scholarly journals Heterogeneous distribution of tau pathology in the behavioural variant of Alzheimer’s disease

2021 ◽  
pp. jnnp-2020-325497
Author(s):  
Ellen Singleton ◽  
Oskar Hansson ◽  
Yolande A. L. Pijnenburg ◽  
Renaud La Joie ◽  
William G Mantyh ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Prefrontal Cortex ◽  
Clinical Phenotype ◽  
Ex Vivo ◽  
Amyloid Β ◽  
Tau Pathology ◽  
Heterogeneous Distribution ◽  
Tau Pet

ObjectiveThe clinical phenotype of the rare behavioural variant of Alzheimer’s disease (bvAD) is insufficiently understood. Given the strong clinico-anatomical correlations of tau pathology in AD, we investigated the distribution of tau deposits in bvAD, in-vivo and ex-vivo, using positron emission tomography (PET) and postmortem examination.MethodsFor the tau PET study, seven amyloid-β positive bvAD patients underwent [18F]flortaucipir or [18F]RO948 PET. We converted tau PET uptake values into standardised (W-)scores, adjusting for age, sex and mini mental state examination in a ‘typical’ memory-predominant AD (n=205) group. W-scores were computed within entorhinal, temporoparietal, medial and lateral prefrontal, insular and whole-brain regions-of-interest, frontal-to-entorhinal and frontal-to-parietal ratios and within intrinsic functional connectivity network templates. For the postmortem study, the percentage of AT8 (tau)-positive area in hippocampus CA1, temporal, parietal, frontal and insular cortices were compared between autopsy-confirmed patients with bvAD (n=8) and typical AD (tAD;n=7).ResultsIndividual regional W-scores ≥1.96 (corresponding to p<0.05) were observed in three cases, that is, case #5: medial prefrontal cortex (W=2.13) and anterior default mode network (W=3.79), case #2: lateral prefrontal cortex (W=2.79) and salience network (W=2.77), and case #7: frontal-to-entorhinal ratio (W=2.04). The remaining four cases fell within the normal distributions of the tAD group. Postmortem AT8 staining indicated no group-level regional differences in phosphorylated tau levels between bvAD and tAD (all p>0.05).ConclusionsBoth in-vivo and ex-vivo, patients with bvAD showed heterogeneous distributions of tau pathology. Since key regions involved in behavioural regulation were not consistently disproportionally affected by tau pathology, other factors are more likely driving the clinical phenotype in bvAD.

scholarly journals Heterogeneous distribution of tau pathology in the behavioral variant of Alzheimer's disease

2020 ◽  
Author(s):  
Ellen H. Singleton ◽  
Oskar Hansson ◽  
Anke A. Dijkstra ◽  
Renaud La Joie ◽  
William G. Mantyh ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Prefrontal Cortex ◽  
Clinical Phenotype ◽  
Ex Vivo ◽  
Amyloid Β ◽  
Tau Pathology ◽  
Heterogeneous Distribution ◽  
Tau Pet

Objective: The clinical phenotype of the rare behavioral variant of Alzheimer's disease (bvAD) is insufficiently understood. Given the strong clinico-anatomical correlations of tau pathology in AD, we investigated the distribution of tau deposits in bvAD, in-vivo and ex-vivo, using PET and postmortem examination. Methods: For the tau PET study, seven amyloid-β positive bvAD patients underwent [18F]flortaucipir or [18F]RO948 PET. We converted tau PET uptake values into standardized (W-)scores, by adjusting for age, sex and MMSE in a "typical" memory-predominant AD (n=205) group. W-scores were computed within entorhinal, temporoparietal, medial and lateral prefrontal, insular and whole-brain regions-of-interest, frontal-to-entorhinal and frontal-to-parietal ratios and within intrinsic functional connectivity network templates. For the postmortem study, the percentage of AT8 (tau)-positive area in hippocampus CA1, temporal, parietal, frontal and insular cortices were compared between autopsy-confirmed bvAD (n=8) and typical AD (n=7) patients. Results: Regional W-scores ≥1.96 (corresponding to p<0.05) were observed in three cases, i.e. case #5: medial prefrontal cortex (W=2.13) and anterior default mode network (W=3.79), case #2: lateral prefrontal cortex (W=2.79) and salience network (W=2.77), and case #7: frontal-to-entorhinal ratio (W=2.04). The remaining four cases fell within the normal distributions of the typical AD group. Postmortem AT8 staining indicated no regional differences in phosphorylated tau levels between bvAD and typical AD (all p>0.05). Conclusion: Both in-vivo and ex-vivo, bvAD patients showed heterogeneous patterns of tau pathology. Since key regions involved in behavioral regulation were not consistently disproportionally affected by tau pathology, other factors are more likely driving the clinical phenotype in bvAD.

