quantification Across Magnetic Resonance Imaging Platforms"
P50
Q30177343-AD46EDEE-0650-4D88-8155-3947BCAA8B14Q30177647-97048205-DD84-4D43-BA26-8A65447CF250Q30405581-7B13D82D-3A3E-403B-9AF3-24465D864B33Q30413586-5C82E0B4-1E8B-4356-B11C-A5FEBDB280BBQ30414111-5E59B486-3103-4D33-B27D-0E42FFA367BDQ30458538-4F3F6F3A-8F65-4ABE-9CBB-5C955D00508CQ30766010-C8A3D4A1-8846-4828-BCA4-B974FB99A55BQ35707516-29051740-D375-4C16-8757-35C37FE57C61Q36168039-F2DD96B5-71E4-4D5C-8423-AF4CDD38669DQ36311724-C622E48C-4B9D-47F4-AB4D-3D15F1C265DBQ36365411-882594CD-2FBD-4A22-BF60-02DF07D338A9Q36738170-495230C2-AB44-49A7-9119-6DBAC645B4DBQ36787522-5DB15047-04C2-4450-AB99-FB5695E6BC42Q36951069-74DEDD58-FD67-421F-896D-3DCD068C4C3AQ37510570-5C64FAB5-6D2A-4094-AFF9-C06E6857C31AQ38178042-9225DCAA-419E-4513-B209-E0FEE3537065Q38734338-1012FC90-9E2B-43D0-A113-1C60C2554349Q39540762-8FFDF03E-CBDC-492E-A8A7-DB84769C9165Q39580234-AB320941-B9A0-4DCD-BA38-B3D2736379D7Q42503619-CB5B0207-E076-4281-9CFF-5694016001B0Q45050601-D9A8BE3E-6A11-4E57-9774-C1D030139C56Q48126930-C4ED206A-D64F-4079-8DFB-D553C28BA2BDQ57189006-9124B836-4B77-4381-9A42-DC7FA9E813ABQ64939440-31230D25-C678-4AF6-92A9-DA1F9FAC2174Q64973187-0D7B5CD2-23AF-453A-8330-796DCCAA8674Q73667208-A9E06AEE-F55E-4C54-8214-7ACC31EE4DA7Q80609678-004592A2-DA61-4DA9-A124-2D8831346942Q92888063-DC9AE6CC-4AF0-48F0-952E-053E7A1B389DQ94504759-D1DB6EAF-4A39-40C9-9885-AF782534D709
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Scott N Hwang
@ast
Scott N Hwang
@en
Scott N Hwang
@es
Scott N Hwang
@nl
type
label
Scott N Hwang
@ast
Scott N Hwang
@en
Scott N Hwang
@es
Scott N Hwang
@nl
prefLabel
Scott N Hwang
@ast
Scott N Hwang
@en
Scott N Hwang
@es
Scott N Hwang
@nl
P106
P1153
7404626391
P31
P496
0000-0002-6496-2087