about
Drug-induced Parkinsonism versus Idiopathic Parkinson Disease: Utility of Nigrosome 1 with 3-T Imaging.Triple-layer appearance of Brodmann area 4 at thin-section double inversion-recovery MR imaging.Intracranial dural metastasis of Ewing's sarcoma: a case report.Single Subcortical Infarct: Pathomechanism Assessed by Thin-Section Computed Tomography Perfusion.Acceleration of MR parameter mapping using annihilating filter-based low rank hankel matrix (ALOHA).Nigrosome 1 Detection at 3T MRI for the Diagnosis of Early-Stage Idiopathic Parkinson Disease: Assessment of Diagnostic Accuracy and Agreement on Imaging Asymmetry and Clinical Laterality.Self-confirming "AND" logic nanoparticles for fault-free MRIHippocampal sclerosis and encephalomalacia as prognostic factors of tuberculous meningitis-related and herpes simplex encephalitis-related epilepsy.k-t FOCUSS: a general compressed sensing framework for high resolution dynamic MRI.Differential involvement of nigral subregions in idiopathic parkinson's disease.Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy.Rapid whole-brain gray matter imaging using single-slab three-dimensional dual-echo fast spin echo: A feasibility study.Pediatric intracerebral histiocytic sarcoma with rhabdoid features: Case report and literature review.Comparison of Imaging Selection Criteria for Intra-Arterial Thrombectomy in Acute Ischemic Stroke with Advanced CT.Improved k-t BLAST and k-t SENSE using FOCUSS.Phase-sensitive, dual-acquisition, single-slab, 3D, turbo-spin-echo pulse sequence for simultaneous T2-weighted and fluid-attenuated whole-brain imaging.Regarding "Perfusion MR Imaging Using a 3D Pulsed Continuous Arterial Spin-Labeling Method for Acute Cerebral Infarction Classified as Branch Atheromatous Disease Involving the Lenticulostriate Artery Territory".Contrast-enhanced, three-dimensional, whole-brain, black-blood imaging: application to small brain metastases.Susceptibility-resistant variable-flip-angle turbo spin echo imaging for reliable estimation of cortical thickness: a feasibility study.Sulcal hyperintensity on fluid-attenuated inversion recovery imaging in acute ischemic stroke patients treated with intra-arterial thrombolysis: iodinated contrast media as its possible cause and the association with hemorrhagic transformation.Whole-brain perfusion imaging with balanced steady-state free precession arterial spin labeling.Diagnosis of Early-Stage Idiopathic Parkinson's Disease Using High-Resolution Quantitative Susceptibility Mapping Combined with Histogram Analysis in the Substantia Nigra at 3 T.Retrospective multi-phase non-contrast-enhanced magnetic resonance angiography (ROMANCE MRA) for robust angiogram separation in the presence of cardiac arrhythmia.Dynamic Contrast-Enhanced MR Angiography Exploiting Subspace Projection for Robust Angiogram Separation.Neuroradiologic findings in children with mitochondrial disorder: correlation with mitochondrial respiratory chain defects.Simple microwire and microcatheter mechanical thrombolysis with adjuvant intraarterial urokinase for treatment of hyperacute ischemic stroke patients.Thrombus imaging in acute ischaemic stroke using thin-slice unenhanced CT: comparison of conventional sequential CT and