ARAMIS - 2017 - Annual activity report

ARAMIS

ARAMIS - 2017

Project-Team Aramis

Personnel

Overall Objectives

Research Program

Application Domains

Highlights of the Year

New Software and Platforms

New Results

Fiberprint: A subject fingerprint based on sparse code pooling for white matter fiber analysis
Individual analysis of molecular brain imaging data through automatic identification of abnormality patterns
Multilevel Modeling with Structured Penalties for Classification from Imaging Genetics data
Towards Fully-reproducible Research on Classification of Alzheimer's Disease
Early Cognitive, Structural, and Microstructural Changes in Presymptomatic C9orf72 Carriers Younger Than 40 Years
Loss of brain inter-frequency hubs in Alzheimer's disease
A statistical model for brain networks inferred from large-scale electrophysiological signals
A Topological Criterion for Filtering Information in Complex Brain Networks
Preclinical Alzheimer’s disease: a systematic review of the cohorts underlying the concept
Free and Cued Selective Reminding Test - accuracy for the differential diagnosis of Alzheimer's and neurodegenerative diseases: A large-scale biomarker-characterized monocenter cohort study (ClinAD)
Parallel transport in shape analysis : a scalable numerical scheme
Statistical learning of spatiotemporal patterns from longitudinal manifold-valued networks
Prediction of the progression of subcortical brain structures in Alzheimer's disease from baseline
Prediction of amyloidosis from neuropsychological and MRI data for cost effective inclusion of pre-symptomatic subjects in clinical trials
Geodesic shape regression with multiple geometries and sparse parameters
A sub-Riemannian modular framework for diffeomorphism based analysis of shape ensembles
A Bayesian Framework for Joint Morphometry of Surface and Curve meshes in Multi-Object Complexes
A Bayesian mixed-effects model to learn trajectories of changes from repeated manifold-valued observations

Bilateral Contracts and Grants with Industry

Partnerships and Cooperations

Dissemination

Bibliography

Publications of the year

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Section: New Results

Statistical learning of spatiotemporal patterns from longitudinal manifold-valued networks

Participants : Igor Koval, Jean-Baptiste Schiratti, Alexandre Routier, Michael Bacci, Olivier Colliot, Stéphanie Allassonnière, Stanley Durrleman.

We introduced a mixed-effects model to learn spatiotemporal patterns on a network by considering longitudinal measures distributed on a fixed graph. The data come from repeated observations of subjects at different time points which take the form of measurement maps distributed on a graph such as an image or a mesh. The model learns a typical group-average trajectory characterizing the propagation of measurement changes across the graph nodes. The subject-specific trajectories are defined via spatial and temporal transformations of the group-average scenario, thus estimating the variability of spatiotemporal patterns within the group. To estimate population and individual model parameters, we adapted a stochastic version of the Expectation-Maximization algorithm, the MCMC-SAEM. The model was used to describe the propagation of cortical atrophy during the course of Alzheimer's Disease. Model parameters show the variability of this average pattern of atrophy in terms of trajectories across brain regions, age at disease onset and pace of propagation. We showed that the personalization of this model yields accurate prediction of maps of cortical thickness in patients.

More details in [29]

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