Early-onset and late-onset Alzheimer’s disease are associated with distinct patterns of memory impairment

The goal of this study was to investigate the specific patterns of memory breakdown in patients suffering from early-onset Alzheimer’s disease (EOAD) and late-onset Alzheimer’s disease (LOAD). Twenty EOAD patients, twenty LOAD patients, twenty matched younger controls, and twenty matched older controls participated in this study. All participants underwent a detailed neuropsychological assessment, an MRI scan, an FDG-PET scan, and AD patients had biomarkers as supporting evidence of both amyloïdopathy and neuronal injury. Results of the neuropsychological assessment showed that both EOAD and LOAD groups were impaired in the domains of memory, executive functions, language, praxis, and visuoconstructional abilities, when compared to their respective control groups. EOAD and LOAD groups, however, showed distinct patterns of memory impairment. Even though both groups were similarly affected on measures of episodic, short term and working memory, in contrast semantic memory was significantly more impaired in LOAD than in EOAD patients. The EOAD group was not more affected than the LOAD group in any memory domain. EOAD patients, however, showed significantly poorer performance in other cognitive domains including executive functions and visuoconstructional abilities. A more detailed analysis of the pattern of semantic memory performance among patient groups revealed that the LOAD was more profoundly impaired, in tasks of both spontaneous recall and semantic recognition. Voxel-Based Morphometry (VBM) analyses showed that impaired semantic performance in patients was associated with reduced gray matter volume in the anterior temporal lobe region, while PET-FDG analyses revealed that poorer semantic performance was associated with greater hypometabolism in the left temporoparietal region, both areas reflecting key regions of the semantic network. Results of this study indicate that EOAD and LOAD patients present with distinct patterns of memory impairment, and that a genuine semantic impairment may represent one of the clinical hallmarks of LOAD

Harmonizing neuropsychological assessment for mild neurocognitive disorders in Europe

INTRODUCTION Harmonized neuropsychological assessment for neurocognitive disorders, an international priority for valid and reliable diagnostic procedures, has been achieved only in specific countries or research contexts. METHODS To harmonize the assessment of mild cognitive impairment in Europe, a workshop (Geneva, May 2018) convened stakeholders, methodologists, academic, and non-academic clinicians and experts from European, US, and Australian harmonization initiatives. RESULTS With formal presentations and thematic working-groups we defined a standard battery consistent with the U.S. Uniform DataSet, version 3, and homogeneous methodology to obtain consistent normative data across tests and languages. Adaptations consist of including two tests specific to typical Alzheimer's disease and behavioral variant frontotemporal dementia. The methodology for harmonized normative data includes consensus definition of cognitively normal controls, classification of confounding factors (age, sex, and education), and calculation of minimum sample sizes. DISCUSSION This expert consensus allows harmonizing the diagnosis of neurocognitive disorders across European countries and possibly beyond

Singular nonlinear (n-1,1) conjugate boundary value problems

Solutions are obtained for the boundary value problem, y (n) + f(x,y) = 0, y (i)(0) = y(1) = 0, 0 i n – 2, where f(x,y) is singular at y = 0. An application is made of a fixed point theorem for operators that are decreasing with respect to a cone

Prevalence and prognosis of Alzheimer's disease at the mild cognitive impairment stage

Vos et al. compare the prevalence and prognosis of Alzheimer's disease at the mild cognitive impairment stage based on the IWG-1, IWG-2 and NIA-AA criteria. All three aid identification of early Alzheimer's disease, but combining amyloid and neuronal injury markers according to the NIA-AA criteria offers the most accurate prognosi

Contributions from studies on mesiotemporal memory systems to the diagnosis of early Alzeimer's disease

Un nombre croissant de travaux chez l’animal et chez l’homme suggèrent que les différentes structures composant le lobe temporal interne (LTI) contribuent de manière différentielle à la mémoire déclarative. Chez l’homme, deux réseaux neuraux impliquant le LTI sont décrits : un réseau mésiotemporal antérieur, constitué de structures pour lesquelles les études chez les patients cérébro-lésés indiquent qu’elles contribueraient à la mémoire décontextualisée (mémoire des objets et mémoire sémantique ou mémoire du « quoi ») ; un réseau mésiotemporal postérieur, constitué d’autres structures pour lesquelles ces études suggèrent plutôt une implication dans la mémoire contextualisée (mémoire spatiale, épisodique ou mémoire du «où » et du « quand»). Dans la Maladie d’Alzheimer (MA), les dégénérescences neurofibrillaires, dont la distribution topographique est corrélée à la nature des déficits cognitifs, se développent initialement dans les cortex sous-hippocampiques - transentorhinal et entorhinal - qui sont des composants du réseau mésiotemporal antérieur, avant de s’étendre à l’hippocampe. Les éventuels déficits cognitifs en relation avec l’atteinte de cette région ne sont pas clairement identifiés dans la MA. Les travaux présentés dans ce mémoire sont centrés sur l’étude des cortex sous-hippocampiques avec les méthodes de la neuropsychologie et la neuroimagerie. Ils suggèrent que la MA aux stades les plus précoces pourrait représenter un « modèle » d’étude privilégié des systèmes mnésiques auxquels contribue le LTI. Ces résultats sont en faveur de l’utilité de l’évaluation de la mémoire décontextualisée dans le diagnostic de la MA débutante.There is increasing evidence from experiments in rodents and non-human primates, as well as from human studies, to suggest that the different structures within the medial temporal lobe (MTL) differentially contribute to declarative memory. In the human brain, two neural networks implicating MTL structures have been described: an anterior MTL network that includes brain areas that contribute to context-free memory (object memory and semantic memory or memory for « what ») and a posterior MTL network that contributes to context-rich memory (spatial memory, episodic memory or memory for “where” and “when”). In Alzheimer’s disease (AD), neurofibrillary tangles (NFT), associated with cognitive signs, initially appear in the sub-hippocampal (transentorhinal and entorhinal) cortex, which are part of the anterior MTL network, before reaching the hippocampus. Potential cognitive deficits related to the dysfunction of this brain area in AD are not clearly identified. In the presented studies, the emphasis is placed on the investigation of sub-hippocampal corteces using a neuropsychological approach and neuroimaging techniques. Our findings suggest that the very earliest stages of AD could represent a “model” leading to a better understanding of memory systems that involve the MTL. They also provide evidence that evaluating context-free memory may be useful in the diagnosis of early AD

