Distinctive Oculomotor Behaviors in Alzheimer's Disease and Frontotemporal Dementia
Oculomotor behavior can provide insight into the integrity of widespread cortical networks, which may contribute to the differential diagnosis between Alzheimer's disease and frontotemporal dementia. Three groups of patients with Alzheimer's disease, behavioral variant of frontotemporal de...
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| Published in | Frontiers in aging neuroscience Vol. 12; p. 603790 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Research Foundation
04.02.2021
Frontiers Media S.A |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1663-4365 1663-4365 |
| DOI | 10.3389/fnagi.2020.603790 |
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| Abstract | Oculomotor behavior can provide insight into the integrity of widespread cortical networks, which may contribute to the differential diagnosis between Alzheimer's disease and frontotemporal dementia. Three groups of patients with Alzheimer's disease, behavioral variant of frontotemporal dementia (bvFTD) and semantic variant of primary progressive aphasia (svPPA) and a sample of cognitively unimpaired elders underwent an eye-tracking evaluation. All participants in the discovery sample, including controls, had a biomarker-supported diagnosis. Oculomotor correlates of neuropsychology and brain metabolism evaluated with 18F-FDG PET were explored. Machine-learning classification algorithms were trained for the differentiation between Alzheimer's disease, bvFTD and controls. A total of 93 subjects (33 Alzheimer's disease, 24 bvFTD, seven svPPA, and 29 controls) were included in the study. Alzheimer's disease was the most impaired group in all tests and displayed specific abnormalities in some visually-guided saccade parameters, as pursuit error and horizontal prosaccade latency, which are theoretically closely linked to posterior brain regions. BvFTD patients showed deficits especially in the most cognitively demanding tasks, the antisaccade and memory saccade tests, which require a fine control from frontal lobe regions. SvPPA patients performed similarly to controls in most parameters except for a lower number of correct memory saccades. Pursuit error was significantly correlated with cognitive measures of constructional praxis and executive function and metabolism in right posterior middle temporal gyrus. The classification algorithms yielded an area under the curve of 97.5% for the differentiation of Alzheimer's disease vs. controls, 96.7% for bvFTD vs. controls, and 92.5% for Alzheimer's disease vs. bvFTD. In conclusion, patients with Alzheimer's disease, bvFTD and svPPA exhibit differentiating oculomotor patterns which reflect the characteristic neuroanatomical distribution of pathology of each disease, and therefore its assessment can be useful in their diagnostic work-up. Machine learning approaches can facilitate the applicability of eye-tracking in clinical practice. |
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| AbstractList | Oculomotor behavior can provide insight into the integrity of widespread cortical networks, which may contribute to the differential diagnosis between Alzheimer's disease and frontotemporal dementia. Three groups of patients with Alzheimer's disease, behavioral variant of frontotemporal dementia (bvFTD) and semantic variant of primary progressive aphasia (svPPA) and a sample of cognitively unimpaired elders underwent an eye-tracking evaluation. All participants in the discovery sample, including controls, had a biomarker-supported diagnosis. Oculomotor correlates of neuropsychology and brain metabolism evaluated with 18F-FDG PET were explored. Machine-learning classification algorithms were trained for the differentiation between Alzheimer's disease, bvFTD and controls. A total of 93 subjects (33 Alzheimer's disease, 24 bvFTD, seven svPPA, and 29 controls) were included in the study. Alzheimer's disease was the most impaired group in all tests and displayed specific abnormalities in some visually-guided saccade parameters, as pursuit error and horizontal prosaccade latency, which are theoretically closely linked to posterior brain regions. BvFTD patients showed deficits especially in the most cognitively demanding tasks, the antisaccade and memory saccade tests, which require a fine control from frontal lobe regions. SvPPA patients performed similarly to controls in most parameters except for a lower number of correct memory saccades. Pursuit error was significantly correlated