Radionuclide Cerebral Imaging Confirming Brain Death
JAMA 249:246-247, Schwartz,J.A.,et al, 1983
Positron Computed Tomography for Studies of Myocardial & Cerebral Function
Ann Int Med 98:339-359, Phelps,M.E.,et al, 1983
Tenecteplase for Stroke - Opening the Window?
NEJM 390:760-761, Leifer,D.,, 2024
A 57-Year-Old Man with Stepwise Progressive Paraparesis, Sensory Loss, Urinary Retention, and Constipation
Neurol 98:e555-e560, Alkabie, S.,et al, 2022
FDG-PET/CT of Giant Cell Arteritis with Normal Inflammatory Markers
Ann Neurol 92:337-339, Koizumi, N.,et al, 2022
Thrombectomy versus Medical Management in Mild Strokes due to Large Vessel Occlusion: Exploratory Analysis from the EXTEND-IA Trials and a Pooled International Cohort
Ann Neurol 92:364-378, Sarraj, A.,et al, 2022
An 80-Year-Old Woman with a Homonymous Hemianopsia
Neurol 99:713-717, Tajfirouz, D.,et al, 2022
Determination of Brain Death
NEJM 385:2554-2561, Greer, D.M., 2021
Which Imaging Approach Should be Used for Stroke of Unknown Time of Onset?
Stroke 52:373-380, Simonsen, C.Z.,et al, 2021
Single Photon Emission Computed Tomography/Positron Emission Tomography Molecular Imaging for Parkinsonism: A Fast-Developing Field
Ann Neurol 90:711-719, Verger, A.,et al, 2021
Ischemic Core Overestimation on Computed Tomography Perfusion
Stroke 52:1751-1760, Garcia-Tornel, A.,et al, 2021
Intravenous Alteplase for Stroke with Unknown Time of Onset Guided by Advanced Imaging:Systematic Review and Meta-Analysis of Individual Patient Data
Lancet 396:1574-1585, Thomalla,G.,et al, 2020
Multimodal CT or MRI for IV thrombolysis in ischemic stroke with unknown time of onset
Neurol 95:e2954-e2964, Macha, K.,et al, 2020
Personalized iPSC-Derived Dopamine Progenitor Cells for Parkinsons Disease
NEJM 382:1926-1932, Schweitzer, J.S.,et al, 2020
Application of Deep Learning to Predict Standardized Uptake Value Ratio and Amyloid Status on 18F-Florbetapir PET Using ADNI Data
AJNR 41:980-986, Reith, F.,et al, 2020
Artificial Intelligence Applications in Stroke
Stroke 51:2573-2579, Mouridsen, K.,et al, 2020
A Woman with Monocular Vision Loss
Neurol 95:e1105-e1109, Danish, H.,et al, 2020
No-Cutoff Large Vessel Occlusion Stroke
Neurol 93;1014-1015, Atchaneeyasakul, K.,et al, 2019
Links in the Chain of Chronic Traumatic Encephalopathy
NEJM 380:1771-1772, Ropper, A.H., 2019
Thrombolysis Guided by Perfusion Imaging up to 9 Hours after Onset of Stroke
NEJM 380:1795-1803,1865, Ma, H.,et al, 2019
Penumbra Detection in Acute Stroke with Perfusion Magnetic Resonance Imaging: Validation with 15 O-Positron Emission Tomography
Ann Neurol 85:875-886, Zaro-Weber, O.,et al, 2019
Extending Thrombolysis to 4.5-9 h and Wake-Up Stroke Using Perfusion Imaging: A Systematic Review and Meta-Analysis of Individual Patient Data
Lancet 394:139-147,97, Campbell, B.C.V.,et al, 2019
A 61-Year-Old Woman with Acute Onset Dysgraphia
Neurol 92:e386-e391, Smith, L.R.,et al, 2019
Florbetapir Imaging in Cerebral Amyloid Angiopathy-Related Hemorrhages
Neurol 91:574-577, Charidimou, A.,et al, 2018
