Time-variant non-linear phase-coupling analysis of EEG burst patterns in sedated patients during electroencephalic burst suppression period

Objectives: The quadratic phase-coupling QPC within burst patterns during e lectroencephalic burst suppression has been quantified. Methods: It can be shown that a QPC exists between the frequency ranges 0-2 .5 and 3-7.5 Hz and between the frequency ranges 0-2.5 and 8-12 Hz. By mean s of time-variant bicoherence analysis, a strong phase-locking between the modulating and the modulated component can be identified. The phase-locking is demonstrable within the first 250 ms after the burst onset and comes up to the maximum between 750 and 1250 ms. Results: The effect is maintained over the whole first part of the burst (2 s) with a decreasing tendency after 1250 ms. All these effects cannot be f ound in the EEG before: entering the burst suppression period (BSP). The tr ansient coupling phenomena in the EEG bursts during BSP can be regarded as indicators for short-term interrelations between the underlying electrophys iologic processes. Conclusions: It can be suggested that the method introduced for the quantif ication of the sedation depth should be used. (C) 2001 Elsevier Science Ire land Ltd. All rights reserved.