Literature DB >> 25239654

Tau PET imaging in Alzheimer's disease.

Nobuyuki Okamura1, Ryuichi Harada, Shozo Furumoto, Hiroyuki Arai, Kazuhiko Yanai, Yukitsuka Kudo.   

Abstract

In several neurodegenerative diseases that are collectively called tauopathies, progressive accumulation of tau in the brain is closely associated with neurodegeneration and cognitive impairment. Noninvasive detection of tau protein deposits in the brain would be useful to diagnose tauopathies as well as to track and predict disease progression. Recently, several tau PET tracers including T807, THK-5117, and PBB3 have been developed and succeeded in imaging neurofibrillary pathology in vivo. For use of tau PET as a biomarker of tau pathology in Alzheimer's disease, PET tracers should have high affinity to PHF-tau and high selectivity for tau over amyloid-β and other protein deposits. PET tau imaging enables the longitudinal assessment of the spatial pattern of tau deposition and its relation to amyloid-β pathology and neurodegeneration. This technology could also be applied to the pharmacological assessment of anti-tau therapy, thereby allowing preventive interventions.

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Year:  2014        PMID: 25239654     DOI: 10.1007/s11910-014-0500-6

Source DB:  PubMed          Journal:  Curr Neurol Neurosci Rep        ISSN: 1528-4042            Impact factor:   5.081


  61 in total

Review 1.  Alzheimer's disease: strategies for disease modification.

Authors:  Martin Citron
Journal:  Nat Rev Drug Discov       Date:  2010-05       Impact factor: 84.694

2.  Non-invasive assessment of Alzheimer's disease neurofibrillary pathology using 18F-THK5105 PET.

Authors:  Nobuyuki Okamura; Shozo Furumoto; Michelle T Fodero-Tavoletti; Rachel S Mulligan; Ryuichi Harada; Paul Yates; Svetlana Pejoska; Yukitsuka Kudo; Colin L Masters; Kazuhiko Yanai; Christopher C Rowe; Victor L Villemagne
Journal:  Brain       Date:  2014-03-27       Impact factor: 13.501

3.  Quinoline and benzimidazole derivatives: candidate probes for in vivo imaging of tau pathology in Alzheimer's disease.

Authors:  Nobuyuki Okamura; Takahiro Suemoto; Shozo Furumoto; Masako Suzuki; Hiroshi Shimadzu; Hiroyasu Akatsu; Takayuki Yamamoto; Hironori Fujiwara; Miyako Nemoto; Masahiro Maruyama; Hiroyuki Arai; Kazuhiko Yanai; Tohru Sawada; Yukitsuka Kudo
Journal:  J Neurosci       Date:  2005-11-23       Impact factor: 6.167

4.  Pharmacokinetics of [¹⁸F]flutemetamol in wild-type rodents and its binding to beta amyloid deposits in a mouse model of Alzheimer's disease.

Authors:  Anniina Snellman; Johanna Rokka; Francisco R Lopez-Picon; Olli Eskola; Ian Wilson; Gill Farrar; Mika Scheinin; Olof Solin; Juha O Rinne; Merja Haaparanta-Solin
Journal:  Eur J Nucl Med Mol Imaging       Date:  2012-07-17       Impact factor: 9.236

5.  Localization of neurofibrillary tangles and beta-amyloid plaques in the brains of living patients with Alzheimer disease.

Authors:  Kooresh Shoghi-Jadid; Gary W Small; Eric D Agdeppa; Vladimir Kepe; Linda M Ercoli; Prabha Siddarth; Stephen Read; Nagichettiar Satyamurthy; Andrej Petric; Sung-Cheng Huang; Jorge R Barrio
Journal:  Am J Geriatr Psychiatry       Date:  2002 Jan-Feb       Impact factor: 4.105

6.  Preclinical properties of 18F-AV-45: a PET agent for Abeta plaques in the brain.

Authors:  Seok Rye Choi; Geoff Golding; Zhiping Zhuang; Wei Zhang; Nathaniel Lim; Franz Hefti; Tyler E Benedum; Michael R Kilbourn; Daniel Skovronsky; Hank F Kung
Journal:  J Nucl Med       Date:  2009-10-16       Impact factor: 10.057

7.  In vitro characterization of Pittsburgh compound-B binding to Lewy bodies.

Authors:  Michelle T Fodero-Tavoletti; David P Smith; Catriona A McLean; Paul A Adlard; Kevin J Barnham; Lisa E Foster; Laura Leone; Keyla Perez; Mikhalina Cortés; Janetta G Culvenor; Qiao-Xin Li; Katrina M Laughton; Christopher C Rowe; Colin L Masters; Roberto Cappai; Victor L Villemagne
Journal:  J Neurosci       Date:  2007-09-26       Impact factor: 6.167

8.  Neocortical neurofibrillary tangles correlate with dementia severity in Alzheimer's disease.

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Journal:  Arch Neurol       Date:  1995-01

