Manganese Accumulation in the Brain
NEJM 389:1320, Sherman,S.V., 2023
A Middle-Aged Man with Progressive Gait Abnormalities
Neurol 97:e2423-e2428, Lin, J.,et al, 2021
Deep Brain Nuclei T1 Shortening after Gadobenate Dimeglumine in Children: Influence of Radiation and Chemotherapy
AJNR 39:24-30, Kinner, S.,et al, 2018
Basal Ganglia T1 Hyperintensity in Hereditary Hemorrhagic Telangiectasia
AJNR 38:1929-1933, Parvinian, A.,et al, 2017
Facial Grimacing and Sensorineural Hearing Loss in a Woman with Cirrhosis of the Liver
Neurol 87:e239, Sgobbi de Souza, P.V.,et al, 2016
Diabetic Striatal Disease: Clinical Presentation, Neuroimaging, and Pathology
InterMed 48:1135-1141, Abe, Y.,et al, 2009
Clinicopath Conference, Cryptococcosis With Cryptococcal Meningitis in Liver Allograft Recipient
NEJM 358:1604-1613, Case 11-2008, 2008
A Parkinsonian Syndrome in Methcathinone Users and the Role of Manganese
NEJM 358:1009-1017, Stepens,A.,et al, 2008
Voltage-gated Potassium Channel Antibody-Associated Encephalitis with Basal Ganglia Lesions
Neurol 66:1780-1781, Hiraga,A.,et al, 2006
Brain Metal Concentrations in Chronic Liver Failure Patients With Pallidal T1 MRI Hyperintensity
Neurol 67:1984-1989, Klos,K.J.,et al, 2006
Neurologic Spectrum of Chronic Liver Failure and Basal Ganglia T1 Hyperintensity on Magnetic Resonance Imaging, Probably Manganese Neurotoxicity
Arch Neurol 62:1385-1390, Klos,K.J.,et al, 2005
Sporadic Creutzfeldt-Jakob Disease
Neurol 63:450-456,410, Meissner,B.,et al, 2004
Correlation of Diffusion-Weighted Magnetic Resonance Imaging With Neuropathology in Creutzfeldt-Jakob Disease
Arch Neurol 59:128-134, Mittal,S.,et al, 2002
MRI Hyperintensities of the Temporal Lobe and External Capsule in Patients with CADASIL
Neurol 56:628-634, O'Sullivan,M.,et al, 2001
Postanoxic Parkinsonism: Clinical, Radiologic, and Pathologic Correlation
Neurol 55:591-593, Li,J.Y. et al, 2000
Current Clinical Diagnosis in Creutzfeldt-Jakob Disease; Identification of Uncommon Variants
Ann Neurol 48:323-329, Zerr,I. et al, 2000
Magnetic Resonance Imaging in the Clinical Diagnosis of Creutzfeldt-Jakob Disease
Arch Neurol 57:1751-1757, Schroter,A.,et al, 2000
Hemiballismus-Hemochorea in Older Diabetic Women:A Clinical Syndrome with MRI Correlation
Neurol 52:646-648, Lee,B-C.,et al, 1999
Delayed Ischemic Hyperintensity on T1-Weighted MRI in the Caudoputamen and Cerebral Cortex of Humans after Spectacular Shrinking Deficit
Stroke 30:1038-1042, Fujioka,M.,et al, 1999
Hyperintense Basal Ganglia on T1-Weighted MR Imaging
AJR 172:1109-1115, Lai,P.H.,et al, 1999
Retinocochleocerebral Vasculopathy
Medicine 77:12-40, Petty,G.W.,et al, 1998
AIDS-Related MR Hyperintensity of the Basal Ganglia
AJNR 19:83-89, Meltzer,C.C.,et al, 1998
Regress of HIV Enceph & Basal Ganglia Signal Intensity Abnor MRI in AIDS after Protease Inhibitor
Neuroradiology 206:491-498, Filippi,C.G.,et al, 1998
High-signal Basal Ganglia on T1-Weighted Images in a Patient with Sydenham's Chorea
