Hervé Abdi

Our project is to develop and extend recent work by a French team part of the Equipex MATRICE (lead by D. Peschanski, CNRS/Université de Paris I). This team performed a sophisticated meta-analysis of very large sets of brain imaging studies and synthesized their results by showing that the cortex was organized in two well defined anatomic functional networks called rings.
The first ring, called the Visual-Sensori-Motor ring, (VSA ring) comprises brain regions involved in immediate high speed information processing. The second ring, called the Parieto-Temporal-Frontal ring, comprises brain regions involved in more deliberative processing such as memory, emotions, and biological rhythms. These two rings implement two different temporal integration scales but communicate via a set of common regions.
In this project we plan to develop and extend this pioneering work by integrating information from different databases that we will allow us to relate anatomico-functional data with their genetic counterparts and their cognitive and psychological expression. To do so, I will collaborate with the MATRICE team and integrate my expertise as a cognitive neuroscientist and data analysist (specialized in brain imaging) with their expertise as neuroscientists and bio-informaticians. In this project we would integrate genetic information on gene expression.
In addition to deepening our current understanding of the brain architecture, our methodology is likely to have broad clinical applications implied by a better comprehension of degenerative diseases such as Alzheimer dementia or multiple sclerosis because these diseases seem to follow the dissociation expressed by the rings (e.g., the regions concerned by Alzheimer dementia correspond closely to the PTF ring, whereas multiple sclerosis target mostly the VSA ring). Also, as indicated before, normal aging seems to affect differentially some components of the PTF ring and therefore deepening our fundamental knowledge of the functional and anatomical underpinning of these brain structure is likely to rapidly transfer to these crucial clinical and societal issues.