Tau Positron Emission Tomography for Predicting Dementia in Individuals with Mild Cognitive Impairment
JAMA Neurol 81:845-856, Groot,C.,et al, 2024
An 80-Year-Old Woman with a Homonymous Hemianopsia
Neurol 99:713-717, Tajfirouz, D.,et al, 2022
Alzheimers Disease
Lancet 397:1577-1590, Scheltens, P.,et al, 2021
Controversy and Progress in Alzheimers Disease - FDA Approval of Aducanumab
NEJM 385:doi:10.1056/NEJMp2111320, Rabinovici, G.D., 2021
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
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
Degenerative Diseases of the Nervous System, Alzheimer Disease
Adams & Victors Principles of Neurology, Chp 39, pg 1063, Ropper, A.H.,et al, 2014
PET Imaging for Alzheimer Disease: Are Its Benefits Worth the Cost?
JAMA 309:1099-1100, Mitka, M., 2013
Subjective Cognition and Amyloid Deposition Imaging
Arch Neurol 69:223-229, Perrotin,A.,et al, 2012
Clinical and Biomarker Changes in Dominantly Inherited Alzheimers Disease
NEJM 367:795-804,864, Bateman, R.J.,et al, 2012
Brain Amyloid Imaging - FDA Approval of Florbetapir F18 Injection
NEJM 367:885-887, Yang, L.,et al, 2012
Longitudinal Assessment of A-beta and Cognition in Aging and Alzheimer Disease
Ann Neurol 69:181-192, Villemagne,V.L.,et al, 2011
Changing Concepts of Alzheimer Disease
JAMA 35:2458-2459, McKhann, G.M., 2011
Treat Alzheimer Disease Before It Is Symptomatic
Arch Neurol 68:1237-1238, , 2011
Longitudinal Change of Biomakers in Cognitive Decline
Arch Neurol 68:1257-1266,1237, Lo, R.Y.,et al, 2011
Combining MR Imaging, Positron-Emission Tomography, and CSF Biomarkers in the Diagnosis and Prognosis of Alzheimers Disease
AJNR 31:347-354, Walhovd, K.B.,et al, 2010
In Vivo Mapping of Amyloid Toxicity in Alzheimer Disease
Neurol 72:1504-1511, Frisoni,B.G.,et al, 2009
Positron Emission Tomography in Diagnosis of Visual Variant Alzheimer Disease
J Neuro-Ophthalmol 29:149-150, Finelli,P.F., 2009
Conversion of Amyloid Positive and Negative MCI to AD over 3 Years: An 11C-PIB PET Study
Neurol 73:754-760, 744, Okello,A.,et al, 2009
Akinetopsia in the Posterior Cortical Variant of Alzheimer Disease
Neurol 73:731-732, Tsai,P. &Mendez,M.F., 2009
Pittsburg Compound B Imaging and Prediction of Progression From Cognitive Normality to Symptomatic Alzheimer Disease
Arch Neurol 66:1469-1475, Morris,J.,et al, 2009
Assessment of �-Amyloid in a Frontal Cortical Brain Biopsy Specimen and by Positron Emission Tomography with Carbon 11-Labeled Pittsburgh Compound B
Arch Neurol 65:1304-1309,1281, Leinonen,V.,et al, 2008
A 60-Year-Old Woman with Mild Memory Impairment: Review of Mild Cognitive Impairment
JAMA 300:1566-1574,1598, Ellison,J.M., 2008
Frequent Amyloid Deposition Without Significant Cognitive Impairment Among the Elderly
Arch Neurol 65:1509-1517, Aizenstein,H.J.,et al, 2008
PET of Brain Amyloid and Tau in Mild Cognitive Impairment
NEJM 355:2652-2663, Small,G.W.,et al, 2006
The Woman Who Needed a Pet
Surv Ophthalmol 51:592-595, Atchison,M.,et al, 2006
Metabolic Patterns Associated with the Clinical Response to Galantamine Therapy
Arch Neurol 62:721-728, Mega,M.S.,et al, 2005
Neuro-Ophthalmic Findings in the Visual Variant of Alzheimers Disease
Ophthalmology 111:376-381, Lee,A.G. &Martin,C.O., 2004
Neuroimaging and Early Diagnosis of Alzheimer Disease: A Look to the Future
Radiology 226:315-336, Petrella,J.R.,et al, 2003
The Topography of Metabolic Deficits in Posterior Cortical Atrophy (the Visual Variant of Alzheimers Disease) with FDG-PET
JNNP 74:1521-1529, Nestor,P.J.,et al, 2003
Effect of Donepezil on Brain Acetylcholineserase Activity in Patients with AD Measured by PET
Neurol 56:408-410, Shinotoh,H.,et al, 2001
Positron Emission Tomography in Evaluation of Dementia
JAMA 286:2120-2127,2194, Silverman,D.H.S.,et al, 2001
The Effect of Brain Atrophy on Cerebral Hypometabolism in the Visual Variant of Alzheimer Disease
Arch Neurol 58:480-486, Bokde,A.L.W.,et al, 2001
Nuclear Medicine in Neurology and Psychiatry
Lancet 354:1107-1111, Costa,D.C.,et al, 1999
Measurement of Acetylcholinesterase by PET in the Brains of Healthy Controls & Pts with Alzheimer's Disease
Lancet 349:1805-1809, Iyo,M.,et al, 1997
Preclinical Evidence of Alzheimer's Disease in Persons Homozygous for the e4Allele for Apolipoprotein E
NEJM 334:752-758, 7911996., Reiman,E.M.,et al, 1996
Blinded Clinical Evaluation of Positron Emission Tomography for Diagnosis of Probable Alzheimer's Disease
Neurol 42:765-770, Powers,W.J.,et al, 1992
National Cancer Institute Workshop Statement
Advances in Clinical Imaging Using Positron Emission Tomography, Arch Int Med 150:735-739, 729990., , 1990
Cerebral Metabolic Asymmetries & Assoc Neuro-psych Patterns in Early Dementia of the Alzheimer Type
Arch Neurol 47:753-760, Haxby,J.V., 1990
Clinical & PET Studies in the'Extrapyramidal Syndrome'of Dementia of the Alzheimer Type
Arch Neurol 47:1318-1323, Tyrrell,P.J.,et al, 1990
Dementia in Down's Syndrome:Cerebral Glucose Utilization, Neuropsychological Assessment, and Neuropathology
Neurol 38:938-942, Schapiro,M.B.,et al, 1988
Alzheimer's Disease
NEJM 314:964-973, Katzman,R., 1986
Positron Emission Tomography in Alzheimer's Disease
Neurol 36:879-887, Duara,R.,et al, 1986
Comparison of PET, MRI, & CT with Pathology in a Proven Case of Alzheimer's Disease
Neurol 36:1569-1574, McGeer,P.L.,et al, 1986
Positron Emission Tomography in Dementia of the Alzheimer Type
Arch Int Med 146:2045-2049, Berg,G.,et al, 1986
Muscarinic Acetylcholine Receptors in Alzheimer's Disease
JAMA 254:3063-3066, Holman,B.L.,et al, 1985
Positron Emission Tomography with (18F) Fluorodeoxyglucose Diff. Normal Pressure Hydroceph from Alzheimer-Type Dementia
JNNP 48:1091-1096, Jagust,W.J.,et al, 1985
Alzheimer's Disease & Down's Syndrome:New Insights
Ann Int Med 103:566-578, Cutler,N.R.,et al, 1985