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- Lockhart, Samuel N, et al.
(författare)
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Amyloid and Tau PET Demonstrate Region-Specific Associations in Normal Older People.
- 2017
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Ingår i: NeuroImage. - : Elsevier BV. - 1095-9572 .- 1053-8119. ; 150, s. 191-199
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Tidskriftsartikel (refereegranskat)abstract
- β-amyloid (Aβ) and tau pathology become increasingly prevalent with age, however, the spatial relationship between the two pathologies remains unknown. We examined local (same region) and non-local (different region) associations between these 2 aggregated proteins in 46 normal older adults using [(18)F]AV-1451 (for tau) and [(11)C]PiB (for Aβ) positron emission tomography (PET) and 1.5T magnetic resonance imaging (MRI) images. While local voxelwise analyses showed associations between PiB and AV-1451 tracer largely in the temporal lobes, k-means clustering revealed that some of these associations were driven by regions with low tracer retention. We followed this up with a whole-brain region-by-region (local and non-local) partial correlational analysis. We calculated each participant's mean AV-1451 and PiB uptake values within 87 regions of interest (ROI). Pairwise ROI analysis demonstrated many positive PiB-AV-1451 associations. Importantly, strong positive partial correlations (controlling for age, sex, and global gray matter fraction, p < .01) were identified between PiB in multiple regions of association cortex and AV-1451 in temporal cortical ROIs. There were also less frequent and weaker positive associations of regional PiB with frontoparietal AV-1451 uptake. Particularly in temporal lobe ROIs, AV-1451 uptake was strongly predicted by PiB across multiple ROI locations. These data indicate that Aβ and tau pathology show significant local and non-local regional associations among cognitively normal elderly, with increased PiB uptake throughout the cortex correlating with increased temporal lobe AV-1451 uptake. The spatial relationship between Aβ and tau accumulation does not appear to be specific to Aβ location, suggesting a regional vulnerability of temporal brain regions to tau accumulation regardless of where Aβ accumulates.
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| 2. |
- Ossenkoppele, R., et al.
(författare)
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Tau PET patterns mirror clinical and neuroanatomical variability in Alzheimer's disease
- 2016
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Ingår i: Brain. - : Oxford University Press (OUP). - 0006-8950 .- 1460-2156. ; 139, s. 1551-1567
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Tidskriftsartikel (refereegranskat)abstract
- The PET tracer [F-18]-AV-1451 allows visualization of tau pathology in living subjects. Ossenkoppele et al. employ the tracer in patients with distinct Alzheimer's disease variants to investigate correlates of tau deposition. Pathological aggregation of tau, but not amyloid-beta, is linked to patterns of neurodegeneration and clinical manifestations of Alzheimer's disease.See Sarazin et al. (doi:10.1093/brain/aww041) for a scientific commentary on this article. The PET tracer [F-18]-AV-1451 allows visualization of tau pathology in living subjects. Ossenkoppele et al. employ the tracer in patients with distinct Alzheimer's disease variants to investigate correlates of tau deposition. Pathological aggregation of tau, but not amyloid-beta, is linked to patterns of neurodegeneration and clinical manifestations of Alzheimer's disease.The advent of the positron emission tomography tracer F-18-AV1451 provides the unique opportunity to visualize the regional distribution of tau pathology in the living human brain. In this study, we tested the hypothesis that tau pathology is closely linked to symptomatology and patterns of glucose hypometabolism in Alzheimer's disease, in contrast to the more diffuse distribution of amyloid-beta pathology. We included 20 patients meeting criteria for probable Alzheimer's disease dementia or mild cognitive impairment due to Alzheimer's disease, presenting with a variety of clinical phenotypes, and 15 amyloid-beta-negative cognitively normal individuals, who underwent F-18-AV1451 (tau), C-11-PiB (amyloid-beta) and F-18-FDG (glucose metabolism) positron emission tomography, apolipoprotein E (APOE) genotyping and neuropsychological testing. Voxel-wise contrasts against controls (at P < 0.05 family-wise error corrected) showed that F-18-AV1451 and F-18-FDG patterns in patients with posterior cortical atrophy ('visual variant of Alzheimer's disease', n = 7) specifically targeted the clinically affected posterior brain regions, while C-11-PiB bound diffusely throughout the neocortex. Patients with an amnestic-predominant presentation (n = 5) showed highest F-18-AV1451 retention in medial temporal and lateral temporoparietal regions. Patients with logopenic variant primary progressive aphasia ('language variant of Alzheimer's disease', n = 5) demonstrated asymmetric left greater than right hemisphere F-18-AV1451 uptake in three of five patients. Across 30 FreeSurfer-defined regions of interest in 16 Alzheimer's disease patients with all three positron emission tomography scans available, there was a strong negative association between F-18-AV1451 and F-18-FDG uptake (Pearson's r = -0.49 +/- 0.07, P < 0.001) and less pronounced positive associations between C-11-PiB and F-18-FDG (Pearson's r = 0.16 +/- 0.09, P < 0.001) and F-18-AV1451 and C-11-PiB (Pearson's r = 0.18 +/- 0.09, P < 0.001). Voxel-wise linear regressions thresholded at P < 0.05 (uncorrected) showed that, across all patients, younger age was associated with greater F-18-AV1451 uptake in wide regions of the neocortex, while older age was associated with increased F-18-AV1451 in the medial temporal lobe. APOE I mu 4 carriers showed greater temporal and parietal F-18-AV1451 uptake than non-carriers. Finally, worse performance on domain-specific neuropsychological tests was associated with greater F-18-AV1451 uptake in key regions implicated in memory (medial temporal lobes), visuospatial function (occipital, right temporoparietal cortex) and language (left > right temporoparietal cortex). In conclusion, tau imaging-contrary to amyloid-beta imaging-shows a strong regional association with clinical and anatomical heterogeneity in Alzheimer's disease. Although preliminary, these results are consistent with and expand upon findings from post-mortem, animal and cerebrospinal fluid studies, and suggest that the pathological aggregation of tau is closely linked to patterns of neurodegeneration and clinical manifestations of Alzheimer's disease.
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