helical CT.Thrombus volume comparison between patients with and without hyperattenuated artery sign on CT.Reorganization of neural circuits in the blind on diffusion direction analysis.Quantitative susceptibility mapping using deep neural network: QSMnetImproved Time-Resolved MRA Using k-Space Deep LearningIs High-Spatial-Resolution Diffusion MRI Applicable for the Diagnosis of Parkinson Disease?Multiphase MR Angiography Collateral Map: Functional Outcome after Acute Anterior Circulation Ischemic StrokeDo the Magic Angle Effects or Susceptibility Effects Affect the Visualization of Nigrosome 1?Initial diagnostic workup of parkinsonism: Dopamine transporter positron emission tomography versus susceptibility map-weighted imaging at 3TNigrosome 1 imaging: technical considerations and clinical applicationsA Novel Collateral Imaging Method Derived from Time-Resolved Dynamic Contrast-Enhanced MR Angiography in Acute Ischemic Stroke: A Pilot StudyMapping cerebral perfusion from time-resolved contrast-enhanced MR angiographic data
P50
Q31033233-2CF78B28-51C7-4E94-8474-A08A29997B30Q33394742-E98B9A2A-0F55-4898-9973-83EB5E16D1E6Q37062971-1138C9E4-4D8C-4D52-8354-729658F5A7E2Q38826003-717599BD-9784-43E8-9D6F-8DEC85286576Q40147782-ACBAA415-D186-4934-B9F6-36F4A068504AQ40621049-3EC98EFE-BC75-49EE-8EE7-D0B2E0D8F2FCQ42429908-49A1ABDE-33C9-4E6C-A9E2-835F5FC7FD03Q44937246-A1AED1FE-F3F8-4B50-8C45-642FE3A9F5BCQ45803908-8755C4D0-571E-4FCD-872E-74B20726BA24Q47416232-6695FB3F-76D1-49B6-95C6-EB143564EEABQ47626593-8B52E984-B20C-41B5-8F71-BDB2C2DE2031Q47664022-996E3615-DD42-4C6E-AB6B-3BD6E176CFB1Q48022774-A645CC8C-406A-4508-A110-E3410337809AQ48092387-F54E256C-A756-49DD-AE0C-E00BCE0C82CFQ48166669-53915661-523C-4C48-9493-1082D33A76CCQ48218541-093A8834-DE50-4801-A685-6CD814307A5AQ48220700-D93CDC60-B4BC-4EF0-8D59-2AC20C611EA9Q48291858-55AB63A3-9FBD-45FE-A692-C9A1135DE41CQ48950153-3C55F851-83E3-4235-AF02-7AD130201893Q48964262-D45E7BA7-5774-497D-BE78-B11BDFFF34B3Q49138149-D9041F50-7B9A-4A95-91F1-4B01A819DD83Q50043640-40B87D40-EBD2-4B5E-9732-8DDC79C86EF1Q50050081-DDDD7EF1-3008-4A47-82ED-9F1777E0EE49Q51730855-728CD545-33D3-4D37-B277-F4786A8DDBC3Q51889171-67AC81F5-176D-4E9A-9356-2F4C6C6AC98FQ52585928-91AD6D13-08B1-422A-9738-A01DE25C82E2Q53158923-A29BD32C-08FF-427E-B5F3-C1A987587CC2Q53455670-2587BABF-5150-4600-8136-9AC82F17FA71Q53554991-80F0D0EB-D2BD-41BD-84E0-A0B01E68488DQ57144011-4945F07A-2F42-485E-870A-77A8CEF26D9FQ57983373-989B9494-E43E-45BD-B3F1-E621EAC9AB17Q64764827-96D3336C-FB45-4506-BE4F-7ED1C4B23456Q89754775-522C6B69-184B-454B-A94D-7E395648B7D5Q90089288-119D8A87-B301-408F-90A0-72AD1EA76C37Q90726260-83B06D7D-505B-43A8-9832-87469CF63F06Q91851900-1E57DE59-12CB-44D4-A514-2AA29839D169Q92088599-AAEE7124-1DAD-4DF2-8A2B-188674840061Q92443250-31C83825-8411-46DE-A9C1-48DF6D5814E4
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Eung Yeop Kim
@ast
Eung Yeop Kim
@en
Eung Yeop Kim
@es
Eung Yeop Kim
@nl
Eung Yeop Kim
@sl
type
label
Eung Yeop Kim
@ast
Eung Yeop Kim
@en
Eung Yeop Kim
@es
Eung Yeop Kim
@nl
Eung Yeop Kim
@sl
prefLabel
Eung Yeop Kim
@ast
Eung Yeop Kim
@en
Eung Yeop Kim
@es
Eung Yeop Kim
@nl
Eung Yeop Kim
@sl
P1053
A-9807-2013
P106
P214
290146094289300331809
P31
P3829
P496
0000-0002-9579-4098
P7859
viaf-290146094289300331809