Endovascular Stroke Therapy in the Late Time Window
Stroke 49:2559-2561, Schellinger, P.D. & Demaerschalk, B.M., 2018
Magnetic Resonance Imaging Selection for Endovascular Stroke Therapy
Stroke 49:1402-1406, Simonsen, C.Z.,et al, 2018
Thrombectomy 6 to 24 Hours after Stroke with a Mismatch between Deficit and Infarct
NEJM 378:11-22,81, Nogueira, R.G.,et al, 2018
Enlightenment and Challenges Offered by DAWN Trial (DWI or CTP Assessment with Clinical Mismatch in the Triage of Wake Up and Late Presenting Strokes Undergoing Neurointervention with Trevo)
Stroke 49:498-500, Saposnik, G.,et al, 2018
Thrombectomy for Stroke at 6 to 16 Hours with Selection by Perfusion Imaging
NEJM 378:708-718, Albers, G.W.,et al, 2018
EULAR Recommendations for the Use of Imaging in Large Vessel Vasculitis in Clinical Practice
Ann Rheum Dis 77:636-643, Dejaco,C.,et al, 2018
Computed Tomographic Perfusion to Predict Response to Recanalization in Ischemic Stroke
Ann Neurol 81:849-856, Lansberg, M.G.,et al, 2017
Clinicopathologic Conference, Posterior Cortical Atrophy with Frontotemporal Lobe Dementia with Gene Mutation
JAMA Neurol 74:114-118, , 2017
Autopsy Validation of ���I-FP-CIT Dopaminergic Neuroimaging for the Diagnosis of DLB
Neurol 88:276-283, Thomas, A.J.,et al, 2017
Noncontrast Computed Tomography Markers of Intracerebral Hemorrhage Expansion
Stroke 48:1120-1125, Boulouis, G.,et al, 2017
Conversion to Parkinson Disease in the PARS Hyposmic and Dopamine Transporter-Deficit Prodromal Court
JAMA Neurol 74:933-940,901, Jennings, D.,et al, 2017
Prevalence of Cerebral Amyloid Pathology in Persons without Dementia
JAMA 313-1924-1938,1913, Jansen, W.J.,et al, 2015
Prevalence of Amyloid PET Positivity in Dementia Syndromes
JAMA 313:1939-1949,1913, Ossenkoppele, R.,et al, 2015
Hypometabolism of the Primary Motor Cortex in Primary Lateral Sclerosis
Neurol 84:e206, Cosgrove, J.,et al, 2015
Non-Alzheimers Dementia 1 Frontotemporal Dementia
Lancet 386:1672-1682, Bang, Jee.,et al, 2015
Non-Alzheimers Dementia 2 Lewy Body Dementias
Lancet 386:1683-1697, Walker, Z.,et al, 2015
Degenerative Diseases of the Nervous System, Alzheimer Disease
Adams & Victors Principles of Neurology, Chp 39, pg 1063, Ropper, A.H.,et al, 2014
Progressive Cerebellar Ataxia and New-Onset Diabetes
Lancet 383:186, Kong, M.,et al, 2014
Primary Leptomeningeal Lymphoma
Neurol 81:1690-1696, Taylor, J.W.,et al, 2013
Insular Seizures Causing Sleep-Related Breathlessness
Lancet 382:1759, Nesbitt, A.D.,et al, 2013
PET Imaging for Alzheimer Disease: Are Its Benefits Worth the Cost?
JAMA 309:1099-1100, Mitka, M., 2013
Brain Amyloid Imaging - FDA Approval of Florbetapir F18 Injection
NEJM 367:885-887, Yang, L.,et al, 2012
Is It All Cerebral Toxoplasmosis?
Lancet 379:286, Mentzer,A.,et al, 2012
Cortical and Cerebellar Hypometabolism After Bilateral Antero-Inferior Cerebellar Artery Infarct
Neurol 78:69-70, Ayrignac, X.,et al, 2012
�-Amyloid Burden in Healthy Aging
Neurol 78:387-395, Rodrigue,K.M.,et al, 2012
Subjective Cognition and Amyloid Deposition Imaging
Arch Neurol 69:223-229, Perrotin,A.,et al, 2012