Brain-computer interfacing in disorders of consciousness

Camille Chatelle; Srivas Chennu; Quentin Noirhomme; Damian Cruse; Adrian M Owen; Steven Laureys

doi:10.3109/02699052.2012.698362

Brain-computer interfacing in disorders of consciousness

Camille Chatelle, Srivas Chennu, Quentin Noirhomme, Damian Cruse, Adrian M Owen, Steven Laureys

Psychology

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

54 Citations (Scopus)

Abstract

BACKGROUND: Recent neuroimaging research has strikingly demonstrated the existence of covert awareness in some patients with disorders of consciousness (DoC). These findings have highlighted the potential for the development of simple brain-computer interfaces (BCI) as a diagnosis in behaviourally unresponsive patients.

OBJECTIVES: This study here reviews current EEG-based BCIs that hold potential for assessing and eventually assisting patients with DoC. It highlights key areas for further development that might eventually make their application feasible in this challenging patient group.

METHODS: The major types of BCIs proposed in the literature are considered, namely those based on the P3 potential, sensorimotor rhythms, steady state oscillations and slow cortical potentials. In each case, a brief overview of the relevant literature is provided and then their relative merits for BCI applications in DoC are considered.

RESULTS: A range of BCI designs have been proposed and tested for enabling communication in fully conscious, paralysed patients. Although many of these have potential applicability for patients with DoC, they share some key challenges that need to be overcome, including limitations of stimulation modality, feedback, user training and consistency.

CONCLUSION: Future work will need to address the technical and practical challenges facing reliable implementation at the patient's bedside.

Original language	English
Pages (from-to)	1510-22
Number of pages	13
Journal	Brain Injury
Volume	26
Issue number	12
DOIs	https://doi.org/10.3109/02699052.2012.698362
Publication status	Published - 2012

Keywords

Brain-Computer Interfaces
Consciousness Disorders
Electroencephalography
Event-Related Potentials, P300
Female
Humans
Male
User-Computer Interface

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10.3109/02699052.2012.698362

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title = "Brain-computer interfacing in disorders of consciousness",

abstract = "BACKGROUND: Recent neuroimaging research has strikingly demonstrated the existence of covert awareness in some patients with disorders of consciousness (DoC). These findings have highlighted the potential for the development of simple brain-computer interfaces (BCI) as a diagnosis in behaviourally unresponsive patients.OBJECTIVES: This study here reviews current EEG-based BCIs that hold potential for assessing and eventually assisting patients with DoC. It highlights key areas for further development that might eventually make their application feasible in this challenging patient group.METHODS: The major types of BCIs proposed in the literature are considered, namely those based on the P3 potential, sensorimotor rhythms, steady state oscillations and slow cortical potentials. In each case, a brief overview of the relevant literature is provided and then their relative merits for BCI applications in DoC are considered.RESULTS: A range of BCI designs have been proposed and tested for enabling communication in fully conscious, paralysed patients. Although many of these have potential applicability for patients with DoC, they share some key challenges that need to be overcome, including limitations of stimulation modality, feedback, user training and consistency.CONCLUSION: Future work will need to address the technical and practical challenges facing reliable implementation at the patient's bedside.",

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author = "Camille Chatelle and Srivas Chennu and Quentin Noirhomme and Damian Cruse and Owen, {Adrian M} and Steven Laureys",

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volume = "26",

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AU - Noirhomme, Quentin

AU - Cruse, Damian

AU - Owen, Adrian M

AU - Laureys, Steven

PY - 2012

Y1 - 2012

N2 - BACKGROUND: Recent neuroimaging research has strikingly demonstrated the existence of covert awareness in some patients with disorders of consciousness (DoC). These findings have highlighted the potential for the development of simple brain-computer interfaces (BCI) as a diagnosis in behaviourally unresponsive patients.OBJECTIVES: This study here reviews current EEG-based BCIs that hold potential for assessing and eventually assisting patients with DoC. It highlights key areas for further development that might eventually make their application feasible in this challenging patient group.METHODS: The major types of BCIs proposed in the literature are considered, namely those based on the P3 potential, sensorimotor rhythms, steady state oscillations and slow cortical potentials. In each case, a brief overview of the relevant literature is provided and then their relative merits for BCI applications in DoC are considered.RESULTS: A range of BCI designs have been proposed and tested for enabling communication in fully conscious, paralysed patients. Although many of these have potential applicability for patients with DoC, they share some key challenges that need to be overcome, including limitations of stimulation modality, feedback, user training and consistency.CONCLUSION: Future work will need to address the technical and practical challenges facing reliable implementation at the patient's bedside.

AB - BACKGROUND: Recent neuroimaging research has strikingly demonstrated the existence of covert awareness in some patients with disorders of consciousness (DoC). These findings have highlighted the potential for the development of simple brain-computer interfaces (BCI) as a diagnosis in behaviourally unresponsive patients.OBJECTIVES: This study here reviews current EEG-based BCIs that hold potential for assessing and eventually assisting patients with DoC. It highlights key areas for further development that might eventually make their application feasible in this challenging patient group.METHODS: The major types of BCIs proposed in the literature are considered, namely those based on the P3 potential, sensorimotor rhythms, steady state oscillations and slow cortical potentials. In each case, a brief overview of the relevant literature is provided and then their relative merits for BCI applications in DoC are considered.RESULTS: A range of BCI designs have been proposed and tested for enabling communication in fully conscious, paralysed patients. Although many of these have potential applicability for patients with DoC, they share some key challenges that need to be overcome, including limitations of stimulation modality, feedback, user training and consistency.CONCLUSION: Future work will need to address the technical and practical challenges facing reliable implementation at the patient's bedside.

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KW - Female

KW - Humans

KW - Male

KW - User-Computer Interface

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JO - Brain Injury

JF - Brain Injury

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Brain-computer interfacing in disorders of consciousness

Abstract

Keywords

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