PET Amyloid and Tau Status Are Differently Affected by Patient Features

2020 ◽  
Vol 78 (3) ◽  
pp. 1129-1136
Author(s):  
Meng-Shan Tan ◽  
Yu-Xiang Yang ◽  
Hui-Fu Wang ◽  
Wei Xu ◽  
Chen-Chen Tan ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Amyloid Β ◽  
Amyloid Pet ◽  
Tau Pathology ◽  
Clinical Genetic ◽  
Multivariable Logistic Regression Model ◽  
Tau Pet ◽  
Pet Amyloid

Background: Amyloid-β (Aβ) plaques and tau neurofibrillary tangles are two neuropathological hallmarks of Alzheimer’s disease (AD), which both can be visualized in vivo using PET radiotracers, opening new opportunities to study disease mechanisms. Objective: Our study investigated 11 non-PET factors in 5 categories (including demographic, clinical, genetic, MRI, and cerebrospinal fluid (CSF) features) possibly affecting PET amyloid and tau status to explore the relationships between amyloid and tau pathology, and whether these features had a different association with amyloid and tau status. Methods: We included 372 nondemented elderly from the Alzheimer’s Disease Neuroimaging Initiative cohort. All underwent PET amyloid and tau analysis simultaneously, and were grouped into amyloid/tau quadrants based on previously established abnormality cut points. We examined the associations of above selected features with PET amyloid and tau status using a multivariable logistic regression model, then explored whether there was an obvious correlation between the significant features and PET amyloid or tau levels. Results: Our results demonstrated that PET amyloid and tau status were differently affected by patient features, and CSF biomarker features provided most significant values associating PET findings. CSF Aβ42/40 was the most important factor affecting amyloid PET status, and negatively correlated with amyloid PET levels. CSF pTau could significantly influence both amyloid and tau PET status. Besides CSF pTau and Aβ42, APOE ɛ4 allele status and Mini-Mental State Examination scores also could influence tau PET status, and significantly correlated with tau PET levels. Conclusion: Our results support that tau pathology possibly affected by Aβ-independent factors, implicating the importance of tau pathology in AD pathogenesis.

Elevated Tau PET Signal Depends on Abnormal Amyloid Levels and Correlates with Cognitive Impairment in Elderly Persons without Dementia

2020 ◽  
Vol 78 (1) ◽  
pp. 395-404 ◽  
Author(s):  
Rui-Qi Zhang ◽  
Shi-Dong Chen ◽  
Xue-Ning Shen ◽  
Yu-Xiang Yang ◽  
Jia-Ying Lu ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Executive Function ◽  
Amyloid Β ◽  
Amyloid Pet ◽  
Elderly Persons ◽  
Cross Sectional ◽  
Memory Decline ◽  
Tau Pet

