MindBEAGLE - A new system for the assessment and communication with patients with disorders of consciousness and complete locked-in syndrom

Guger, C.; Allison, B.; Kammerhofer, A.; Guttmann, F.; Von Oertzen, T. J.; Spataro, R.; La Bella, V.; Annen, Jitka; Laureys, Steven; Heilinger, A.; Ortner, R.; Cho, W.

doi:10.1109/SMC.2017.8123086

Paper published in a book (Scientific congresses and symposiums)

MindBEAGLE - A new system for the assessment and communication with patients with disorders of consciousness and complete locked-in syndrom

Guger, C.; Allison, B.; Kammerhofer, A. et al.

2017 • In 2017 IEEE International Conference on Systems, Man, and Cybernetics, SMC 2017

Peer reviewed

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https://hdl.handle.net/2268/230699

DOI
10.1109/SMC.2017.8123086

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Keywords :

Brain-computer interface; DOC; Locked-in syndrome; Motor imagery; P300; Bioelectric potentials; Cybernetics; Electric batteries; Eye movements; Interfaces (computer); Locks (fasteners); Amyotrophic lateral sclerosis; Classification accuracy; Clinical assessments; Cognitive capability; Communication reliabilities; Brain computer interface

Abstract :

[en] Patients with disorders of consciousness (DOC) cannot reply to questions or clinical assessments using voluntary motor control, and therefore it is very difficult to assess their cognitive capabilities and conscious awareness. Patients who are locked-in (LIS) are instead fully conscious, and they can communicate with their preserved eye movements. However, when the residual oculomotor activity is also lost (e.g., patients with amyotrophic lateral sclerosis disease of very long duration), the locked-in status becomes complete (CLIS). In CLIS patients, detection of conscious awareness may become very challenging, similarly to the subjects with DOC. mindBEAGLE has a physiological testing battery that uses auditory, vibro-tactile and motor imagery paradigms and braincomputer interface (BCI) technology to assess these patients and even provide communication for some of them. The current study presents results from 5 DOC and 3 LIS patients. The auditory evoked potential (AEP) assessement led to classification accuracies between 0 and 90 %, the vibro-tactile P300 paradigms led to 0 % to 100 % accuracy and the motor imagery paradigms led to accuracies up to 83.3 %. Three of the eight patients could succcessfully establish communication with the mindBEAGLE system. The results show that an assessment battery with auditory, vibrotactile and motor imagery paradigms is able to identify cognitive functions of DOC and LIS patients. Patients showed substantial fluctuations in EEG measures, assessment results and communication reliability across different days and runs. Therefore, it is important to have a system available that can quickly and easily determine the status of a patient. Successful communication with these patients is also important. © 2017 IEEE.

Disciplines :

Neurology

Author, co-author :

Guger, C.; G.tec Guger Technologies OG, Graz, Austria

Allison, B.; G.tec Guger Technologies OG, Graz, Austria

Kammerhofer, A.; Dept of Neurology 1, Kepler Universitatsklinikum, Linz, Austria

Guttmann, F.; Dept of Neurology 1, Kepler Universitatsklinikum, Linz, Austria

Von Oertzen, T. J.; Dept of Neurology 1, Kepler Universitatsklinikum, Linz, Austria

Spataro, R.; ALS Clinical Research Center, BioNeC, University of Palermo, Palermo, Italy

La Bella, V.; ALS Clinical Research Center, BioNeC, University of Palermo, Palermo, Italy

Annen, Jitka ; Université de Liège - ULiège > GIGA : Coma Group

Laureys, Steven ; Université de Liège - ULiège > GIGA : Coma Group

Heilinger, A.; G.tec Medical Engineering GmbH, Schiedlberg, Austria

Ortner, R.; G.tec Medical Engineering GmbH, Schiedlberg, Austria

Cho, W.; G.tec Medical Engineering GmbH, Schiedlberg, Austria

Language :

English

Title :

MindBEAGLE - A new system for the assessment and communication with patients with disorders of consciousness and complete locked-in syndrom

Publication date :

2017

Event name :

2017 IEEE International Conference on Systems, Man, and Cybernetics, SMC 2017

Event date :

5 October 2017 through 8 October 2017

Main work title :

2017 IEEE International Conference on Systems, Man, and Cybernetics, SMC 2017

Publisher :

Institute of Electrical and Electronics Engineers Inc.

Pages :

3008-3013

Peer reviewed :

Peer reviewed

Available on ORBi :

