Maternal and Fetal Risks of Natalizumab Exposure in Utero
Neurol 90:443-444, Marrie, R.A.,et al, 2018
Acute acalculous cholecystitis
Neurol 90:e1548-e1552, Croteau, D.,et al, 2018
Drug Reaction with Eosinophilia and Systemic Symptoms after Daclizamub Therapy
Neurol 91:e359-e363, Rauer,S.,et al, 2018
Use of Newer Disease-Modifying Therapies in Pediatric Multiple Sclerosis in the US
Neurol 91:e1778-e1787, Krysko, K.M.,et al, 2018
Natalizumab-Associated PML
Neurol 88:1197-1205, Schwab, N.,et al, 2017
Fulminant Central Nervous System Nocardiosis in a Patient Treated with Alemtuzumab for Relapsing-Remitting Multiple Sclerosis
JAMA Neurol 73:757-759, Penkert, H.,et al, 2016
Acute Cholecystitis During Treatment with Alemtuzumab in 3 Patients with RRMS
Neurol 87:2380-2381, Pfeuffer, S.,et al, 2016
Newer Agents in the Treatment of Multiple Sclerosis
Neurologist 19:104-117, Pawate, S. & Bagnato F., 2015
Dystonia in Children and Adolescents: A Systematic Review and a New Diagnostic Algorithm
JNNP 86:774-781, Van Egmond, M.E.,et al, 2015
Daclizumab HYP versus Interferon Beta-1a in Relapsing Multiple Sclerosis
NEJM 373:1418-1428, Kappos, L.,et al, 2015
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
Severe Relapses under Fingolimod Treatment Prescribed after Natalizumab
Neurol 79:2004-2006,1942, Centonze, D.,et al, 2012
Immune Reconstitution Inflammatory Syndrome in Patients With Multiple Sclerosis Following Cessation of Natalizumab Therapy
Arch Neurol 68:186-191, Miravalle,A.,et al, 2011
Primary Central Nervous System Lymphoma in a Patient Treated with Natalizumab
Ann Neurol 69:1060-1062, Phan-Ba, R.,et al, 2011
Severe Cutaneous Candida Infection During Natalizumab Therapy in Multiple Sclerosis
Neurol 74:521-523, Gutwinski,S.,et al, 2010
Natalizumab and Progressive Multifocal Leukoencephalopathy: What are the Causal Factors and Can It be Avoided?
Arch Neurol 67:923-930, Warnke,C., et al, 2010
Successful Management of Natalizumab-Associated Progressive Multifocal Leukoencephalopathy and Immune Reconstitution Syndrome in a Patient With Multiple Sclerosis
Arch Neurol 67:1391-1394, Schr�der,A.,et al, 2010
Immunologic, Clinical, and Radiologic Status 14 Months After Cessation of Natalizumab Therapy
Neurol 72:396-401,392, Stuve,O.,et al, 2009
Multiple Sclerosis Therapeutics: Unexpected Outcomes Clouding Undisputed Successes
Neurol 72:1008-1015, Wiendl,H. &Hohlfeld,R., 2009
Opportunistic Infections and Other Risks with Newer Multiple Sclerosis Therapies
Ann Neurol 65:367-377, Berger,J.R. &Houff,S., 2009
Best Practice Recommendations for the Selection and Management of Patients with Multiple Sclerosis Receiving Natalizumab Therapy
Mutliple Sclerosis 15:S26-S36, Coyle,P.K.,et al, 2009
B-Cell Depletion with Rituximab in Relapsing-Remitting Multiple Sclerosis
NEJM 358:676-688, Hauser,S.L.,et al, 2008
Postwithdrawal Rebound Increase in T2 Lesional Activity in Natalizumab-Treated MS Patients
Neurol 70:1150-1151,1073, Vellinga,M.M.,et al, 2008
Monoclonal Antibody Therapies and Neurologic Disorders
