CORDIS Project
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The project develops methods to decode and interpret non-motor neural signals from human muscles, aiming to enhance understanding of the central nervous system. It explores applications in human-machine interfaces, brain neuromodulation, and movement disorder diagnosis, ultimately creating a novel neuroimaging technolo…
By contracting our muscles, we move and interact with the world.
In turn, the activated muscles act as signal repeaters of the neural inputs they receive.
Muscles do not only receive inputs determining how they need to contract (and thereby how we move), but they also receive a rich set of neural information originating in the central nervous system and traveling through nerves and muscles without directly altering motor commands.
This 'motor null space' in the muscles may represent a unique opp…
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