Lifespan Changes of the Human Brain In Alzheimer’s Disease

Brain imaging studies have shown that slow and progressive cerebral atrophy characterized the development of Alzheimer’s Disease (AD). Despite a large number of studies dedicated to AD, key questions about the lifespan evolution of AD biomarkers remain open. When does the AD model diverge from the n...

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Veröffentlicht in:	Scientific reports 2019-03, Vol.9 (1), p.3998-3998, Article 3998
Hauptverfasser:	Coupé, Pierrick, Manjón, José Vicente, Lanuza, Enrique, Catheline, Gwenaelle
Format:	Artikel
Sprache:	eng
Schlagworte:	59/57 631/378/1689/364 692/698/1688/64 Aging Alzheimer's disease Amygdala Atrophy Biomarkers Cognitive ability Computer Science Enlargement Evolution Hippocampus Humanities and Social Sciences Life span Magnetic resonance imaging Medical Imaging multidisciplinary Neuroimaging Science Science (multidisciplinary) Temporal lobe Ventricle Ventricle (lateral)
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description	Brain imaging studies have shown that slow and progressive cerebral atrophy characterized the development of Alzheimer’s Disease (AD). Despite a large number of studies dedicated to AD, key questions about the lifespan evolution of AD biomarkers remain open. When does the AD model diverge from the normal aging model? What is the lifespan trajectory of imaging biomarkers for AD? How do the trajectories of biomarkers in AD differ from normal aging? To answer these questions, we proposed an innovative way by inferring brain structure model across the entire lifespan using a massive number of MRI (N = 4329). We compared the normal model based on 2944 control subjects with the pathological model based on 3262 patients (AD + Mild cognitive Impaired subjects) older than 55 years and controls younger than 55 years. Our study provides evidences of early divergence of the AD models from the normal aging trajectory before 40 years for the hippocampus, followed by the lateral ventricles and the amygdala around 40 years. Moreover, our lifespan model reveals the evolution of these biomarkers and suggests close abnormality evolution for the hippocampus and the amygdala, whereas trajectory of ventricular enlargement appears to follow an inverted U-shape. Finally, our models indicate that medial temporal lobe atrophy and ventricular enlargement are two mid-life physiopathological events characterizing AD brain.
doi_str_mv	10.1038/s41598-019-39809-8
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Despite a large number of studies dedicated to AD, key questions about the lifespan evolution of AD biomarkers remain open. When does the AD model diverge from the normal aging model? What is the lifespan trajectory of imaging biomarkers for AD? How do the trajectories of biomarkers in AD differ from normal aging? To answer these questions, we proposed an innovative way by inferring brain structure model across the entire lifespan using a massive number of MRI (N = 4329). We compared the normal model based on 2944 control subjects with the pathological model based on 3262 patients (AD + Mild cognitive Impaired subjects) older than 55 years and controls younger than 55 years. Our study provides evidences of early divergence of the AD models from the normal aging trajectory before 40 years for the hippocampus, followed by the lateral ventricles and the amygdala around 40 years. 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subjects	59/57 631/378/1689/364 692/698/1688/64 Aging Alzheimer's disease Amygdala Atrophy Biomarkers Cognitive ability Computer Science Enlargement Evolution Hippocampus Humanities and Social Sciences Life span Magnetic resonance imaging Medical Imaging multidisciplinary Neuroimaging Science Science (multidisciplinary) Temporal lobe Ventricle Ventricle (lateral)
title	Lifespan Changes of the Human Brain In Alzheimer’s Disease
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