Longitudinal flortaucipir ([18F]AV-1451) PET uptake in semantic dementia
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Peter R. Martin | C. Jack | R. Petersen | M. Senjem | D. Knopman | V. Lowe | C. Schwarz | J. Duffy | J. Whitwell | K. Josephs | H. Botha | A. Spychalla | H. Clark | R. Utianski | Peter R Martin
[1] Barbara Borroni,et al. Faculty Opinions recommendation of 18F-flortaucipir (AV-1451) tau PET in frontotemporal dementia syndromes. , 2019 .
[2] Allen F. Brooks,et al. Identification of AV-1451 as a Weak, Nonselective Inhibitor of Monoamine Oxidase. , 2019, ACS chemical neuroscience.
[3] O. Hansson,et al. 18F-Flortaucipir in TDP-43 associated frontotemporal dementia , 2019, Scientific Reports.
[4] David T. Jones,et al. Entorhinal cortex tau, amyloid-&bgr;, cortical thickness and memory performance in non-demented subjects , 2019, Brain : a journal of neurology.
[5] D. Na,et al. 18F-flortaucipir uptake patterns in clinical subtypes of primary progressive aphasia , 2019, Neurobiology of Aging.
[6] Peter R. Martin,et al. The influence of β-amyloid on [18F]AV-1451 in semantic variant of primary progressive aphasia , 2019, Neurology.
[7] W. Jagust,et al. 18F-flortaucipir (AV-1451) tau PET in frontotemporal dementia syndromes , 2019, Alzheimer's Research & Therapy.
[8] Christopher G Schwarz,et al. Longitudinal tau PET in ageing and Alzheimer’s disease , 2018, Brain : a journal of neurology.
[9] Peter R. Martin,et al. [18F]AV‐1451 tau‐PET and primary progressive aphasia , 2018, Annals of neurology.
[10] M. Mintun,et al. Test–Retest Reproducibility for the Tau PET Imaging Agent Flortaucipir F 18 , 2017, The Journal of Nuclear Medicine.
[11] Keith A. Johnson,et al. Flortaucipir tau PET imaging in semantic variant primary progressive aphasia , 2017, Journal of Neurology, Neurosurgery, and Psychiatry.
[12] Luca Passamonti,et al. [18F]AV-1451 binding in vivo mirrors the expected distribution of TDP-43 pathology in the semantic variant of primary progressive aphasia , 2017, Journal of Neurology, Neurosurgery, and Psychiatry.
[13] J. Kramer,et al. Longitudinal white matter change in frontotemporal dementia subtypes and sporadic late onset Alzheimer's disease , 2017, NeuroImage: Clinical.
[14] Clifford R. Jack,et al. THE MAYO CLINIC ADULT LIFESPAN TEMPLATE: BETTER QUANTIFICATION ACROSS THE LIFESPAN , 2017, Alzheimer's & Dementia.
[15] B. Miller,et al. Typical and atypical pathology in primary progressive aphasia variants , 2017, Annals of neurology.
[16] David T. Jones,et al. Defining imaging biomarker cut points for brain aging and Alzheimer's disease , 2017, Alzheimer's & Dementia.
[17] J. Hodges,et al. An update on semantic dementia: genetics, imaging, and pathology , 2016, Alzheimer's Research & Therapy.
[18] Nick C Fox,et al. Characterization of tau positron emission tomography tracer [18F]AV-1451 binding to postmortem tissue in Alzheimer's disease, primary tauopathies, and other dementias , 2016, Alzheimer's & Dementia.
[19] Paul A. Taylor,et al. AFNI and Clustering: False Positive Rates Redux , 2016, bioRxiv.
[20] Hans Knutsson,et al. Cluster failure: Why fMRI inferences for spatial extent have inflated false-positive rates , 2016, Proceedings of the National Academy of Sciences.
[21] Clifford R. Jack,et al. An autoradiographic evaluation of AV-1451 Tau PET in dementia , 2016, Acta Neuropathologica Communications.
[22] C. Jack,et al. A large-scale comparison of cortical thickness and volume methods for measuring Alzheimer's disease severity , 2016, NeuroImage: Clinical.