Background: The recent developed PET ligands for amyloid-β (Aβ) and tau allow these two neuropathological hallmarks of Alzheimer’s disease (AD) to be mapped and quantified in vivo and to be examined in relation to cognition. Objective: To assess the associations among Aβ, tau, and cognition in non-demented subjects. Methods: Three hundred eighty-nine elderly participants without dementia from the Alzheimer’s Disease Neuroimaging Initiative underwent tau and amyloid PET scans. Cross-sectional comparisons and longitudinal analyses were used to evaluate the relationship between Aβ and tau accumulation. The correlations between biomarkers of both pathologies and performance in memory and executive function were measured. Results: Increased amyloid-PET retention was associated with greater tau-PET retention in widespread cortices. We observed a significant tau increase in the temporal composite regions of interest over 24 months in Aβ+ but not Aβ– subjects. Finally, tau-PET retention but not amyloid-PET retention significantly explained the variance in memory and executive function. Higher level of tau was associated with greater longitudinal memory decline. Conclusion: These findings suggested PET-detectable Aβ plaque pathology may be a necessary antecedent for tau-PET signal elevation. Greater tau-PET retention may demonstrate poorer cognition and predict prospective memory decline in non-demented subjects.

scholarly journals Relationship between cortical iron and tau aggregation in Alzheimer’s disease

Brain ◽  
2020 ◽  
Vol 143 (5) ◽  
pp. 1341-1349 ◽  
Author(s):  
Nicola Spotorno ◽  
Julio Acosta-Cabronero ◽  
Erik Stomrud ◽  
Björn Lampinen ◽  
Olof T Strandberg ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Critical Role ◽  
Disease Process ◽  
Amyloid Β ◽  
Cortical Atrophy ◽  
Tau Pet ◽  
Tau Aggregation ◽  
The Relationship

Abstract A growing body of evidence suggests that the dysregulation of neuronal iron may play a critical role in Alzheimer’s disease. Recent MRI studies have established a relationship between iron accumulation and amyloid-β aggregation. The present study provides further insight demonstrating a relationship between iron and tau accumulation using magnetic resonance-based quantitative susceptibility mapping and tau-PET in n = 236 subjects with amyloid-β pathology (from the Swedish BioFINDER-2 study). Both voxel-wise and regional analyses showed a consistent association between differences in bulk magnetic susceptibility, which can be primarily ascribed to an increase in iron content, and tau-PET signal in regions known to be affected in Alzheimer’s disease. Subsequent analyses revealed that quantitative susceptibility specifically mediates the relationship between tau-PET and cortical atrophy measures, thus suggesting a modulatory effect of iron burden on the disease process. We also found evidence suggesting the relationship between quantitative susceptibility and tau-PET is stronger in younger participants (age ≤ 65). Together, these results provide in vivo evidence of an association between iron deposition and both tau aggregation and neurodegeneration, which help advance our understanding of the role of iron dysregulation in the Alzheimer’s disease aetiology.

IC-P-163: In vivo Tau-PET indicates expansion of tau pathology within the default mode network in Alzheimer's disease

2015 ◽  
Vol 11 (7S_Part_2) ◽  
pp. P109-P110
Author(s):  
Joseph Seemiller ◽  
Masoud Tahmasian ◽  
Igor Yakushev ◽  
Alexander Drzezga
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Default Mode Network ◽  
Tau Pathology ◽  
Default Mode ◽  
Tau Pet

In vivo Patterns of Tau Pathology, Amyloid-β Burden, and Neuronal Dysfunction in Clinical Variants of Alzheimer’s Disease

2016 ◽  
Vol 55 (2) ◽  
pp. 465-471 ◽  
Author(s):  
Julian Dronse ◽  
Klaus Fliessbach ◽  
Gérard N. Bischof ◽  
Boris von Reutern ◽  
Jennifer Faber ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Amyloid Β ◽  
Neuronal Dysfunction ◽  
Tau Pathology ◽  
Clinical Variants

scholarly journals Evaluation of [18F]PI-2620, a second-generation selective tau tracer, for assessing four-repeat tauopathies

2021 ◽  
Vol 3 (4) ◽  
Author(s):  
Toshiki Tezuka ◽  
Keisuke Takahata ◽  
Morinobu Seki ◽  
Hajime Tabuchi ◽  
Yuki Momota ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Progressive Supranuclear Palsy ◽  
Standardized Uptake Value ◽  
Corticobasal Degeneration ◽  
Post Injection ◽  
Healthy Controls ◽  
Tau Pathology ◽  
Tau Pet

