Tuberous Sclerosis
Lancet 372:657-658, Curatolo,P.,et al., 2008
The Tuberous Sclerosis Complex
NEJM 355:1345-1356, Crino,P.B.,et al, 2006
Diagnostic Approach in Patients with Symmetric Imaging Lesions of the Deep Gray Nuclei
The Neurologist 9:250-261, Finelli,P.F.&DiMario,Jr,F.J., 2003
Diffusion-Weighted Magnetic Resonance Imaging and Identification of the Epileptogenic Tuber in Patients with Tuberous Sclerosis
Arch Neurol 60:1580-1584, Jansen,F.E.,et al, 2003
New Developments in the Neurobiology of the Tuberous Sclerosis Complex
Neurol 53:1384-1390, Crino,P.B.&Henske,E.P., 1999
Association of Tuberous Sclerosis of Temporal Lobes with Autism and Atypical Autism
Lancet 349:392-395, Bolton,P.F.&Griffiths,P.D., 1997
Cystlike White Matter Lesions in Tuberous Sclerosis
AJNR 18:1367-1373, VanTassel,P.,et al, 1997
Pre-and Postcontrast MR Studies in Tuberous Sclerosis, Wippold
J Comput Assist Tomogr 16:69-72, II,F.J.,et al, 1992
MR Imaging of Tuberous Sclerosis:Pathogenesis of This Phakomatosis, Use of Gadopenetate, & Literature Review
Radiology 183:227-238, Braffman,B.H.,et al, 1992
New Research in Tuberous Sclerosis, Probably More Common with More Adult Complications
BMJ 304:1647-1648, Mitchell,S.&Bradbeer,C., 1992
Detection of Tuberous Sclerosis in Parents by Magnetic Resonance Imaging
Neurol 41:262-265, Roach,E.S.,et al, 1991
Visual Loss in Tuberous Sclerosis
Neurol 41:1915-1917, Dotan,S.A.,et al, 1991
Focal Neuronal Migration Disorders and Intractable partial Epilepsy:A Study of 30 Patients
Ann Neurol 30:741-749, Palmini,A.,et al, 1991
Tuberous Sclerosis:Increased MR Detection Using Gradient Echo Techniques
J Comput Assist Tomogr 13:896-898, Berns,D.H.,et al, 1989
Magnetic Resonance Images of Tuberous Sclerosis, Further Observations and Clinical Correlations
Neuroradiology 30:379-384, Inoue,Y.,et al, 1988
Bornavirus Encephalitis Shows a Characteristic Magnetic Resonance Phenotype in Humans
Ann Neurol 88:723-735, Finck, T.,et al, 2020
"Motor Band Sign" in Susceptibility-Weighted Imaging in Motor Neuron Disease
Ann India Acad Neurol 23:821-822, Prabhu,A.N., 2020
Acute Brain Lesions on Magnetic Resonance Imaging and Delayed Neurological Sequelae in Carbon Monoxide Poisoning
JAMA Neurol 75:436-443, Jeon, S.B.,et al, 2018
MRI Features of Aquaporin-4 Antibody-Positive Longitudinally Extensive Transverse Myelitis: Insights into Neuromyelitis Optica Spectrum Disorders
AJNR 39:782-787, Chee, C.G.,et al, 2018
Dentate Update: Imaging Features of Entities that Affect the Dentate Nucleus
AJNR 38:1467-1474, Bond, K.M.,et al, 2017
Incidence of Radiologically Isolated Syndrome: A Population-Based Study
AJNR 37:1017-1022, Forslin, Y.,et al, 2016
The Contemporary Spectrum of Multiple Sclerosis Misdiagnosis
Neurol 87:1393-1399, Solomon, A.J.,et al, 2016
Superior MRI Outcomes with Alemtuzumab Compared with Subcutaneous Interferon �-1a in MS
Neurol 87:1464-1472, Arnold, D.L.,et al, 2016
International Consensus Diagnostic Criteria for Neuromyelitis Optica Spectrum Disorders
