The Thalamus and Multiple Sclerosis
Neurol 80:210-219, Minagar, A.,et al, 2013

Susceptibility-Weighted Imaging Is More Reliable Than T2*-Weighted Gradient-Recalled Echo MRI for Detecting Microbleeds
Stroke 44:2782-2786, Cheng, A.,et al, 2013

Assessing Abnormal Iron Content in the Deep Gray Matter of Patients with Multiple Sclerosis verus Healthy Controls
AJNR 33:252258, Habib,C.A.,et al, 2012

Susceptibility-Weighted MR Imaging for Diagnosis of Capillary Telangiectasia of the Brain
AJNR 33:715-720, El-Koussy,M.,et al, 2012

SWAN MRI Revealing Multiple Microhemorrhages Secondary to Septic Emboli from Mucormycosis
Neurol 79:1932-1933, Scully, M.A.,et al, 2012

Cerebral Fat Embolism Syndrome in Sickle Cell Anaemia/�-Thalassemia: Importance of Susceptibility-weighted MRI
Clin Radiol 67:1023-1026, Mossa-Basha, M.,et al, 2012

Clinical Relevance of Improved Microbleed Detection by Susceptibility-Weighted Magnetic Resonance Imaging
Stroke 42:1894-1900, Goos, J.D.C.,et al, 2011

Familial Versus Sporadic Cavernous Malformations: Differences in Developmental Venous Anomaly Association and Lesion Phenotype
AJNR 31:377-382, Petersen,T.A.,et al, 2010

MR Imaging Features of Isolated Cortical Vein Thrombosis: Diagnosis and Follow-Up
AJNR 30:344-348, Boukobza,M.,et al, 2009

Diabetic Striatal Disease: Clinical Presentation, Neuroimaging, and Pathology
InterMed 48:1135-1141, Abe, Y.,et al, 2009

Concepts and Controversies in Nonketotic Hyperglycemia-Induced Hemichorea: Further Evidence from Susceptibility-Weighted MR imaging
J Magn Reson Imaging 29:699-703, Cherian, A.,et al, 2009

Mineralization of the Deep Gray Matter with Age: A Retrospective Review with Susceptibility-Weighted MR Imaging
AJNR 29:176-183, Harder,S.L.,et al, 2008

T2* and FSE MRI Distinguishes Four Subtypes of Neurodegeneration With Brain Iron Accumulation
Neurol 70:1614-1619, McNeill,A.,et al, 2008

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

Imaging Cerebral Amyloid Angiopathy With Susceptibility-Weighted Imaging
AJNR 28:316-317, Haacke,E.M.,et al, 2007

Gray Matter Involvement in Multiple Sclerosis
Neurol 68:634-642, Pirko,I.,et al, 2007

Cerebral Venous Thrombus Signal Intensity and Susceptibility Effects on Gradient Recalled-Echo MR Imaging
AJNR 28:940-945, Leach,J.L.,et al, 2007

The "Eye-of-the-Tiger" Sign is Not Pathognomonic of the PANK2 Mutation
Arch Neurol 63:292-293, Kumar,N.,et al, 2006

MRI of Clot in Cerebral Venous Thrombosis
Stroke 37:991-995, Idbaih,A.,et al, 2006

Improved Detection of Metastatic Melanoma by T2*-Weighted Imaging
AJNR 27:605-608, Gaviani,P.,et al, 2006

MRI T2 Hypointensity of the Dentate Nucleus is Related to Ambulatory Impairment in Multiple Sclerosis
J Neurol Sci 234:17-24, Tjoa,C.W.,et al, 2005

Magnetic Susceptibility-Weighted MR Phase Imaging of the Human Brain
AJNR 26:736-742, Rauscher,A.,et al, 2005

Pallidal Stimulation Improves Pantothenate Kinase-Associated Neurodegeneration
Ann Neurol 57:738-741,613, Castelnau,P.,et al, 2005

Spatial Clustering of Hemorrhages in Probable Cere bral Amyloid Angiopathy
Ann Neurol 58:459-462, Rosand,J.,et al, 2005

