Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition

The deposition of the amyloid β-protein (Aβ) in senile plaques is one of the histopathological hallmarks of Alzheimer’s disease (AD). Aβ-plaques arise first in neocortical areas and, then, expand into further brain regions in a process described by 5 phases. Since it is possible to identify amyloid...

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Autores principales: Thal, Dietmar Rudolf, Beach, Thomas G., Zanette, Michelle, Lilja, Johan, Heurling, Kerstin, Chakrabarty, Aruna, Ismail, Azzam, Farrar, Gill, Buckley, Christopher, Smith, Adrian P. L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2018
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Original Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6132944/
https://www.ncbi.nlm.nih.gov/pubmed/30123935
http://dx.doi.org/10.1007/s00401-018-1897-9
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author Thal, Dietmar Rudolf
Beach, Thomas G.
Zanette, Michelle
Lilja, Johan
Heurling, Kerstin
Chakrabarty, Aruna
Ismail, Azzam
Farrar, Gill
Buckley, Christopher
Smith, Adrian P. L.
author_facet Thal, Dietmar Rudolf
Beach, Thomas G.
Zanette, Michelle
Lilja, Johan
Heurling, Kerstin
Chakrabarty, Aruna
Ismail, Azzam
Farrar, Gill
Buckley, Christopher
Smith, Adrian P. L.
author_sort Thal, Dietmar Rudolf
collection PubMed
description The deposition of the amyloid β-protein (Aβ) in senile plaques is one of the histopathological hallmarks of Alzheimer’s disease (AD). Aβ-plaques arise first in neocortical areas and, then, expand into further brain regions in a process described by 5 phases. Since it is possible to identify amyloid pathology with radioactive-labeled tracers by positron emission tomography (PET) the question arises whether it is possible to distinguish the neuropathological Aβ-phases with amyloid PET imaging. To address this question we reassessed 97 cases of the end-of-life study cohort of the phase 3 [(18)F]flutemetamol trial (ClinicalTrials.gov identifiers NCT01165554, and NCT02090855) by combining the standardized uptake value ratios (SUVRs) with pons as reference region for cortical and caudate nucleus-related [(18)F]flutemetamol-retention. We tested them for their prediction of the neuropathological pattern found at autopsy. By defining threshold levels for cortical and caudate nucleus SUVRs we could distinguish different levels of [(18)F]flutemetamol uptake termed PET-Aβ phase estimates. When comparing these PET-Aβ phase estimates with the neuropathological Aβ-phases we found that PET-Aβ phase estimate 0 corresponded with Aβ-phases 0-2, 1 with Aβ-phase 3, 2 with Aβ-phase 4, and 3 with Aβ-phase 5. Classification using the PET-Aβ phase estimates predicted the correct Aβ-phase in 72.16% of the cases studied here. Bootstrap analysis was used to confirm the robustness of the estimates around this association. When allowing a range of ± 1 phase for a given Aβ-phase correct classification was given in 96.91% of the cases. In doing so, we provide a novel method to convert SUVR-levels into PET-Aβ phase estimates that can be easily translated into neuropathological phases of Aβ-deposition. This method allows direct conclusions about the pathological distribution of amyloid plaques (Aβ-phases) in vivo. Accordingly, this method may be ideally suited to detect early preclinical AD-patients, to follow them with disease progression, and to provide a more precise prognosis for them based on the knowledge about the underlying pathological phase of the disease. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s00401-018-1897-9) contains supplementary material, which is available to authorized users.
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spelling pubmed-61329442018-09-13 Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition Thal, Dietmar Rudolf Beach, Thomas G. Zanette, Michelle Lilja, Johan Heurling, Kerstin Chakrabarty, Aruna Ismail, Azzam Farrar, Gill Buckley, Christopher Smith, Adrian P. L. Acta Neuropathol Original Paper The deposition of the amyloid β-protein (Aβ) in senile plaques is one of the histopathological hallmarks of Alzheimer’s disease (AD). Aβ-plaques arise first in neocortical areas and, then, expand into further brain regions in a process described by 5 phases. Since it is possible to identify amyloid pathology with radioactive-labeled tracers by positron emission tomography (PET) the question arises whether it is possible to distinguish the neuropathological Aβ-phases with amyloid PET imaging. To address this question we reassessed 97 cases of the end-of-life study cohort of the phase 3 [(18)F]flutemetamol trial (ClinicalTrials.gov identifiers NCT01165554, and NCT02090855) by combining the standardized uptake value ratios (SUVRs) with pons as reference region for cortical and caudate nucleus-related [(18)F]flutemetamol-retention. We tested them for their prediction of the neuropathological pattern found at autopsy. By defining threshold levels for cortical and caudate nucleus SUVRs we could distinguish different levels of [(18)F]flutemetamol uptake termed PET-Aβ phase estimates. When comparing these PET-Aβ phase estimates with the neuropathological Aβ-phases we found that PET-Aβ phase estimate 0 corresponded with Aβ-phases 0-2, 1 with Aβ-phase 3, 2 with Aβ-phase 4, and 3 with Aβ-phase 5. Classification using the PET-Aβ phase estimates predicted the correct Aβ-phase in 72.16% of the cases studied here. Bootstrap analysis was used to confirm the robustness of the estimates around this association. When allowing a range of ± 1 phase for a given Aβ-phase correct classification was given in 96.91% of the cases. In doing so, we provide a novel method to convert SUVR-levels into PET-Aβ phase estimates that can be easily translated into neuropathological phases of Aβ-deposition. This method allows direct conclusions about the pathological distribution of amyloid plaques (Aβ-phases) in vivo. Accordingly, this method may be ideally suited to detect early preclinical AD-patients, to follow them with disease progression, and to provide a more precise prognosis for them based on the knowledge about the underlying pathological phase of the disease. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s00401-018-1897-9) contains supplementary material, which is available to authorized users. Springer Berlin Heidelberg 2018-08-19 2018 /pmc/articles/PMC6132944/ /pubmed/30123935 http://dx.doi.org/10.1007/s00401-018-1897-9 Text en © The Author(s) 2018 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Original Paper
Thal, Dietmar Rudolf
Beach, Thomas G.
Zanette, Michelle
Lilja, Johan
Heurling, Kerstin
Chakrabarty, Aruna
Ismail, Azzam
Farrar, Gill
Buckley, Christopher
Smith, Adrian P. L.
Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition
title Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition
title_full Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition
title_fullStr Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition
title_full_unstemmed Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition
title_short Estimation of amyloid distribution by [(18)F]flutemetamol PET predicts the neuropathological phase of amyloid β-protein deposition
title_sort estimation of amyloid distribution by [(18)f]flutemetamol pet predicts the neuropathological phase of amyloid β-protein deposition
topic Original Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6132944/
https://www.ncbi.nlm.nih.gov/pubmed/30123935
http://dx.doi.org/10.1007/s00401-018-1897-9
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