9.  Synthesis and evaluation of 11C-labeled 6-substituted 2-arylbenzothiazoles as amyloid imaging agents.

Authors:  Chester A Mathis; Yanming Wang; Daniel P Holt; Guo-Feng Huang; Manik L Debnath; William E Klunk
Journal:  J Med Chem       Date:  2003-06-19       Impact factor: 7.446

10.  Assessing THK523 selectivity for tau deposits in Alzheimer's disease and non-Alzheimer's disease tauopathies.

Authors:  Michelle T Fodero-Tavoletti; Shozo Furumoto; Leanne Taylor; Catriona A McLean; Rachel S Mulligan; Ian Birchall; Ryuichi Harada; Colin L Masters; Kazuhiko Yanai; Yukitsuka Kudo; Christopher C Rowe; Nobuyuki Okamura; Victor L Villemagne
Journal:  Alzheimers Res Ther       Date:  2014-02-26       Impact factor: 6.982
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  58 in total

1.  Characterization of the radiolabeled metabolite of tau PET tracer 18F-THK5351.

Authors:  Ryuichi Harada; Shozo Furumoto; Tetsuro Tago; Katsutoshi Furukawa; Aiko Ishiki; Naoki Tomita; Ren Iwata; Manabu Tashiro; Hiroyuki Arai; Kazuhiko Yanai; Yukitsuka Kudo; Nobuyuki Okamura
Journal:  Eur J Nucl Med Mol Imaging       Date:  2016-07-19       Impact factor: 9.236

Review 2.  Multimodality Review of Amyloid-related Diseases of the Central Nervous System.

Authors:  Michelle M Miller-Thomas; Adam L Sipe; Tammie L S Benzinger; Jonathan McConathy; Sarah Connolly; Katherine E Schwetye
Journal:  Radiographics       Date:  2016 Jul-Aug       Impact factor: 5.333

3.  Structure-Activity Relationships of Radioiodinated Benzoimidazopyridine Derivatives for Detection of Tau Pathology.

Authors:  Sho Kaide; Masahiro Ono; Hiroyuki Watanabe; Ayane Kitada; Masashi Yoshimura; Yoichi Shimizu; Masafumi Ihara; Hideo Saji
Journal:  ACS Med Chem Lett       Date:  2018-04-10       Impact factor: 4.345

4.  Seeing how we smell.

Authors:  Helene Benveniste; Yuri Lazebnik; Nora D Volkow
Journal:  J Clin Invest       Date:  2017-01-23       Impact factor: 14.808

5.  AV-1451 PET imaging of tau pathology in preclinical Alzheimer disease: Defining a summary measure.

Authors:  Shruti Mishra; Brian A Gordon; Yi Su; Jon Christensen; Karl Friedrichsen; Kelley Jackson; Russ Hornbeck; David A Balota; Nigel J Cairns; John C Morris; Beau M Ances; Tammie L S Benzinger
Journal:  Neuroimage       Date:  2017-07-26       Impact factor: 6.556

6.  Reference Tissue-Based Kinetic Evaluation of 18F-AV-1451 for Tau Imaging.

Authors:  Suzanne L Baker; Samuel N Lockhart; Julie C Price; Mark He; Ronald H Huesman; Daniel Schonhaut; Jamie Faria; Gil Rabinovici; William J Jagust
Journal:  J Nucl Med       Date:  2016-09-01       Impact factor: 10.057

Review 7.  Tau Imaging in Alzheimer's Disease Diagnosis and Clinical Trials.

Authors:  Jared R Brosch; Martin R Farlow; Shannon L Risacher; Liana G Apostolova
Journal:  Neurotherapeutics       Date:  2017-01       Impact factor: 7.620

8.  Widespread brain tau and its association with ageing, Braak stage and Alzheimer's dementia.

Authors:  Val J Lowe; Heather J Wiste; Matthew L Senjem; Stephen D Weigand; Terry M Therneau; Bradley F Boeve; Keith A Josephs; Ping Fang; Mukesh K Pandey; Melissa E Murray; Kejal Kantarci; David T Jones; Prashanthi Vemuri; Jonathan Graff-Radford; Christopher G Schwarz; Mary M Machulda; Michelle M Mielke; Rosebud O Roberts; David S Knopman; Ronald C Petersen; Clifford R Jack
Journal:  Brain       Date:  2018-01-01       Impact factor: 13.501

9.  Structure-Activity Relationships of Radioiodinated 6,5,6-Tricyclic Compounds for the Development of Tau Imaging Probes.

Authors:  Hiroyuki Watanabe; Haruka Tatsumi; Sho Kaide; Yoichi Shimizu; Shimpei Iikuni; Masahiro Ono
Journal:  ACS Med Chem Lett       Date:  2020-01-09       Impact factor: 4.345

Review 10.  Molecular and cellular pathophysiology of preclinical Alzheimer's disease.

Authors:  Elliott J Mufson; Milos D Ikonomovic; Scott E Counts; Sylvia E Perez; Michael Malek-Ahmadi; Stephen W Scheff; Stephen D Ginsberg
Journal:  Behav Brain Res       Date:  2016-05-13       Impact factor: 3.332
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