Études de cas et neuropsychologie de la mémoire : et maintenant, c'est fini ?

International audienc

Apport de l'étude des systèmes mnésiques mesiotemporaux au diagnostic précoce de la Maladie d'Alzheimer débutante

Un nombre croissant de travaux chez l animal et chez l homme suggèrent que les différentes structures composant le lobe temporal interne (LTI) contribuent de manière différentielle à la mémoire déclarative. Chez l homme, deux réseaux neuraux impliquant le LTI sont décrits : un réseau mésiotemporal antérieur, constitué de structures pour lesquelles les études chez les patients cérébro-lésés indiquent qu elles contribueraient à la mémoire décontextualisée (mémoire des objets et mémoire sémantique ou mémoire du quoi ) ; un réseau mésiotemporal postérieur, constitué d autres structures pour lesquelles ces études suggèrent plutôt une implication dans la mémoire contextualisée (mémoire spatiale, épisodique ou mémoire du où et du quand ). Dans la Maladie d Alzheimer (MA), les dégénérescences neurofibrillaires, dont la distribution topographique est corrélée à la nature des déficits cognitifs, se développent initialement dans les cortex sous-hippocampiques - transentorhinal et entorhinal - qui sont des composants du réseau mésiotemporal antérieur, avant de s étendre à l hippocampe. Les éventuels déficits cognitifs en relation avec l atteinte de cette région ne sont pas clairement identifiés dans la MA. Les travaux présentés dans ce mémoire sont centrés sur l étude des cortex sous-hippocampiques avec les méthodes de la neuropsychologie et la neuroimagerie. Ils suggèrent que la MA aux stades les plus précoces pourrait représenter un modèle d étude privilégié des systèmes mnésiques auxquels contribue le LTI. Ces résultats sont en faveur de l utilité de l évaluation de la mémoire décontextualisée dans le diagnostic de la MA débutante.There is increasing evidence from experiments in rodents and non-human primates, as well as from human studies, to suggest that the different structures within the medial temporal lobe (MTL) differentially contribute to declarative memory. In the human brain, two neural networks implicating MTL structures have been described: an anterior MTL network that includes brain areas that contribute to context-free memory (object memory and semantic memory or memory for what ) and a posterior MTL network that contributes to context-rich memory (spatial memory, episodic memory or memory for where and when ). In Alzheimer s disease (AD), neurofibrillary tangles (NFT), associated with cognitive signs, initially appear in the sub-hippocampal (transentorhinal and entorhinal) cortex, which are part of the anterior MTL network, before reaching the hippocampus. Potential cognitive deficits related to the dysfunction of this brain area in AD are not clearly identified. In the presented studies, the emphasis is placed on the investigation of sub-hippocampal corteces using a neuropsychological approach and neuroimaging techniques. Our findings suggest that the very earliest stages of AD could represent a model leading to a better understanding of memory systems that involve the MTL. They also provide evidence that evaluating context-free memory may be useful in the diagnosis of early AD.AIX-MARSEILLE2-Bib.electronique (130559901) / SudocSudocFranceF

The speed of visual recognition memory

International audienceTwo processes are thought to support visual recognition memory (VRM): Familiarity and recollection. The former is generally considered to be faster. However, the relationship between the precise onset of the two processes is unclear. Here, we use a novel paradigm, the SAB (Speed and Accuracy Boosting procedure) that constrains participants to use their fastest strategy and provides a continuous distribution of their reaction times. We show that fast recognition occurs as early as ~370 ms, a limit that appears incompressible whatever types of stimuli were used. In a second experiment, running the SAB in conjunction with a modified version of the remember/know paradigm, we show that responses up to ~420 ms are based solely on familiarity. These time limits of 370 ms and 420 ms provide strong constraints on the neural mechanisms underlying VRM and suggest that the fastest, familiarity-based, responses could rely on the visual ventral stream only