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

Maxime Verwoert; Maarten C. Ottenhoff; Simon Tousseyn; Johannes P. van Dijk; Pieter L. Kubben; Christian Herff

doi:10.1016/j.celrep.2025.116241

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

Maxime Verwoert^*
, Maarten C. Ottenhoff
, Simon Tousseyn
, Johannes P. van Dijk
, Pieter L. Kubben
, Christian Herff^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Speech brain-computer interfaces (BCIs) offer a solution for those affected by speech impairments by decoding brain activity into speech. Current neuroprosthetics focus on the motor cortex, which might not be suitable for all patient populations. We investigate potential alternative targets for a speech BCI across a brain-wide distribution. Thirty participants are recorded with intracranial electroencephalography during speech production. We continuously predict speech from a brain-wide global to a single-channel local scale, across anatomical features. We find significant speech detection accuracy in both gray and white matter, no significant difference between gyri and sulci, and limited contribution from subcortical areas. Potential targets are located within the depths of and surrounding the lateral fissure bilaterally, such as the (sub)central sulcus, the transverse temporal gyrus, the supramarginal cortex, and parts of the insula. The results highlight the potential benefit of extending beyond the motor cortical surface and reaching the sulcal depth for speech neuroprostheses.

Original language	English
Article number	116241
Number of pages	14
Journal	Cell Reports
Volume	44
Issue number	9
DOIs	https://doi.org/10.1016/j.celrep.2025.116241
Publication status	Published - 23 Sept 2025

Keywords

brain-computer interface
CP: Neuroscience
gyrus
motor cortex
neuroprosthesis
neuroscience
speech
stereo-electroencephalography
subcortical
sulcus
white matter

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10.1016/j.celrep.2025.116241Licence: CC BY

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title = "Moving beyond the motor cortex: A brain-wide evaluation of target locations for intracranial speech neuroprostheses",

abstract = "Speech brain-computer interfaces (BCIs) offer a solution for those affected by speech impairments by decoding brain activity into speech. Current neuroprosthetics focus on the motor cortex, which might not be suitable for all patient populations. We investigate potential alternative targets for a speech BCI across a brain-wide distribution. Thirty participants are recorded with intracranial electroencephalography during speech production. We continuously predict speech from a brain-wide global to a single-channel local scale, across anatomical features. We find significant speech detection accuracy in both gray and white matter, no significant difference between gyri and sulci, and limited contribution from subcortical areas. Potential targets are located within the depths of and surrounding the lateral fissure bilaterally, such as the (sub)central sulcus, the transverse temporal gyrus, the supramarginal cortex, and parts of the insula. The results highlight the potential benefit of extending beyond the motor cortical surface and reaching the sulcal depth for speech neuroprostheses.",

keywords = "brain-computer interface, CP: Neuroscience, gyrus, motor cortex, neuroprosthesis, neuroscience, speech, stereo-electroencephalography, subcortical, sulcus, white matter",

author = "Maxime Verwoert and Ottenhoff, \{Maarten C.\} and Simon Tousseyn and \{van Dijk\}, \{Johannes P.\} and Kubben, \{Pieter L.\} and Christian Herff",

note = "Funding Information: This publication is part of the project INTENSE (with project number 17619 of the research program NWO Crossover Program), which is (partly) financed by the Dutch Research Council (NWO). C.H. acknowledges funding by the Kavli Foundation. Publisher Copyright: {\textcopyright} 2025 The Authors",

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doi = "10.1016/j.celrep.2025.116241",

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T2 - A brain-wide evaluation of target locations for intracranial speech neuroprostheses

AU - Verwoert, Maxime

AU - Ottenhoff, Maarten C.

AU - Tousseyn, Simon

AU - van Dijk, Johannes P.

AU - Kubben, Pieter L.

AU - Herff, Christian

N1 - Funding Information: This publication is part of the project INTENSE (with project number 17619 of the research program NWO Crossover Program), which is (partly) financed by the Dutch Research Council (NWO). C.H. acknowledges funding by the Kavli Foundation. Publisher Copyright: © 2025 The Authors

PY - 2025/9/23

Y1 - 2025/9/23

N2 - Speech brain-computer interfaces (BCIs) offer a solution for those affected by speech impairments by decoding brain activity into speech. Current neuroprosthetics focus on the motor cortex, which might not be suitable for all patient populations. We investigate potential alternative targets for a speech BCI across a brain-wide distribution. Thirty participants are recorded with intracranial electroencephalography during speech production. We continuously predict speech from a brain-wide global to a single-channel local scale, across anatomical features. We find significant speech detection accuracy in both gray and white matter, no significant difference between gyri and sulci, and limited contribution from subcortical areas. Potential targets are located within the depths of and surrounding the lateral fissure bilaterally, such as the (sub)central sulcus, the transverse temporal gyrus, the supramarginal cortex, and parts of the insula. The results highlight the potential benefit of extending beyond the motor cortical surface and reaching the sulcal depth for speech neuroprostheses.

AB - Speech brain-computer interfaces (BCIs) offer a solution for those affected by speech impairments by decoding brain activity into speech. Current neuroprosthetics focus on the motor cortex, which might not be suitable for all patient populations. We investigate potential alternative targets for a speech BCI across a brain-wide distribution. Thirty participants are recorded with intracranial electroencephalography during speech production. We continuously predict speech from a brain-wide global to a single-channel local scale, across anatomical features. We find significant speech detection accuracy in both gray and white matter, no significant difference between gyri and sulci, and limited contribution from subcortical areas. Potential targets are located within the depths of and surrounding the lateral fissure bilaterally, such as the (sub)central sulcus, the transverse temporal gyrus, the supramarginal cortex, and parts of the insula. The results highlight the potential benefit of extending beyond the motor cortical surface and reaching the sulcal depth for speech neuroprostheses.

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KW - speech

KW - stereo-electroencephalography

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KW - sulcus

KW - white matter

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DO - 10.1016/j.celrep.2025.116241

M3 - Article

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VL - 44

JO - Cell Reports

JF - Cell Reports

IS - 9

M1 - 116241

ER -

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

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Keywords

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