with cognitive measures of constructional praxis and executive function and metabolism in right posterior middle temporal gyrus. The classification algorithms yielded an area under the curve of 97.5% for the differentiation of Alzheimer's disease vs. controls, 96.7% for bvFTD vs. controls, and 92.5% for Alzheimer's disease vs. bvFTD. In conclusion, patients with Alzheimer's disease, bvFTD and svPPA exhibit differentiating oculomotor patterns which reflect the characteristic neuroanatomical distribution of pathology of each disease, and therefore its assessment can be useful in their diagnostic work-up. Machine learning approaches can facilitate the applicability of eye-tracking in clinical practice. Oculomotor behaviour can provide insight into the integrity of widespread cortical networks, which may contribute to the differential diagnosis between Alzheimer’s disease and frontotemporal dementia. Three groups of patients with Alzheimer’s disease, behavioural variant of frontotemporal dementia (bvFTD) and semantic variant of primary progressive aphasia (svPPA) and a sample of cognitively unimpaired elders underwent an eye-tracking evaluation. All participants in the discovery sample, including controls, had a biomarker-supported diagnosis. Oculomotor correlates of neuropsychology and brain metabolism evaluated with 18F-FDG PET were explored. Machine-learning classification algorithms were trained for the differentiation between Alzheimer’s disease, bvFTD and controls. A total of 93 subjects (33 Alzheimer’s disease, 24 bvFTD, seven svPPA and 29 controls) were included in the study. Alzheimer’s disease was the most impaired group in all tests and displayed specific abnormalities in some visually-guided saccade parameters, as pursuit error and horizontal prosaccade latency, which are theoretically closely linked to posterior brain regions. BvFTD patients showed deficits especially in the most cognitively demanding tasks, the antisaccade and memory saccade tests, which require a fine control from frontal lobe regions. SvPPA patients performed similarly to controls in most parameters except for a lower number of correct memory saccades. Pursuit error was significantly correlated with cognitive measures of constructional praxis and executive function and metabolism in right posterior middle temporal gyrus. The classification algorithms yielded an area under the curve of 97.5% for the differentiation of Alzheimer’s disease versus controls, 96.7% for bvFTD versus controls, and 92.5% for Alzheimer’s disease versus bvFTD. In conclusion, patients with Alzheimer’s disease, bvFTD and svPPA exhibit differentiating oculomotor patterns which reflect the characteristic neuroanatomical distribution of pathology of each disease, and therefore its assessment can be useful in their diagnostic work-up. Machine learning approaches can facilitate the applicability of eye-tracking in clinical practice. Oculomotor behavior can provide insight into the integrity of widespread cortical networks, which may contribute to the differential diagnosis between Alzheimer's disease and frontotemporal dementia. Three groups of patients with Alzheimer's disease, behavioral variant of frontotemporal dementia (bvFTD) and semantic variant of primary progressive aphasia (svPPA) and a sample of cognitively unimpaired elders underwent an eye-tracking evaluation. All participants in the discovery sample, including controls, had a biomarker-supported diagnosis. Oculomotor correlates of neuropsychology and brain metabolism evaluated with 18F-FDG PET were explored. Machine-learning classification algorithms were trained for the differentiation between Alzheimer's disease, bvFTD and controls. A total of 93 subjects (33 Alzheimer's disease, 24 bvFTD, seven svPPA, and 29 controls) were included in the study. Alzheimer's disease was the most impaired group in all tests and displayed specific abnormalities in some visually-guided saccade parameters, as pursuit error and horizontal prosaccade latency, which are theoretically closely linked to posterior brain regions. BvFTD patients showed deficits especially in the most cognitively demanding tasks, the antisaccade and memory saccade tests, which require a fine control from frontal lobe regions. SvPPA patients performed similarly to controls in most parameters except for a lower number of correct memory saccades. Pursuit error was significantly correlated with cognitive measures of constructional praxis and executive function and metabolism in right posterior middle temporal gyrus. The