Neuroradiology 11:704-709, Ikuta,N.,et al, 1998
Neuroimagen en la hipoglucemia
Rev Neurol 26:774-776, Cubo,E.,et al, 1998
Bilirubin Metabolism and Kernicterus
Adv Pediatr 44:173-229, Gourley,G.R., 1997
Specific Changes in Human Brain After Hypoglycemic Injury
Stroke 28:584-587, Fujioka,M.,et al, 1997
Wilson Disease:Findings at MR Imaging and CT of the Brain with Clinical Correlation
Radiology 198:531-536, van Wassenaer-van Hall,H.N.,et al, 1996
Evolution of High-Intensity Basal Ganglia Lesions on T1-Weighted MR in Neurofibramotisis Type 1
AJNR 17:755-760, Terada,H.A.,et al, 1996
MR Imaging of Creutzfeldt-Jakob Disease
Radiology 199:793-798, Finkenstaedt,M.,et al, 1996
Chorea-Ballismus with Nonketotic Hyperglycemia in Primary Diabetes Mellitus
AJNR 17:1057-1064, Lai,P.,et al, 1996
MR in Trichloroethane Poisoning
AJNR 17:1180-1182, del Amo,M.,et al, 1996
Neurofibromatosis Type 1:Pathologic Substrate of High-Signal-Intensity Foci in the Brain
Radiology 195:721-724, DiPaolo,D.P.,et al, 1995
Magnetic Resonance Imaging of Brain Iron in Health and Disease
J Neurol Sci 134:19-26,1, Vymazal,J.,et al, 1995
MR Diagnosis of Creutzfeldt-Jakob Disease:Significance of High Signal Intensity of the Basal Ganglia
AJR 162:137-140, Barboriak,D.P.,et al, 1994
Initial and Follow-up Brain MRI Findings and Correlation with the Clinical Course in Wilson's Disease
Neurol 44:1064-1068, Roh,J.K.,et al, 1994
High Signal Intensity of Both Putamina in Patients with HIV Infection
Neuroradiology 33:362-363, Kodama,T.,et al, 1991
Meningovascular Syphilis: CT and MR Findings
Radiology 158:439-442, Holland,B.A.,et al, 1986
Wilson Disease of the Brain:MR Imaging
Radiology 157:137-141, Aisen,A.M.,et al, 1985
Intracranial Lesions with Low Signal Intensity on T2-Weighted MR Images - Review of Pathologies
Pol J Radiol 80:40-50, Zimny, A.,et al, 2015
Clinicopathologic Conference, Tay-Sacks Disease (GM2, Gangliosidosis)
NEJM 370:1830-1841, Case 14-2014, 2014
T2-weighted MRI Differentiates Multiple System Atrophy from Parkinson's Disease
Neurol 59;1265-1267, Kraft,E.,et al, 2002
T2 Hypointensity in the Deep Gray Matter of Patients With Multiple Sclerosis
Arch Neurol 59:62-68, Bakshi,R.,et al, 2002
Actionable Diagnosis of Neuroleptospirosis by Next-Generation Sequencing
NEJM 370:Doi:10.1056/NEJMoal1401268, Wilson, M.R.,et al, 2014
Quantitative Assessment of Iron Accumulation in the Deep Gray Matter of Multiple Sclerosis by Magnetic Field Correlation Imaging
AJNR 28:1639-1644, Ge,Y.,et al, 2007
Out of Africa, Trypanosomiasis
NEJM 347:749-753, Sahlas,D.J.,et al, 2002
Reversible Cortical and Basal Ganglia Lesions in Late-Onset Methylmalonic Aciduria
JAMA Neurol 81:1-82, Chu,X.C.,et al, 2024
Extensive Brainstem and Striatal Involvement in Neuropsychiatric Systemic Lupus Erythematosus
Neurol 102:e209153, Branch, A.,et al, 2024
Fluorodeoxyglucose PET/CT as Possible Early Diagnostic Tool Preceding MRI Changes in Borna Disease Virus 1 Encephalitis
Lancet 403:665-666, Bayas, A., et al, 2024