Abstract Tau aggregates represent a key pathologic feature of Alzheimer’s disease and other neurodegenerative diseases. Recently, PET probes have been developed for in vivo detection of tau accumulation; however, they are limited because of off-target binding and a reduced ability to detect tau in non-Alzheimer’s disease tauopathies. The novel tau PET tracer, [18F]PI-2620, has a high binding affinity and specificity for aggregated tau; therefore, it was hypothesized to have desirable properties for the visualization of tau accumulation in Alzheimer’s disease and non-Alzheimer’s disease tauopathies. To assess the ability of [18F]PI-2620 to detect regional tau burden in non-Alzheimer’s disease tauopathies compared with Alzheimer’s disease, patients with progressive supranuclear palsy (n = 3), corticobasal syndrome (n = 2), corticobasal degeneration (n = 1) or Alzheimer’s disease (n = 8), and healthy controls (n = 7) were recruited. All participants underwent MRI, amyloid β assessment and [18F]PI-2620 PET (Image acquisition at 60–90 min post-injection). Cortical and subcortical tau accumulations were assessed by calculating standardized uptake value ratios using [18F]PI-2620 PET. For pathologic validation, tau pathology was assessed using tau immunohistochemistry and compared with [18F]PI-2620 retention in an autopsied case of corticobasal degeneration. In Alzheimer’s disease, focal retention of [18F]PI-2620 was evident in the temporal and parietal lobes, precuneus, and cingulate cortex. Standardized uptake value ratio analyses revealed that patients with non-Alzheimer’s disease tauopathies had elevated [18F]PI-2620 uptake only in the globus pallidus, as compared to patients with Alzheimer’s disease, but not healthy controls. A head-to-head comparison of [18F]PI-2620 and [18F]PM-PBB3, another tau PET probe for possibly visualizing the four-repeat tau pathogenesis in non-Alzheimer’s disease, revealed different retention patterns in one subject with progressive supranuclear palsy. Imaging-pathology correlation analysis of the autopsied patient with corticobasal degeneration revealed no significant correlation between [18F]PI-2620 retention in vivo. High [18F]PI-2620 uptake at 60–90 min post-injection in the globus pallidus may be a sign of neurodegeneration in four-repeat tauopathy, but not necessarily practical for diagnosis of non-Alzheimer’s disease tauopathies. Collectively, this tracer is a promising tool to detect Alzheimer’s disease-tau aggregation. However, late acquisition PET images of [18F]PI-2620 may have limited utility for reliable detection of four-repeat tauopathy because of lack of correlation between post-mortem tau pathology and different retention pattern than the non-Alzheimer’s disease-detectable tau radiotracer, [18F]PM-PBB3. A recent study reported that [18F]PI-2620 tracer kinetics curves in four-repeat tauopathies peak earlier (within 30 min) than Alzheimer’s disease; therefore, further studies are needed to determine appropriate PET acquisition times that depend on the respective interest regions and diseases.

O1-06-06: In vivo Tau-PET indicates expansion of tau pathology within the default mode network in Alzheimer's disease

2015 ◽  
Vol 11 (7S_Part_3) ◽  
pp. P139-P140
Author(s):  
Joseph Seemiller ◽  
Masoud Tahmasian ◽  
Igor Yakushev ◽  
Alexander Drzezga
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Default Mode Network ◽  
Tau Pathology ◽  
Default Mode ◽  
Tau Pet

scholarly journals Atrophy associated with tau pathology precedes overt cell death in a mouse model of progressive tauopathy

2020 ◽  
Author(s):  
Christine W. Fung ◽  
Jia Guo ◽  
Helen Y. Figueroa ◽  
Elisa E. Konofagou ◽  
Karen E. Duff
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Mouse Model ◽  
Entorhinal Cortex ◽  
Ex Vivo ◽  
Cell Loss ◽  
Temporal Association ◽  
Tau Pathology ◽  
Model Of Alzheimer’S Disease