classification algorithms yielded an area under the curve of 97.5% for the differentiation of Alzheimer's disease vs. controls, 96.7% for bvFTD vs. controls, and 92.5% for Alzheimer's disease vs. bvFTD. In conclusion, patients with Alzheimer's disease, bvFTD and svPPA exhibit differentiating oculomotor patterns which reflect the characteristic neuroanatomical distribution of pathology of each disease, and therefore its assessment can be useful in their diagnostic work-up. Machine learning approaches can facilitate the applicability of eye-tracking in clinical practice.Oculomotor behavior can provide insight into the integrity of widespread cortical networks, which may contribute to the differential diagnosis between Alzheimer's disease and frontotemporal dementia. Three groups of patients with Alzheimer's disease, behavioral variant of frontotemporal dementia (bvFTD) and semantic variant of primary progressive aphasia (svPPA) and a sample of cognitively unimpaired elders underwent an eye-tracking evaluation. All participants in the discovery sample, including controls, had a biomarker-supported diagnosis. Oculomotor correlates of neuropsychology and brain metabolism evaluated with 18F-FDG PET were explored. Machine-learning classification algorithms were trained for the differentiation between Alzheimer's disease, bvFTD and controls. A total of 93 subjects (33 Alzheimer's disease, 24 bvFTD, seven svPPA, and 29 controls) were included in the study. Alzheimer's disease was the most impaired group in all tests and displayed specific abnormalities in some visually-guided saccade parameters, as pursuit error and horizontal prosaccade latency, which are theoretically closely linked to posterior brain regions. BvFTD patients showed deficits especially in the most cognitively demanding tasks, the antisaccade and memory saccade tests, which require a fine control from frontal lobe regions. SvPPA patients performed similarly to controls in most parameters except for a lower number of correct memory saccades. Pursuit error was significantly correlated with cognitive measures of constructional praxis and executive function and metabolism in right posterior middle temporal gyrus. The classification algorithms yielded an area under the curve of 97.5% for the differentiation of Alzheimer's disease vs. controls, 96.7% for bvFTD vs. controls, and 92.5% for Alzheimer's disease vs. bvFTD. In conclusion, patients with Alzheimer's disease, bvFTD and svPPA exhibit differentiating oculomotor patterns which reflect the characteristic neuroanatomical distribution of pathology of each disease, and therefore its assessment can be useful in their diagnostic work-up. Machine learning approaches can facilitate the applicability of eye-tracking in clinical practice. |
| Author | Rodríguez-Rodríguez, Eloy Lage, Carmen García-Martínez, María Aracil-Bolaños, Ignacio Fernández-Rodríguez, Andrea López-García, Sara Banzo, Ignacio Lleó-Bisa, Alberto García-Cena, Cecilia E. Calvo-Córdoba, Alberto Bravo-González, María Irure-Ventura, Juan Fortea, Juan Jiménez-Bonilla, Julio Bejanin, Alexandre Pozueta, Ana Pegueroles, Jordi Illán-Gala, Ignacio Kazimierczak, Martha Sánchez-Juan, Pascual |
| AuthorAffiliation | 6 Department of Immunology, Marqués de Valdecilla University Hospital , Santander , Spain 4 Escuela Técnica Superior de Ingeniería y Diseño Industrial – Centre for Automation and Robotics, Technical University of Madrid (UPM) – Consejo Superior de Investigaciones Científicas and Aura Innovative Robotics SL , Madrid , Spain 1 Institute for Research Marqués de Valdecilla (IDIVAL), University of Cantabria and Department of Neurology, Marqués de Valdecilla University Hospital , Santander , Spain 5 Department of Nuclear Medicine, Marqués de Valdecilla University Hospital , Santander , Spain 3 Sant Pau Memory Unit, Department of Neurology, Hospital de la Santa Creu i Sant Pau - Biomedical Research Institute Sant Pau (IIB Sant Pau), Universitat Autonoma de Barcelona , Barcelona , Spain 2 Centro de Investigación Biomédica en Red sobre Enfermedades Neurodegenerativas (CIBERNED) , Madrid , Spain |
