An EEG-driven brain-computer interface combined with functional magnetic resonance imaging (fMRI)

IEEE Transactions on Biomedical Engineering

Volumn 51, Issue 6, 2004, Pages 971-974

  Hinterberger, Thilo ^a   Weiskopf, Nikolaus ^a   Veit, Ralf ^a   Wilhelm, Barbara ^a   Betta, Elena ^b   Birbaumer, Niels ^a,c  

^a UNIVERSITY OF TÜBINGEN   (Germany)

^b ITC IRST   (Italy)

^c UNIVERSITY OF TRENTO   (Italy)

Author keywords

Blood oxygen level dependent (BOLD); Functional MRI; Multi modal imaging; Neurofeedback; Physiological regulation; Slow cortical potentials (SCPs); Thought translation device (TTD)

Indexed keywords

COMPUTER AIDED ANALYSIS; FEEDBACK; MAGNETIC RESONANCE IMAGING; NEUROLOGY; PATIENT MONITORING;

BRAIN-COMPUTER INTERFACE; CORTICAL; PARALYZED;

BRAIN MODELS;

ARTICLE; ARTIFACT; AUTOREGULATION; BRAIN COMPUTER INTERFACE; CASE REPORT; COMPUTER INTERFACE; DEVICE; ELECTROENCEPHALOGRAM; FEEDBACK SYSTEM; HUMAN; NEUROPHYSIOLOGY; NUCLEAR MAGNETIC RESONANCE IMAGING; PARALYSIS; SEIZURE; THOUGHT TRANSLATION DEVICE;

BIOFEEDBACK (PSYCHOLOGY); CEREBRAL CORTEX; ELECTROENCEPHALOGRAPHY; EVOKED POTENTIALS; FEASIBILITY STUDIES; FEEDBACK; HIPPOCAMPUS; HUMANS; IMAGE INTERPRETATION, COMPUTER-ASSISTED; MAGNETIC RESONANCE IMAGING; MOTOR CORTEX; ONLINE SYSTEMS; PILOT PROJECTS; REPRODUCIBILITY OF RESULTS; SENSITIVITY AND SPECIFICITY; USER-COMPUTER INTERFACE;

EID: 2442642831     PISSN: 00189294     EISSN: None     Source Type: Journal    
DOI: 10.1109/TBME.2004.827069     Document Type: Article

References (10)

1. J. R. Wolpaw and D. J. McFarland, "Multichannel EEG-based brain-computer communication," Electroencephalogr. Clin. Neurophysiol., vol. 90, pp. 444-449, 1994.
2. G. Pfurtscheller, D. Flotzinger, M. Pregenzer, J. R. Wolpaw, and D. McFarland, "EEG-based brain computer interface (BCI)," Med. Prog. Through Technol., vol. 21, pp. 111-121, 1996.
3. N. Birbaumer, H. Flor, N. Ghanayim, T. Hinterberger, I. Iverson, E. Taub, B. Kotchoubey, A. Kübler, and J. Perelmouter, "A spelling device for the paralyzed," Nature, vol. 398, pp. 297-298, 1999.
4. T. Hinterberger, J. Mellinger, and N. Birbaumer, "The thought translation device: Structure of a multimodal brain-computer communication system," in Proc. 1st Int. IEEE EMBS Conf. Neural Engineering, Mar. 2003, pp. 603-606.
5. T. Hinterberger, R. Veit, U. Strehl, T. Trevorrow, M. Erb, B. Kotchoubey, H. Flor, and N. Birbaumer, "The relationship between BOLD-signal of fMRI with slow cortical potentials," Exp. Brain Res., vol. 152, pp. 113-122, 2003.
6. J.C. Rajapakse, F. Kruggel, J. M. Maisog, and D. Y. von Cramon, "Modeling hemodynamic response for analysis of functional MRI time-series," Human Brain Map., vol. 6, pp. 283-300, 1998.
7. N. Logothetis, J. Pauls, M. Augath, T. Trinath, and A. Oelterman, "Neurophysiological investigation of the basis of the fMRI signal," Nature, vol. 412, pp. 150-157, 2001.
8. K. Krakow, P. J. Allen, M. R. Symms, L. Lemieux, O. Josephs, and D. R. Fish, "EEG recording during fMRI experiments: Image quality," Human Brain Map., vol. 10, pp. 10-15, 2000.
9. P.J Allen, G. Polizzi, K. Krakow, D. R. Fish, and L. Lemieux, "Identification of EEG events in the MR scanner: The problem of pulse artifact and a method for its subtraction," NeuroImage, vol. 8; pp. 229-239, 1998.
10. K.J. Worsley and K. J. Friston, "Analysis of fMRI time-series revisited again," NeuroImage, vol. 2, no. 3, pp. 173-181, 1995.