A flexible intracortical brain-computer interface for typing using finger movements

Shah, Nishal P.; Willsey, Matthew S.; Hahn, Nick; Kamdar, Foram; Avansino, Donald T.; Fan, Chaofei; Hochberg, Leigh R.; Willett, Francis R.; Henderson, Jaimie M.

doi:10.1101/2024.04.22.590630

2024

DOI: 10.1101/2024.04.22.590630

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A flexible intracortical brain-computer interface for typing using finger movements

Nishal P. Shah,

Matthew S. Willsey,

Nick Hahn

et al.

Abstract: Keyboard typing with finger movements is a versatile digital interface for users with diverse skills, needs, and preferences. Currently, such an interface does not exist for people with paralysis. We developed an intracortical brain-computer interface (BCI) for typing with attempted flexion/extension movements of three finger groups on the right hand, or both hands, and demonstrated its flexibility in two dominant typing paradigms. The first paradigm is ″point-and-click″ typing, where a BCI user selects one ke… Show more

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Motor imagery and execution activate similar finger representations that are spatially consistent over time

Odermatt,

Schönberg,

Heimhofer

et al. 2024

Preprint

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Finger representations in the sensorimotor cortex can be activated even in the absence of somatosensory input or motor output through mere top-down processes, such as motor imagery. While executed finger movements activate finger representations in the primary sensorimotor cortex that are spatially consistent over time within participants, the stability of top-down activated finger representations remains largely unexplored. Given the increasing use of top-down activated sensorimotor representations to both plan implantation of and control brain-computer interfaces, it is crucial to understand the stability of these representations. Here, we investigated the spatial consistency, and thereby reliability, of finger representations activated through motor imagery in the primary somatosensory and primary motor cortex over time. To assess this, participants performed imagined and executed individual finger movements in two 3T fMRI sessions that were ~2 weeks apart. We observed highly consistent univariate finger-selective activity clusters and multivariate vertex-wise activity patterns within participants over time in both the motor imagery and motor execution task. Using a multivariate across-task decoding approach, we further found that motor execution and motor imagery activate similar finger representations in both the primary somatosensory and primary motor cortex. This demonstrates that motor imagery can be used to identify finger representations related to movement execution. Our findings not only validate the use of top-down processes for brain-computer interface planning and control, but also open up new opportunities for the development of sensorimotor training interventions that do not rely on overt movements.

show abstract

Motor imagery and execution activate similar finger representations that are spatially consistent over time

Odermatt,

Schönberg,

Heimhofer

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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A flexible intracortical brain-computer interface for typing using finger movements

Cited by 1 publication

References 42 publications

Motor imagery and execution activate similar finger representations that are spatially consistent over time

Motor imagery and execution activate similar finger representations that are spatially consistent over time

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