Hyperacute Ischemic Stroke: Middle Cerebral artery Susceptibility Sign at Echo-Planar Gradient-Echo MR Imaging
Radiology 232:466-473, Rovira,A.,et al, 2004

Hemorrhagic Infarction in White Matter Following Acute Carbon Monoxide Poisoning
Neurol 63:1102-1105, Finelli,P.F. & DiMario,J.F., 2004

Genetic, Clinical, and Radiographic Delineation of Hallervorden-Spatz Syndrome
NEJM 348:33-40, Hayflick,S.J.,et al, 2003

T2 Hypointensity in the Deep Gray Matter of Patients With Multiple Sclerosis
Arch Neurol 59:62-68, Bakshi,R.,et al, 2002

Reduced Signal Intensity of T2 Weighted MR Imaging of Thalamus and Putamen in Multiple Sclerosis in Japan
Rinsho Shinkeigaku 40:677-682, Nishii,T.,et al, 2000

Hyperintense Basal Ganglia on T1-Weighted MR Imaging
AJR 172:1109-1115, Lai,P.H.,et al, 1999

Atypical MRI Features of Wilson's Disease:High Signal in Globus Pallidus on T1-Weighted Images
Neuroradiology 39:171-174, Mochizuki,H.,et al, 1997

MRI In Patients with General Paresis
Neuroradiology 38:120-123, Zifko,U.,et al, 1996

MRI of the Brain in Wilson Disease:T2 Signal Loss Under Therapy
J Comput Assist Tomogr 19:635-638, Engelbrecht,V.,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

Giant Intracranial Aneurysms with Skull Base Erosion and Extracranial Masses:CT and MR Findings
J Comput Assist Tomogr 18:939-942, Fisher,A.,et al, 1994

T2 Relaxation Time in Patients with Parkinson's Disease
Neurol 43:697-700, Antonini,A.,et al, 1993

Toluene Abuse Causing Reduced MR Signal Intensity in the Brain
AJR 161:1259-1261, Caldemeyer,K.S.,et al, 1993

Amyotrophic Lateral Sclerosis:T2 Shortening in Motor Cortex at MR Imaging
Radiology 189:843-846, Oba,H.,et al, 1993

Hallervorden-Spatz Disease with Bilat Invol of Globus Pallidus & Substantia Nigra:MR Demonstra
J Comput Assist Tomogr 17:961-963, Porter-Grenn,L.,et al, 1993

Biological Significance of Iron-Related Magnetic Resonance Imaging Changes in the Brain
Arch Neurol 49:711-717, Pujol,J.,et al, 1992

Delayed Encephalopathy after Acute Carbon Monoxide Intoxication:MR Imaging Features & Cerebral White Matter Lesions
Radiology 184:117-122, Chang,K.H.,et al, 1992

Atypical MR Presentation of Wilson Disease:A Possible Consequence of Paramagnetic Effect of Copper
Neuroradiology 34:222-224, Brugieres,P.,et al, 1992

Hallervorden-Spatz Syndrome and Brain Iron Metabolism
Arch Neurol 48:1285-1293, Swaiman,K.F., 1991

Striatonigral Degeneration:Clinical, MRI, & Pathologic Correlation
Neurol 40:710-711, O'Brien,C.,et al, 1990

MR Findings in Meige Syndrome
J Comput Assist Tomogr 13:116-118, Piazza,P.,et al, 1989

Magnetic Resonance Imaging in Pathologically Proven Hallervorden-Spatz Disease
Neurol 39:440-442, Schaffert,D.A.,et al, 1989

MR Imaging of a Group I Case of Hallervorden-Spatz Disease
J Comput Assist Tomogr 12:851-853, Mutoh,K.,et al, 1988

Magnetic Resonance Imaging in Multiple Sclerosis:Decreased Signal in Thalamus & Putamen
Ann Neurol 22:546-550, Drayer,B.P.,et al, 1987

Bilaterally Symmetrical Globus Pallidus Infarction
Ann Neurol 97:254-255, Chen,L.,et al, 2025

Spontaneous Spinal Cord Infarction in a Young Patient: An Overview of Clinical Features and Management
Stroke 56:58-61, Chornay,C.,et al, 2025