| AuthorAffiliation_xml | – name: 3 Sant Pau Memory Unit, Department of Neurology, Hospital de la Santa Creu i Sant Pau - Biomedical Research Institute Sant Pau (IIB Sant Pau), Universitat Autonoma de Barcelona , Barcelona , Spain – name: 4 Escuela Técnica Superior de Ingeniería y Diseño Industrial – Centre for Automation and Robotics, Technical University of Madrid (UPM) – Consejo Superior de Investigaciones Científicas and Aura Innovative Robotics SL , Madrid , Spain – name: 1 Institute for Research Marqués de Valdecilla (IDIVAL), University of Cantabria and Department of Neurology, Marqués de Valdecilla University Hospital , Santander , Spain – name: 2 Centro de Investigación Biomédica en Red sobre Enfermedades Neurodegenerativas (CIBERNED) , Madrid , Spain – name: 6 Department of Immunology, Marqués de Valdecilla University Hospital , Santander , Spain – name: 5 Department of Nuclear Medicine, Marqués de Valdecilla University Hospital , Santander , Spain |
| Author_xml | – sequence: 1 givenname: Carmen surname: Lage fullname: Lage, Carmen – sequence: 2 givenname: Sara surname: López-García fullname: López-García, Sara – sequence: 3 givenname: Alexandre surname: Bejanin fullname: Bejanin, Alexandre – sequence: 4 givenname: Martha surname: Kazimierczak fullname: Kazimierczak, Martha – sequence: 5 givenname: Ignacio surname: Aracil-Bolaños fullname: Aracil-Bolaños, Ignacio – sequence: 6 givenname: Alberto surname: Calvo-Córdoba fullname: Calvo-Córdoba, Alberto – sequence: 7 givenname: Ana surname: Pozueta fullname: Pozueta, Ana – sequence: 8 givenname: María surname: García-Martínez fullname: García-Martínez, María – sequence: 9 givenname: Andrea surname: Fernández-Rodríguez fullname: Fernández-Rodríguez, Andrea – sequence: 10 givenname: María surname: Bravo-González fullname: Bravo-González, María – sequence: 11 givenname: Julio surname: Jiménez-Bonilla fullname: Jiménez-Bonilla, Julio – sequence: 12 givenname: Ignacio surname: Banzo fullname: Banzo, Ignacio – sequence: 13 givenname: Juan surname: Irure-Ventura fullname: Irure-Ventura, Juan – sequence: 14 givenname: Jordi surname: Pegueroles fullname: Pegueroles, Jordi – sequence: 15 givenname: Ignacio surname: Illán-Gala fullname: Illán-Gala, Ignacio – sequence: 16 givenname: Juan surname: Fortea fullname: Fortea, Juan – sequence: 17 givenname: Eloy surname: Rodríguez-Rodríguez fullname: Rodríguez-Rodríguez, Eloy – sequence: 18 givenname: Alberto surname: Lleó-Bisa fullname: Lleó-Bisa, Alberto – sequence: 19 givenname: Cecilia E. surname: García-Cena fullname: García-Cena, Cecilia E. – sequence: 20 givenname: Pascual surname: Sánchez-Juan fullname: Sánchez-Juan, Pascual |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33613262$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2021 Lage, López-García, Bejanin, Kazimierczak, Aracil-Bolaños, Calvo-Córdoba, Pozueta, García-Martínez, Fernández-Rodríguez, Bravo-González, Jiménez-Bonilla, Banzo, Irure-Ventura, Pegueroles, Illán-Gala, Fortea, Rodríguez-Rodríguez, Lleó-Bisa, García-Cena and Sánchez-Juan. 2021. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. Copyright © 2021 Lage, López-García, Bejanin, Kazimierczak, Aracil-Bolaños, Calvo-Córdoba, Pozueta, García-Martínez, Fernández-Rodríguez, Bravo-González, Jiménez-Bonilla, Banzo, Irure-Ventura, Pegueroles, Illán-Gala, Fortea, Rodríguez-Rodríguez, Lleó-Bisa, García-Cena and Sánchez-Juan. 2021 Lage, López-García, Bejanin, Kazimierczak, Aracil-Bolaños, Calvo-Córdoba, Pozueta, García-Martínez, Fernández-Rodríguez, Bravo-González, Jiménez-Bonilla, Banzo, Irure-Ventura, Pegueroles, Illán-Gala, Fortea, Rodríguez-Rodríguez, Lleó-Bisa, García-Cena and Sánchez-Juan |
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| Keywords | biomarkers oculomotor frontotemporal dementia antisaccade smooth pursuit Alzheimer's disease semantic dementia |
| Language | English |
| License | Copyright © 2021 Lage, López-García, Bejanin, Kazimierczak, Aracil-Bolaños, Calvo-Córdoba, Pozueta, García-Martínez, Fernández-Rodríguez, Bravo-González, Jiménez-Bonilla, Banzo, Irure-Ventura, Pegueroles, Illán-Gala, Fortea, Rodríguez-Rodríguez, Lleó-Bisa, García-Cena and Sánchez-Juan. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
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| SubjectTerms | Algorithms Alzheimer's disease Anatomy antisaccade Aphasia Biomarkers Brain Brain architecture Classification Cognitive ability Dementia Dementia disorders Differential diagnosis Executive function Eye movements Frontal lobe Frontotemporal dementia Latency Learning algorithms Machine learning Medical imaging Memory Neurodegenerative diseases Neuroscience oculomotor Oculomotor behavior Positron emission tomography Saccadic eye movements Semantics smooth pursuit Temporal gyrus |
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| Title | Distinctive Oculomotor Behaviors in Alzheimer's Disease and Frontotemporal Dementia |
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