DLN: The disconnectome, Prof. Michel Thiebaut de Schotten, CNRS
Event details
| Date | 17.11.2021 |
| Hour | 12:15 › 13:15 |
| Speaker | Michel Thiebaut de Schotten |
| Location | Online |
| Category | Conferences - Seminars |
| Event Language | English |
Abstract
We commonly call gray matter the outer layer of the brain (or cerebral cortex) devoted to the most integrated cerebral functions, such as visuospatial, language or memory skills. The cerebral cortex is composed of the cell bodies of neurons, giving it its eponymous colour. Just as good communication between individuals is essential for the functioning of a society, good communication between cortical regions is essential for brain function. In the brain, communication is enabled by tract-like extensions of neurons# -- axons -- which group together in bundles to connect the different brain regions together, some of which reaching a length over 20 cm. True communication channels, in connecting the functions of several brain regions, these white matter bundles allow the creation of new, more complex functions similarly to a group of letters that makes a full word with a specific meaning.
For a long time, research in human neuroscience has focused on the study of brain functions associated with cortical regions. Brain imaging techniques developed in the early 2000s, such as functional MRI for example, have made it possible to map brain functions (language, logic, memory, etc.) on the surface of the cortex. But we can clearly see the limits of this approach, which does not allow us to understand the relationships between different cortical regions involved in the same function. With the advent of new imaging techniques making it possible to model white matter tracts (for the past ten years or so), neuroscience is entering a new era where the anatomical support of brain functions is no longer considered only as a collection of regions on the surface of the brain, but as a network of interconnected nodes communicating with each other. Based on one of the largest collection of brain damaged by stroke (1333 patients) combined with the most comprehensive meta-analysis database in neuroimaging (Neurosynth) and the best current white matter mapping derived from the "Human Connectome 7T ”, we produced the first-ever functional white matter atlas, which alone maps more than 500 different functions in the brain. This atlas constitutes a conceptual and epistemological advance in human neuroscience since cerebral functions are no longer defined a priori and sought only in the cerebral cortex, but they now emerge from the in-depth analysis of white matter networks conceived as functional territories defined by their connectivity. By placing itself at the interface of basic research and medical research, this atlas promises to be an essential tool for exploring new brain functions and their circuits as well as for identifying typical stroke lesions which interrupt the circuits of the brain.
Bio
With over ten years’ experience in neuropsychology and brain connectivity neuroimaging, Michel Thiebaut de Schotten benefits from an established scientific track record and have made solid contributions to the field of neuroscience. His work, published in Science (2005), revealed that spatial neglect is a consequence of the disruption of communication between the frontal and the parietal lobes, and thus should be considered as a disconnection syndrome. Moreover, he mapped, for the first time, the organization of white matter anatomy in the healthy living human brain (Nature Neuroscience 2011 as well as in the Atlas of the Human Brain Connections published with Marco Catani in 2012). He have also pursued work concerning brain connectivity in stroke populations by identifying new brain-behavior association and was recently published in Cerebral Cortex (2014-2015-2016). He is co-founder of the NatBrainLab , founder of the BCBlab and plays a key role as treasurer in the facilitation and in the organization of the Human Brain Mapping annual conference. In 2014, he was awarded the prestigious British Neuropsychological Society’s Early Career Award, The Elizabeth Warrington Prize as well as the European Society for Neuropsychology Cortex prize. At present, he is associate professor in Paris, head of the Brain Connectivity and Behaviour group (www.bcblab.com). Overall, Michel enjoys writing and sharing discoveries and new hypotheses about the human brain.
We commonly call gray matter the outer layer of the brain (or cerebral cortex) devoted to the most integrated cerebral functions, such as visuospatial, language or memory skills. The cerebral cortex is composed of the cell bodies of neurons, giving it its eponymous colour. Just as good communication between individuals is essential for the functioning of a society, good communication between cortical regions is essential for brain function. In the brain, communication is enabled by tract-like extensions of neurons# -- axons -- which group together in bundles to connect the different brain regions together, some of which reaching a length over 20 cm. True communication channels, in connecting the functions of several brain regions, these white matter bundles allow the creation of new, more complex functions similarly to a group of letters that makes a full word with a specific meaning.
For a long time, research in human neuroscience has focused on the study of brain functions associated with cortical regions. Brain imaging techniques developed in the early 2000s, such as functional MRI for example, have made it possible to map brain functions (language, logic, memory, etc.) on the surface of the cortex. But we can clearly see the limits of this approach, which does not allow us to understand the relationships between different cortical regions involved in the same function. With the advent of new imaging techniques making it possible to model white matter tracts (for the past ten years or so), neuroscience is entering a new era where the anatomical support of brain functions is no longer considered only as a collection of regions on the surface of the brain, but as a network of interconnected nodes communicating with each other. Based on one of the largest collection of brain damaged by stroke (1333 patients) combined with the most comprehensive meta-analysis database in neuroimaging (Neurosynth) and the best current white matter mapping derived from the "Human Connectome 7T ”, we produced the first-ever functional white matter atlas, which alone maps more than 500 different functions in the brain. This atlas constitutes a conceptual and epistemological advance in human neuroscience since cerebral functions are no longer defined a priori and sought only in the cerebral cortex, but they now emerge from the in-depth analysis of white matter networks conceived as functional territories defined by their connectivity. By placing itself at the interface of basic research and medical research, this atlas promises to be an essential tool for exploring new brain functions and their circuits as well as for identifying typical stroke lesions which interrupt the circuits of the brain.
Bio
With over ten years’ experience in neuropsychology and brain connectivity neuroimaging, Michel Thiebaut de Schotten benefits from an established scientific track record and have made solid contributions to the field of neuroscience. His work, published in Science (2005), revealed that spatial neglect is a consequence of the disruption of communication between the frontal and the parietal lobes, and thus should be considered as a disconnection syndrome. Moreover, he mapped, for the first time, the organization of white matter anatomy in the healthy living human brain (Nature Neuroscience 2011 as well as in the Atlas of the Human Brain Connections published with Marco Catani in 2012). He have also pursued work concerning brain connectivity in stroke populations by identifying new brain-behavior association and was recently published in Cerebral Cortex (2014-2015-2016). He is co-founder of the NatBrainLab , founder of the BCBlab and plays a key role as treasurer in the facilitation and in the organization of the Human Brain Mapping annual conference. In 2014, he was awarded the prestigious British Neuropsychological Society’s Early Career Award, The Elizabeth Warrington Prize as well as the European Society for Neuropsychology Cortex prize. At present, he is associate professor in Paris, head of the Brain Connectivity and Behaviour group (www.bcblab.com). Overall, Michel enjoys writing and sharing discoveries and new hypotheses about the human brain.
Practical information
- General public
- Free