Mariana P. Branco scite author profile

Options for people with severe paralysis who have lost the ability to communicate orally are limited. We describe a method for communication in a patient with late-stage amyotrophic lateral sclerosis (ALS), involving a fully implanted brain-computer interface that consists of subdural electrodes placed over the motor cortex and a transmitter placed subcutaneously in the left side of the thorax. By attempting to move the hand on the side opposite the implanted electrodes, the patient accurately and independently controlled a computer typing program 28 weeks after electrode placement, at the equivalent of two letters per minute. The brain-computer interface offered autonomous communication that supplemented and at times supplanted the patient's eye-tracking device. (Funded by the Government of the Netherlands and the European Union; ClinicalTrials.gov number, NCT02224469 .).

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Decoding hand gestures from primary somatosensory cortex using high-density ECoG

Branco

et al. 2017

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Electrocorticography (ECoG) based Brain-Computer Interfaces (BCIs) have been proposed as a way to restore and replace motor function or communication in severely paralyzed people. To date, most motor-based BCIs have either focused on the sensorimotor cortex as a whole or on the primary motor cortex (M1) as a source of signals for this purpose. Still, target areas for BCI are not confined to M1, and more brain regions may provide suitable BCI control signals. A logical candidate is the primary somatosensory cortex (S1), which not only shares similar somatotopic organization to M1, but also has been suggested to have a role beyond sensory feedback during movement execution. Here, we investigated whether four complex hand gestures, taken from the American sign language alphabet, can be decoded exclusively from S1 using both spatial and temporal information. For decoding, we used the signal recorded from a small patch of cortex with subdural high-density (HD) grids in five patients with intractable epilepsy. Notably, we introduce a new method of trial alignment based on the increase of the electrophysiological response, which virtually eliminates the confounding effects of systematic and non-systematic temporal differences within and between gestures execution. Results show that S1 classification scores are high (76%), similar to those obtained from M1 (74%) and sensorimotor cortex as a whole (85%), and significantly above chance level (25%). We conclude that S1 offers characteristic spatiotemporal neuronal activation patterns that are discriminative between gestures, and that it is possible to decode gestures with high accuracy from a very small patch of cortex using subdurally implanted HD grids. The feasibility of decoding hand gestures using HD-ECoG grids encourages further investigation of implantable BCI systems for direct interaction between the brain and external devices with multiple degrees of freedom.

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ALICE: A tool for automatic localization of intra-cranial electrodes for clinical and high-density grids

Branco

Gaglianese

Glen

et al. 2018

Journal of Neuroscience Methods

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Stability of a chronic implanted brain-computer interface in late-stage amyotrophic lateral sclerosis

Pels

Aarnoutse

Leinders

et al. 2019

Clinical Neurophysiology

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DNA Ploidy is an Independent Predictor of Survival in Breast Invasive Ductal Carcinoma: A Long-term Multivariate Analysis of 393 Patients

et al. 2012

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Mariana P. Branco

Fully Implanted Brain–Computer Interface in a Locked-In Patient with ALS

Decoding hand gestures from primary somatosensory cortex using high-density ECoG

ALICE: A tool for automatic localization of intra-cranial electrodes for clinical and high-density grids

Stability of a chronic implanted brain-computer interface in late-stage amyotrophic lateral sclerosis

DNA Ploidy is an Independent Predictor of Survival in Breast Invasive Ductal Carcinoma: A Long-term Multivariate Analysis of 393 Patients

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