Magnetic Resonance Imaging in Pathologically Proven Hallervorden-Spatz Disease
Neurol 39:440-442, Schaffert,D.A.,et al, 1989
Abnormal and Persistent Mineralization of Globi Pallidi in GAMT Deficiency
Neurol 104:e213636, Chanda,G.,et al, 2025
Reversible Cortical and Basal Ganglia Lesions in Late-Onset Methylmalonic Aciduria
JAMA Neurol 81:1-82, Chu,X.C.,et al, 2024
When MRI is a Clue in Episodic Ataxia
Neurol 93:e2074-e2075, Dhawan, S.R.,et al, 2019
MRI Characteristics of Globus Pallidus Infarcts in Isolated Methylmalonic Acidemia
AJNR 36:194-201, Baker, E.H.,et al, 2015
MRI in Methylmalonic Acidemia
Neurol 74:e14, Bindu, P.S.,et al, 2010
Clinical and Neuroimaging Findings of Cree Leukodystrophy: A Retrospective Case Series
AJNR 31: 1418-1423, Harder,S.,et al, 2010
Genetic, Clinical, and Radiographic Delineation of Hallervorden-Spatz Syndrome
NEJM 348:33-40, Hayflick,S.J.,et al, 2003
Clinical Spectrum of Succinic Semialdehyde Dehydrogenase Deficiency
Neurol 60:1413-1417, Pearl,P.L.,et al, 2003
Bilirubin Metabolism and Kernicterus
Adv Pediatr 44:173-229, Gourley,G.R., 1997
Persistence of MRI Hyperintensity of the Globus Pallidus in Cirrhotic Patients:A 2-year Follow-up Study
Neurol 45:995-997, Kulisevsky,J.,et al, 1995
Neurological Sequelae of Cyanide Intoxication-The Patterns of Clinical MRI & Pet Findings
Ann Neurol 38:825-828, Rosenow,F.,et al, 1995
MR Imaging of a Group I Case of Hallervorden-Spatz Disease
J Comput Assist Tomogr 12:851-853, Mutoh,K.,et al, 1988
Mineralization of the Basal Ganglia Detected by CT in Hallervorden-Spatz Syndrome
Neurol 38:154-155, Tennison,M.B.,et al, 1988