[23] Olivier Piguet,et al. On the right side? A longitudinal study of left- versus right-lateralized semantic dementia. , 2016, Brain : a journal of neurology.
[24] J. Hodges,et al. Distinctive pathological mechanisms involved in primary progressive aphasias , 2016, Neurobiology of Aging.
[25] Keith A. Johnson,et al. Validating novel tau positron emission tomography tracer [F‐18]‐AV‐1451 (T807) on postmortem brain tissue , 2015, Annals of neurology.
[26] J. Hodges,et al. Divergent Longitudinal Propagation of White Matter Degradation in Logopenic and Semantic Variants of Primary Progressive Aphasia. , 2015, Journal of Alzheimer's disease : JAD.
[27] M. Mesulam,et al. Asymmetry of cortical decline in subtypes of primary progressive aphasia , 2014, Neurology.
[28] Μαρία Πιτοπούλου,et al. Μελέτη των διαταραχών του λόγου σε ασθενείς με ανοϊκά σύνδρομα με τη χρήση του Western Aphasia Battery - Revised , 2014 .
[29] C. Geula,et al. Asymmetry and heterogeneity of Alzheimer's and frontotemporal pathology in primary progressive aphasia. , 2014, Brain : a journal of neurology.
[30] D. Neary,et al. Classification and pathology of primary progressive aphasia , 2013, Neurology.
[31] H. Kolb,et al. [18F]T807, a novel tau positron emission tomography imaging agent for Alzheimer's disease , 2013, Alzheimer's & Dementia.
[32] J. Hodges,et al. Distinguishing Subtypes in Primary Progressive Aphasia: Application of the Sydney Language Battery , 2013, Dementia and Geriatric Cognitive Disorders.
[33] J. Hodges,et al. Neuropathological background of phenotypical variability in frontotemporal dementia , 2011, Acta Neuropathologica.
[34] B. Miller,et al. Classification of primary progressive aphasia and its variants , 2011, Neurology.
[35] E G Tangalos,et al. Prevalence of mild cognitive impairment is higher in men , 2010, Neurology.
[36] Brian B. Avants,et al. Registration based cortical thickness measurement , 2009, NeuroImage.
[37] Nancy Johnson,et al. Alzheimer and frontotemporal pathology in subsets of primary progressive aphasia , 2008, Annals of neurology.
[38] V. Pankratz,et al. The Mayo Clinic Study of Aging: Design and Sampling, Participation, Baseline Measures and Sample Characteristics , 2008, Neuroepidemiology.
[39] David Mann,et al. Frontotemporal lobar degeneration: clinical and pathological relationships , 2007, Acta Neuropathologica.
[40] Karalyn Patterson,et al. The pathological basis of semantic dementia. , 2005, Brain : a journal of neurology.
[41] Karl J. Friston,et al. Unified segmentation , 2005, NeuroImage.
[42] J. Cummings,et al. The Montreal Cognitive Assessment, MoCA: A Brief Screening Tool For Mild Cognitive Impairment , 2005, Journal of the American Geriatrics Society.
[43] B L Miller,et al. Patterns of brain atrophy in frontotemporal dementia and semantic dementia , 2002, Neurology.
[44] Karl J. Friston,et al. Voxel-Based Morphometry—The Methods , 2000, NeuroImage.
[45] J. Cummings,et al. Validation of the NPI-Q, a brief clinical form of the Neuropsychiatric Inventory. , 2000, The Journal of neuropsychiatry and clinical neurosciences.
[46] H. Mayberg,et al. Correction of PET Data for Partial Volume Effects in Human Cerebral Cortex by MR Imaging , 1990, Journal of computer assisted tomography.
[47] E. Warrington. Quarterly Journal of Experimental Psychology the Selective Impairment of Semantic Memory the Selective Impairment of Semantic Memory , 2022 .
[48] E. Luders,et al. Voxel-Based Morphometry , 2015 .
[49] J. Hodges,et al. Semantic dementia: demography, familial factors and survival in a consecutive series of 100 cases. , 2010, Brain : a journal of neurology.