Updates on Sturge-Weber Syndrome
Stroke 53:3769-3779, Yeom,S.E.&Comi,A.M., 2022
Sturge-Weber Syndrome
www.UptoDate.com,Dec, Patterson,M.C., 2022
Congenital Cytomegalovirus Infection
BMJ 373:m1212, Pesch, M.H.,et al, 2021
Antibody-Mediated Encephalitis
NEJM 378:840-851, Dalmau, J.,et al, 2018
Diagnosis and Management of the Antiphospholipid Syndrome
NEJM 378:2010-2021, Garcia, D. & Erkan, D., 2018
Primary Angiitis of the Central Nervous System
Stroke 48:1248-1255, Boulouis, G.,et al, 2017
Range of Genetic Mutations Associated with Severe Non-Syndromic Sporadic Intellectual Disability: An Exome Sequencing Study
Lancet 380:1674-1682, Rauch, A.,et al, 2012
Diagnostic Exome, Sequencing in Persons with Severe Intellectual Disability
NEJM 367:1921-1929, Ligt, J.,et al, 2012
Autism
Lancet 374:1627-1638, Levy,S.,et al, 2009
Aicardi-Gouti�res Syndrome
Br Med Bull 89:183-201, Orcesi, S.,et al, 2009
Predictors of Diagnosis in Huntington Disease
Neurol 68:1710-1717, Langbehn,D.R.,et al, 2007
Neuro-Ophthalmic Findings in the Visual Variant of Alzheimers Disease
Ophthalmology 111:376-381, Lee,A.G. &Martin,C.O., 2004
Toxic Leukoencephalopathy
NEJM 345:425-432, Filley,C.M. &Kleinschmidt-DeMasters,B.K., 2001
Practice Parameter: Screening and Diagnosis of Autism
Neurol 55:468-479, Filipek,P.A. et al, 2000
Automated Idiopathic Normal Pressure Hydrocephalus Diagnosis via Artificial Intelligence-Based 3D T1 MRI Volumetric Analysis
AJNR 46:33-40, Lee,J.,et al, 2025
Juvenile-Onset Dopa-Responsive Dystonia-Until It Isnt
Neurol 104:e213436, Paredes,N.C.,et al, 2025
Calibrating AI Reliance - A Physicians Superhuman Dilemma
JAMA Health Forum 6:e250106, Patil,S.V.,et al, 2025
Validation of an Artificial Intelligence-Powered Virtual Assistant for Emergency Triage in Neurology
Neurologist 30:155-163, Alessandro,L.,et al, 2025
Clinicopathologic Conference, Infant Botulism, Case 3-2024
NEJM 390:358-366, Case 3-2024, 2024
Neurological Diagnosis, Artificial Intelligence Compared with Diagnostic Generator
Neurologist doi.10.1097/NR.0000000000000560, Finelli,P.F., 2024
Diagnosis and Management of Cerebral Venous Thrombosis:A Scientific Statement From the American Heart Association
Stroke 55:e77-e90, Saposnik,G.,et al, 2024
Hidden Metastatic Lung Tumour Diagnosed by AI
Lancet 403:1299, Muroya,D.,et al, 2024
Vitamin B12 Deficiency:NICE Guideline Summary
BMJ 385:q1019, q1262, Sands,T.,et al, 2024
Primary Central Nervous System Vasculitis
NEJM 391:1028-1037, Salvarani,C.,et al, 2024
Clinical Features, Diagnosis and Management of Klinefelter Syndrome
www.UptoDaate.com, Matsumoto,A.M. & Anawals,B.D., 2024
How Patients Are Using AI
BMJ 387:q2393, Stokel-Walker,C., 2024
Slowly Expanding Lesions Differentiate Pediatric Multiple Sclerosis from Myelin Oligodendrocyte Glycoprotein Antibody Disease
Ann Neurol 96:1086-1091, Fadda,G.,et al, 2024
Artificial Intelligence and Machine Learning in Clinical Medicine, 2023
NEjM 388:1201-1208,1220, Haug,C.H. & Drazen,J.M., 2023
Benefits, Limits, and Risks of GPT-4 as an AI Chatbot for Medicine
NEJM 388:1233-1239, Lee,P., et al, 2023
Myelin Oligodendrocyte Glycoprotein Antibody-Associated Disease (MOGAD): Clinical Features and Diagnosis
UptoDate.com, March, Flanagan,E.P. & Tillema,J-M, 2023
Neonatal Seizures
NEJM 388:1692-1700, Ropper.A.H., 2023
The New Era of Automated Electroencephalogram Interpretation
JAMA Neurol 80:777-778, Kleen,J.K., & Guterman,E.L., 2023
Myelin Oligodendrocyte Glycoprotein Antibody-Associated Disease (MOGAD):Clinical Features and Diagnosis
www.UptoDate.com, Sept, Flanagan,E.P. & Tillema,J-M, 2023
Accuracy of a Generative Artificial Intelligence Model in a Complex Diagnostic Challenge
JAMA 330:78-79, Kanjee,Z.,et al, 2023
Improving Neurology Clinical Care with Natural Language Processing Tools
Neurol 101:1010-1018, Ge,W.,et al, 2023
Use of GPT-4 to Diagnose Complex Clinical Cases
NEJM AI doi:10.1056/AIp2300031, Eriksen,A.V.,et al, 2023
Infectious Mononucleosis: Rapid Evidence Review
Am Fam Physician 107:71-78, Sylventer,J.E.,et al, 2023
Spectrum of Neuroradiologic Findings Associated with Monogenic Interferonopathies
AJNR 43:2-10, Benjamin, P.,et al, 2022
Should Electronic Differential Diagnosis Support be Used Early or Late in the Diagnostic Process? A Multicentre Experimental Study of Isabel
BMJ Qual Saf doi:10.1136/bmjqs-2021-013493, Sibbald, M.,et al, 2022
Reaching 95%: Decision Support Tools are the Surest Way to Improve Diagnosis Now
BMJ Qual Saf doi:10.1136/bmjqs-2021-014033, Graber, M.L., 2022
An 8-Year-Old with Acute Onset Ataxia
Neurol 99:305-310, McLaren, J.R.,et al, 2022
External Validation of e-ASPECTS Software for Interpreting Brain CT in Stroke
Ann Neurol 92:943-957, Mair,G.,et al, 2022
Evaluation of Medical Decision Support Systems (DDX Generators) Using Real Medical Cases of Varying Complexity and Origin
BMC Med Inform Dcis Mak 22:254, Fritz,P.,et al, 2022
Acute Flaccid Myelitis: Cause, Diagnosis, and Management
Lancet 394:334-397, Murphy, O.C.,et al, 2021
A Middle-aged Woman with Severe Scoliosis and Encephalopathy
JAMA Neurol 78:251-252, Mohan, G.,et al, 2021
Complete Evaluation of Dementia: PET and MRI Correlation and Diagnosis for the Neuroradiologist
AJNR 42:998-1007, Oldan, J.D.,et al, 2021
Clinicopathologic Conference, Systemic Juvenile Idiopathic Arthritis
NEJM 385:1220-1229, Case 29-2021, 2021
The First Examination of Diagnostic Performance of Automated Measurement of the Callosal Angle in 1856 Elderly Patients and Volunteers Indicates that 12.4% of Exams Met the Criteria for Possible Normal Pressure Hydrocephalus
AJNR 42:1942-1948, Morzage, M.,et al, 2021
Determination of Brain Death
NEJM 385:2554-2561, Greer, D.M., 2021