Abstract #3946
Interactively computing and visualizing functional and structural brain connectivity in real-time
Maxime Chamberland 1 , Michal Bernier 1 , David Fortin 2 , Kevin Whittingstall 3 , and Maxime Descoteaux 4
1
Nuclear Medecine and Radiobiology,
Universit de Sherbrooke, Sherbrooke, Qubec, Canada,
2
Neurosurgery,
Universit de Sherbrooke, Sherbrooke, Qubec, Canada,
3
Diagnostic
Radiology, Universit de Sherbrooke, Sherbrooke, Qubec,
Canada,
4
Computer
science, Universit de Sherbrooke, Sherbrooke, Quebec,
Canada
The human brain can be viewed as a collection of
networks. Those highly specialized networks can be
referred to as a set of nodes (gray matter functional
areas) linked together by edges (for example white
matter axonal structure). In this work, we propose an
interactive tool for the exploration of functional
connectivity in a fully 3D fashion, which can be coupled
with our existing real-time fiber tracking module.
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