Title :
Denoising Depth EEG Signals During DBS Using Filtering and Subspace Decomposition
Author :
Hofmanis, Janis ; Caspary, Olivier ; Louis-Dorr, Valerie ; Ranta, Radu ; Maillard, Louis
Author_Institution :
CRAN, Univ. de Lorraine, Nancy, France
Abstract :
In difficult epileptic patients, the brain structures are explored by means of depth multicontact electrodes [stereoelectroencephalography (SEEG)]. Recently, a novel diagnostic technique allows an accurate definition of the epileptogenic zone using deep brain stimulation (DBS). The stimulation signal propagates in the brain and thus it appears on most of the other SEEG electrodes, masking the local brain electrophysiological activity. The objective of this paper is the DBS-SEEG signals detrending and denoising in order to recover the masked physiological sources. We review the main filtering methods and put forward an approach based on the combination of filtering with generalized eigenvalue decomposition (GEVD). An experimental study on simulated and real SEEG shows that our approach is able to separate DBS sources from brain activity. The best results are obtained by an original singular spectrum analysis-GEVD approach.
Keywords :
bioelectric potentials; biomedical electrodes; eigenvalues and eigenfunctions; electroencephalography; filters; medical disorders; medical signal processing; neurophysiology; signal denoising; source separation; spectral analysis; DBS method; DBS source separation; DBS-SEEG signal denoising; DBS-SEEG signal detrending; SEEG electrode; accurate epileptogenic zone definition; brain activity; deep brain stimulation; denoising depth EEG signal; depth multicontact electrode; diagnostic technique; epileptic patient brain structure; experimental study; filtering method; generalized eigenvalue decomposition; local brain electrophysiological activity masking; masked physiological source recovery; original singular spectrum analysis-GEVD method; real SEEG; simulated SEEG; stereoelectroencephalography; stimulation signal propagation; subspace decomposition; Brain modeling; Electrodes; Electroencephalography; Harmonic analysis; Matrix decomposition; Satellite broadcasting; Blind source separation (BSS); Stereo-electroencephalography (SEEG); deep brain stimulation (DBS); denoising; electroencephalography (EEG); empirical mode decomposition (EMD); epilepsy; filtering; generalized eigenvalue decomposition (GEVD); singular spectrum analysis (SSA); subspace decomposition; Algorithms; Artifacts; Brain; Brain Mapping; Diagnosis, Computer-Assisted; Electroencephalography; Humans; Pattern Recognition, Automated; Reproducibility of Results; Sensitivity and Specificity; Signal Processing, Computer-Assisted; Signal-To-Noise Ratio;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2013.2262212
