TY - JOUR
T1 - In vivo evaluation of a novel tau imaging tracer for Alzheimer's disease
AU - Villemagne, Victor L.
AU - Furumoto, Shozo
AU - Fodero-Tavoletti, Michelle T.
AU - Mulligan, Rachel S.
AU - Hodges, John
AU - Harada, Ryuichi
AU - Yates, Paul
AU - Piguet, Olivier
AU - Pejoska, Svetlana
AU - Doré, Vincent
AU - Yanai, Kazuhiko
AU - Masters, Colin L.
AU - Kudo, Yukitsuka
AU - Rowe, Christopher C.
AU - Okamura, Nobuyuki
PY - 2014/5
Y1 - 2014/5
N2 - Purpose: Diagnosis of tauopathies such as Alzheimer's disease (AD) still relies on post-mortem examination of the human brain. A non-invasive method of determining brain tau burden in vivo would allow a better understanding of the pathophysiology of tauopathies. The purpose of the study was to evaluate 18F-THK523 as a potential tau imaging tracer. Methods: Ten healthy elderly controls, three semantic dementia (SD) and ten AD patients underwent neuropsychological examination, MRI as well as 18F-THK523 and 11C-Pittsburgh compound B (PIB) positron emission tomography (PET) scans. Composite memory and non-memory scores, global and hippocampal brain volume, and partial volume-corrected tissue ratios for 18F-THK523 and 11C-PIB were estimated for all participants. Correlational analyses were performed between global and regional 18F-THK523, 11C-PIB, cognition and brain volumetrics. Results: 18F-THK523 presented with fast reversible kinetics. Significantly higher 18F-THK523 retention was observed in the temporal, parietal, orbitofrontal and hippocampi of AD patients when compared to healthy controls and SD patients. White matter retention was significantly higher than grey matter retention in all participants. The pattern of cortical 18F-THK523 retention did not correlate with Aβ distribution as assessed by 11C-PIB and followed the known distribution of tau in the AD brain, being higher in temporal and parietal areas than in the frontal region. Unlike 11C-PIB, hippocampal 18F-THK523 retention was correlated with several cognitive parameters and with hippocampal atrophy. Conclusion: 18F-THK523 does not bind to Aβ in vivo, while following the known distribution of paired helical filaments (PHF)-tau in the brain. Significantly higher cortical 18F-THK523 retention in AD patients as well as the association of hippocampal 18F-THK523 retention with cognitive parameters and hippocampal volume suggests 18F-THK523 selectively binds to tau in AD patients. Unfortunately, the very high 18F-THK523 retention in white matter precludes simple visual inspection of the images, preventing its use in research or clinical settings.
AB - Purpose: Diagnosis of tauopathies such as Alzheimer's disease (AD) still relies on post-mortem examination of the human brain. A non-invasive method of determining brain tau burden in vivo would allow a better understanding of the pathophysiology of tauopathies. The purpose of the study was to evaluate 18F-THK523 as a potential tau imaging tracer. Methods: Ten healthy elderly controls, three semantic dementia (SD) and ten AD patients underwent neuropsychological examination, MRI as well as 18F-THK523 and 11C-Pittsburgh compound B (PIB) positron emission tomography (PET) scans. Composite memory and non-memory scores, global and hippocampal brain volume, and partial volume-corrected tissue ratios for 18F-THK523 and 11C-PIB were estimated for all participants. Correlational analyses were performed between global and regional 18F-THK523, 11C-PIB, cognition and brain volumetrics. Results: 18F-THK523 presented with fast reversible kinetics. Significantly higher 18F-THK523 retention was observed in the temporal, parietal, orbitofrontal and hippocampi of AD patients when compared to healthy controls and SD patients. White matter retention was significantly higher than grey matter retention in all participants. The pattern of cortical 18F-THK523 retention did not correlate with Aβ distribution as assessed by 11C-PIB and followed the known distribution of tau in the AD brain, being higher in temporal and parietal areas than in the frontal region. Unlike 11C-PIB, hippocampal 18F-THK523 retention was correlated with several cognitive parameters and with hippocampal atrophy. Conclusion: 18F-THK523 does not bind to Aβ in vivo, while following the known distribution of paired helical filaments (PHF)-tau in the brain. Significantly higher cortical 18F-THK523 retention in AD patients as well as the association of hippocampal 18F-THK523 retention with cognitive parameters and hippocampal volume suggests 18F-THK523 selectively binds to tau in AD patients. Unfortunately, the very high 18F-THK523 retention in white matter precludes simple visual inspection of the images, preventing its use in research or clinical settings.
KW - Alzheimer's disease
KW - Aβ Imaging
KW - Brain
KW - Neurodegeneration
KW - Tau imaging
UR - http://www.scopus.com/inward/record.url?scp=84899092724&partnerID=8YFLogxK
U2 - 10.1007/s00259-013-2681-7
DO - 10.1007/s00259-013-2681-7
M3 - Article
VL - 41
SP - 816
EP - 826
JO - European Journal of Nuclear Medicine and Molecular Imaging
JF - European Journal of Nuclear Medicine and Molecular Imaging
SN - 1619-7070
IS - 5
ER -