Don’t put words in my mouth: Speech perception can generate False Positive activation of a speech BCI

Speech brain-computer interfaces show great promise in restoring communication for people who can no longer speak, but have also raised privacy concerns regarding their potential to decode private verbal thought. Using multi-unit recordings in three participants with dysarthria, we studied the representation of inner speech in the motor cortex. We found a robust neural encoding of inner speech, such that individual words and continuously imagined sentences could be decoded in real-time This neural representation was highly correlated with overt and perceived speech. We investigated the possibility of "eavesdropping" on private verbal thought, and demonstrated that verbal memory can be decoded during a non-speech task. Nevertheless, we found a neural "overtness" dimension that can help to avoid any unintentional decoding. Together, these results demonstrate the strong representation of verbal thought in the motor cortex, and highlight important design considerations and risks that must be addressed as speech neuroprostheses become more widespread.

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Moving beyond the motor cortex: a brain-wide evaluation of target locations for intracranial speech neuroprostheses

Verwoert,

Ottenhoff,

Tousseyn

et al. 2024

Preprint

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Speech is the fastest and most natural form of communication, which can be impaired in certain disorders. Speech brain-computer interfaces (BCIs) offer a solution by decoding brain activity into speech. Current neuroprosthetic devices focus on the motor cortex, which might not be usable in all patient populations. Fortunately, many other brain regions have been associated with the speech production process. Here, we investigate which regions are potential (alternative) targets for a speech BCI across a brain-wide distribution within a single study. The distribution includes sulci and subcortical areas, sampled with both a high temporal and a high spatial resolution. Thirty participants were recorded with intracranial electroencephalography during speech production, resulting in 3249 recorded contacts across the brain. We trained machine learning models to continuously predict speech from a brain-wide global to a single-channel local scale. Within each scale we examined a variation of selected electrode contacts based on anatomical features within participants. We found significant speech detection in both gray and white matter tissue, no significant difference between gyri and sulci at any of the analysis scales and limited contribution from subcortical areas. The best potential targets in terms of decoding accuracy and consistency are located within the depth of and surrounding the lateral fissure bilaterally, such as the (sub)central sulcus, transverse temporal gyrus (Heschls' gyrus), the supramarginal cortex and parts of the insula. These results highlight the potential benefits of extending beyond the motor cortex and reaching the sulcal depth for speech neuroprostheses.

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Don’t put words in my mouth: Speech perception can generate False Positive activation of a speech BCI

Cited by 3 publications

References 22 publications

Mind-reading devices are revealing the brain’s secrets

Mind-reading devices are revealing the brain’s secrets

Representation of verbal thought in motor cortex and implications for speech neuroprostheses

Moving beyond the motor cortex: a brain-wide evaluation of target locations for intracranial speech neuroprostheses

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