since 03 January 2019

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Bibliography

J.R. Wolpaw, N. Birbaumer, D.J. McFarland, G. Pfurtscheller, T.M. Vaughan, .,Brain-computer interfaces for communication and control", Clin Neurophysiol. 113 767-791 (2002)
B. Kotchoubey, J. Kaiser, J. Wolpaw, N. Birbaumer, .,Braincomputer communication: unlocking the locked-in", Psychological Bulletin, 127 358-375, (2001)
J.R. Wolpaw, E.W. Wolpaw, "Brain-Computer Interfaces: Principles &Practice", Oxford University (2012)
N. Birbaumer, B. Blankertz, C. Guger, A. Kuhler, D. Mattia, J.D.R Millan, F. Miralles, A. Nijholt, E. Opisso, N. Ramsey, P. Salomon, G.R. Muller, "BNCI Horizon 2020: towards a roadmap for the BCI community, Brain-Computer Interfaces", 2(1): 1-10
M. Risetti, R. Formasino, J. Toppi, L.R. Ouitadamo, L. Bianchi, L. Astolfi, F. Cincotti, D. Mattia "On ERPs detection in disorders of consciousness rehabilitation" Front Um Neurosci 20;7:775, (2013)
A. Vanhaudenhuyse, J. Giacino, M. Ventura, M. Boly, S. Majerus, G. Moonen, S. Laureys "Diagnostic accuracy of the vegetative and minimally conscious state: Clinical consensus versus standardized neurobehavioral assessement", BMC Neurology, 9:35 , doi: 10.1186/1471-2377-9-35. (2009)
Z.R. Lugo, J. Rodriguez, A. Lechner, R. Ortner, LS. Gantner, A. Kuhler, S. Laureys, Q. Noirhomme, C. Guger .,A vibrotactile P300-based BCI for consciousness detection and communication", Clin EEG and Neurosci (2014)
Q. Noirhomme, S.C. Kleih, C. Chatelle, S. Halder, A. Demertzi, M.-A. Bruno, O. Gosseries, A. Vanhaudenhuyse, C. Schnakers, M. Thonnard, A. Soddu, A. Kuhler, S. Laureys, .,Probing command following in patients with disorders of consciousness using brain-computer interface", Clinical Neurophysiology 124 101-106 (2013)
G. Pfurtscheller, BZ Allison, C. Brunner, G. Bauernfeind, T. Solis-Escalante, R. Scherer, TO Zander, G Mueller-Putz, C. Neuper, N. Birbaumer .,The hybrid BCI" Front Neurosci, 21, 4-30, (2010)
C. Neuner, BZ Allison .,The B of BCIs: Neurofeedback principles and how they can yield clearer brain signals." In: Different psychological perspectives on cognitive processes: current research trends in Apls-Adria region, Cambridge University Press 133-153 (2014)
J.T. Giacino, J.J. Fins, S. Laureys and N.D. Schiff "Disorders of consciousness after acquired brain injury: the state of the science.", Nature Review 10 99-114, (2012)
M. Marchetti, K. Priftis, "Effectiveness of the P3-speller in brain-computer interfaces for amyotrophic lateral sclerosis patients a systematic review and meta-analysis" Front Neuroeng. 1 7-12, (2014)
Irimia, Frontiers (2017) in revision
C. Guger, G. Edlinger, W. Harkam, I. Niedermayer &G. Pfurtscheller .,How many people are able to operate an EEG-based brain-computer interface (BCI)?" IEEE Transactions on Neural Systems and Rehabilitation Engineering, 11 145-7, (2003)
C. Guger, et al. "Brain computer interfaces for assessement and communication in disorders of consciousness" Emerging Theroy and Practice in Neuroprosethethics, Edt: Ganseh R. Naik, Yina Gui, IGI Global 181-214, (2014)
C. Guger, G. Krausz, B.Z. Allison, G. Edlinger, .,Comparison of dry and gel based electrodes for P300 brain-computer interfaces", Frontiers in Neuroscience, 6, 60, (2012)
R. Ortner, J. Scharinger, A. Lechner, C. Guger, .,How many people can control a motor imagery based BCI using common spatial patterns?" Neural Engineering (NER), 7th International IEEE/EMBS Conference. (2015)
C. Guger, H. Ramoser, G. Pfurtscheller, "Real-time EEG analysis with subject-specific spatial patterns for a brain-computer interface (BCI)" IEEE Trans Rehabil Eng. 8(4) 447-56 (2000)
C. Guger, S. Daban, E. Sellers, C. Holzner, G. Krausz, R. Carabalona, F. Gramatica, G. Edlinger .,How many people are able to control a P300 based brain-computer interface (BCI)?" Neurosci Lett. 462(1): 94-8 (2009)
The Muli Society Task Force on PVS. Medical aspects of the persistent vegetative state(1)" N. Eng. J. Med., 330: 1499-150 (1994)
J.T. Giacino, S. Ashwal, N. Childs, et al., "The minimally conscious state: definition and diagnostic criteria" Neurology 58:349-353 (2002)
C. Schnakers, A. Vanhaudenhuyse, J. Giacino, et al. "Diagnostic accuracy of the vegetative and minimally conscious state: clinical consensus versus standardized neurobehavioral assessement" BMC Neurol. 9:35 (2009)
S. Sutton, M. Braren, J. Zubin, ER. John, .,Evoked-potential correlates of stimulus unvertainty". Science 150: 1187-1188 (1965)
A. Furdea, S. Halder, EM Hammer, F. Nijboer, B. Kotchoubey, .,A brain-computer interface controlled auditory event-related potential (P300) spelling system for locked-in patients" Ann N Y Acad Sci. 1157: 90-100 (2009)
S. Lang, G. Mezger, et al. .,Information processing in severe disorders of consciousness: vegetative state and minimally consciousness state." Clin. Neurophysiol. 116: 2441-2453 (2005)
F. Perrin, M. Schabus, et al. .,Detecting consciousness in a total locked-in syndrome an active event-related paradigm". Neurocase 15:271-277 (2009)
C. Guger, et al. "A comparison of face speller approaches for P300 BCIs." Systems, Man, and Cybernetics (SMC), 2016 IEEE International Conference on. IEEE, 2016