Neurol 85:177-189, Wingerchuk, D.M.,et al, 2015
Daclizumab HYP versus Interferon Beta-1a in Relapsing Multiple Sclerosis
NEJM 373:1418-1428, Kappos, L.,et al, 2015
MRI Characteristics of Neuromyelitis Optica Spectrum Disorder
Neurol 84:1165-1173, Jin Kim, H.,et al, 2015
Addition of Hyperacute MRI Aids in Patient Selection, Decreasing the Use of Endovascular Stroke Therapy
Stroke 45:467-472, Wisco, D.,et al, 2014
Safety and Efficacy of Ofatumumab in Relapsing-Remitting Multiple Sclerosis
Neurol 82:573-581, Sorensen, P.S.,et al, 2014
The Thalamus and Multiple Sclerosis
Neurol 80:210-219, Minagar, A.,et al, 2013
Daclizumab High-Yield Process in Relapsing-Remitting Multiple Sclerosis (SELECT): A Randomised, Double-Blind, Placebo-Controlled Trial
Lancet 381:2167-2175, Gold, R.,et al, 2013
Advanced MRI Morphologic Study Shows No Atrophy in Healthy Individuals with Hippocampal Hyperintensity
AJNR 34:1585-1588, Labate, A.,et al, 2013
Interdependence and Contributions of Sun Exposure and Vitamin D to MRI Measures in Multiple Sclerosis
JNNP 84:1075-1081, 1066, Zivadinov, R.,et al, 2013
MRI-Identified Pathology in Adults with New-Onset Seizures
Neurol 81:920-927, Hakami, T.,et al, 2013
An Expanded Role for Neuroimaging in the Evaluation of Memory Impairment
AJNR 34:2075-2082, Desikan, R.S.,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
Solitary Sclerosis
Neurol 78:540-544, Schmalstieg,W.F.,et al, 2012
Distinct Lesion Morphology at 7-T MRI Differentiates Neuromyelitis Optica from Multiple Sclerosis
Neurol 79:708-714, Sinnecker, T.,et al, 2012
MRI Abnormalities Follwing Febrile Status Epilepticus in Children
Neurol 79:871-877, Shinnar, S.,et al, 2012
Impact of Fingolimod Therapy on Magnetic Resonance Imaging Outcomes in Patients with Multiple Sclerosis
Arch Neurol 69:1259-1269, Radue, E.W.,et al, 2012
Bright Tongue Sign in ALS
Neurol 79:1520, Fox, M.D. & Cohen, A.B., 2012
Placebo-Controlled Phase 3 Study of Oral BG-12 for Relapsing Multiple Sclerosis
NEJM 367:1098-1106,1149, Gold, R.,et al, 2012
Placebo-Controlled Phase 3 Study of Oral BG-12 or Glatiramer in Multiple Sclerosis
NEJM 367:1087-1097,1149, Fox, R.J.,et al, 2012
Should we be nervous about coeliac disease? Brain abnormalities in patients with coeliac disease referred for neurologic opinion
JNNP 83:1216-1221, Currie, S.,et al, 2012
Diagnostic Criteria for Multiple Sclerosis: 2010 Revisions to the McDonald Criteria
Ann Neurol 69:292-302, 234, Polman,C.H.,et al, 2011
Mechanisms of Fingolimods Efficacy and Adverse Effects in Multiple Sclerosis
Ann Neurol 69:759-777, Cohen, J.A. & Chun, J., 2011
Disease activity return during natalizumab treatment interruption in patients with multiple sclerosis
Neurol 76:1858-1865, OConnor, P.W.,et al, 2011
Rhombencephalitis A Series of 97 Patients
Medicine 90:256-261, Moragas, M.,et al, 2011
Paraneoplastic isolated myelopathy Clinical course and neuroimaging clues
Neurol 76:2089-2095, Flanagan, E.P.,et al, 2011
Balos Concentric Sclerosis
NEJM 365:742, Wengert, O.,et al, 2011