Arch Neurol 65:1162-1165, Novack,J.C.,et al., 2008
Alemtuzumab vs. Interferon Beta-1a in Early Multiple Sclerosis
NEJM 359:1786-1801,1838, The CAMMS223 Trial Investigators, 2008
Quantifying the Risks and Benefits of Natalizumab in Relapsing Multiple Sclerosis
Neurol 68:1524-1528, Dorsey,E.R.,et al, 2007
Natalizumab for Multiple Sclerosis
NEJM 356:2622-2629, Ransohoff,R.M., 2007
Natalizumab Plus Interferon Beta -1a for Relapsing Multiple Sclerosis
NEJM 354:911-923,965, Rudick,R.A.,et al, 2006
A Randomized, Placebo-Controlled Trial of Natalizumab for Relapsing Multiple Sclerosis
NEJM 354:899-910,965, Polman,C.H.,et al, 2006
Infusion-Related Hypersensitivity Reactions During Natalizumab Treatment
Neurol 67:1717-1718, Phillips,J.T.,et al, 2006
Mitoxantrone Treatment of Multiple Sclerosis
Neurol 63(Suppl 6):S28-S32, Cohen,B.A. &Mikol,D.D., 2004
Lesions of Basal Ganglia Due to Disulfiram Neurotoxicity
JNNP 55:925-929, Laplane,D.,et al, 1992
Adverse Events Associated with Disease-Modifying Drugs for Multiple Sclerosis
Neurol 102:e208006, Ng, HS.,et al, 2024
Lecanemab in Early Alzheimers Disease
NEJM 388:9-21,80, van Dyck,A.H.,et al, 2023
Donanemab in Early Symptomatic Alzheimer Disease, The TRAILBLAZER-ALZ 2 Randomized Clinical Trial
JAMA 330:512-517, 510, Sims,J.R.,et al, 2023
Severe Amyloid-Related Imaging Abnormalities After Anti-B-Amyloid Monoclonal Antibody Treatment
Neurol 101:1079-1080, Bonami,S.,et al, 2023
Acute Treatment for Migraine
JAMA 325:2346-2347, Burch, R. & Rayhill, M., 2021
Autoimmune Encephalitis Related to Cancer Treatment with Immune Checkpoint Inhibitors
Neurol 97:e191-e202, Nersesjan, V.,et al, 2021
Drug-Related Demyelinating Syndromes: Understanding Risk Factors, Pathophysiological Mechanisms and Magnetic Resonance Imaging Findings
Mult Scler Rel Dis 55:103146, Rimkus, C.M.,et al, 2021
Progressive Multifocal Leukoencephalopathy in a Patient with Progressive Multiple Sclerosis Treated With Ocrelizumab Monotherapy
JAMA Neurol 78:736-740, Patel,A.,et al, 2021
Infection Risks Among Patients with Multiple Sclerosis Treated with Fingolimod, Natalizumab, Rituximab, and Injectable Therapies
JAMA Neurol 77:184-191, Luna, G.,et al, 2020
Initial Highly Effective Therapy for MS
Neurol 95:1114-1116, Wallin, M.T., 2020
Migraine
NEJM 383:1866-1876, Ashina, M., 2020
Two Cases of Meningitis Associated with Ocrelizumab Therapy
Mult Scler Rel Dis 38:101866, Theriault, M. & Solomon, A.J., 2020
Neuromuscular Adverse Events Associated with Anti-PD-1 Monoclonal Antibodies
Neurol 92:663-674, Johansen, A.,et al, 2019
Deep Brain Nuclei T1 Shortening after Gadobenate Dimeglumine in Children: Influence of Radiation and Chemotherapy
AJNR 39:24-30, Kinner, S.,et al, 2018
Acute demyelinating polyneuropathy induced by nivolumab
JNNP 89:435-437, Fukumoto, Y.,et al, 2018
Hemophagocytic Lymphohistiocytosis in 2 patients with multiple sclerosis treated with alemtuzumab
Neurol 90:849-851, Saarela, M.,et al, 2018
Progressive multifocal leukoencephalpathy after fingolimod treatment
Neurol 90:1815-e1821, Berger, J.R.,et al, 2018