Huge thanks to my co-authors Lau MΓΈller Andersen @ualsbombe.bsky.social, Mikkel Vinding, Noa Cemeljic @noacemeljic.bsky.social, Daniel Lundqvist and PI Konstantina Kilteni @kkilteni.bsky.social
This is the first evidence in humans that:
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±οΈ Beta oscillations not only index motor preparation, but play a role in predicting self-touch.
π§ Cerebellum sends predictive signals to the somatosensory cortex before self-touch.
This revealed greater pre-stimulus beta-band desynchronisation and increased cerebellar-to-somatosensory connectivity before self-touch compared to misaligned touch.
Next, how did we isolate pre-stim prediction-related effects from general movement-related activity? π€
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First subtract activity from the same conditions without tactile stimuli
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Then compare self-touch and misaligned touch - both have voluntary movement but one feels like you touch yourself!
As expected, self-touch evoked weaker somatosensory activity (as early as 50ms) compared to external and misaligned touch.
We compared the same touch under three conditions:
1. externally generated touch (no movement)
2. self-touch ππ
3. misaligned touch π π (same movement, disrupted tactile prediction)
Movement kinematics were matched between self-touch and misaligned touch conditions π
π£ New preprint π£
The brain attenuates self-touch, but how does this unfold at the neural level before the touch? We used MEG to find out π§ ππ