AbstractIn the early stages of Alzheimer’s disease (AD), tau pathology first develops in the entorhinal cortex (EC), then spreads to the hippocampus and at later stages, to the neocortex. Pathology in the neocortex correlates with impaired cognitive performance. Overall, tau pathology correlates well with neurodegeneration but the spatial and temporal association between tau pathology and overt volume loss is unclear. Using in vivo magnetic resonance imaging (MRI) with tensor-based morphometry (TBM) we mapped the spatio-temporal pattern of structural changes in a mouse model of AD-like progressive tauopathy. A novel, co-registered in vivo MRI atlas identified particular regions in the medial temporal lobe (MTL) that had significant volume reduction. The medial entorhinal cortex (MEC) and pre-/para-subiculum (PPS) had the most significant atrophy at the early stage, but atrophy then spread into the hippocampus, most notably, the CA1, dentate gyrus (DG) and subiculum (Sub). TBM-related atrophy in the DG and Sub preceded overt cell loss that has been reported in ex vivo studies in the same mouse model. By unifying an ex vivo 3D reconstruction of tau pathology with the TBM-MRI results we mapped the progression of atrophy in the MTL with the corresponding spread of tau pathology. Our study shows that there is an association between the spread of tau pathology and TBM-related atrophy from the EC to the hippocampus, but atrophy in the DG and Sub preceded overt cell loss.One Sentence SummarySpread of tau pathology in a mouse model of Alzheimer’s disease assessed by MRI was associated with reduced brain tissue volume but not neuronal loss.

scholarly journals Neuroanatomical spread of amyloid β and tau in Alzheimer’s disease: implications for primary prevention

2020 ◽  
Vol 2 (1) ◽  
Author(s):  
Philip S Insel ◽  
Elizabeth C Mormino ◽  
Paul S Aisen ◽  
Wesley K Thompson ◽  
Michael C Donohue
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
Primary Prevention ◽  
Temporal Lobe ◽  
Amyloid Β ◽  
Imaging Biomarker ◽  
Continuous Measure ◽  
Validation Sample ◽  
Tau Pathology ◽  
Tau Pet

Abstract With recent advances in our understanding of the continuous pathophysiological changes that begin many years prior to symptom onset, it is now apparent that Alzheimer’s disease cannot be adequately described by discrete clinical stages, but should also incorporate the continuum of biological changes that precede and underlie the clinical representation of the disease. By jointly considering longitudinal changes of all available biomarkers and clinical assessments, variation within individuals can be integrated into a single continuous measure of disease progression and used to identify the earliest pathophysiological changes. Disease time, a measure of disease severity, was estimated using a Bayesian latent time joint mixed-effects model applied to an array of imaging, biomarker and neuropsychological data. Trajectories of regional amyloid β and tau PET uptake were estimated as a function of disease time. Regions with early signs of elevated amyloid β uptake were used to form an early, focal composite and compared to a commonly used global composite, in a separate validation sample. Disease time was estimated in 279 participants (183 cognitively unimpaired individuals, 61 mild cognitive impairment and 35 Alzheimer’s disease dementia patients) with available amyloid β and tau PET data. Amyloid β PET uptake levels in the posterior cingulate and precuneus start high and immediately increase with small increases of disease time. Early elevation in tau PET uptake was found in the inferior temporal lobe, amygdala, banks of the superior temporal sulcus, entorhinal cortex, middle temporal lobe, inferior parietal lobe and the fusiform gyrus. In a separate validation sample of 188 cognitively unimpaired individuals, the early, focal amyloid β PET composite showed a 120% increase in the accumulation rate of amyloid β compared to the global composite (P &lt; 0.001), resulting in a 60% increase in the power to detect a treatment effect in a primary prevention trial design. Ordering participants on a continuous disease time scale facilitates the inspection of the earliest signs of amyloid β and tau pathology. To detect early changes in amyloid β pathology, focusing on the earliest sites of amyloid β accumulation results in more powerful and efficient study designs in early Alzheimer’s disease. Targeted composites could be used to re-examine the thresholds for amyloid β-related study inclusion, especially as the field shifts to focus on primary and secondary prevention. Clinical trials of anti-amyloid β treatments may benefit from the use of focal composites when estimating drug effects on amyloid β and tau changes in populations with minimal amyloid β and tau pathology and limited expected short-term accumulation.

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