Intracranial electroencephalographic changes in deep anesthesia

Objective: it is well known that electroencephalograms (EEGs) show electric al silence in deep anesthesia as well as brain death. This is the first rep ort on intracranial EEG changes in deep anesthesia. Methods: We developed a new direct brain monitoring system capable of recor ding intracranial EEGs. This study included 13 patients with head trauma or cerebrovascular accident under deep anesthesia. Results: The intracranial EEGs showed different patterns of wave activity i n depth compared with the cortical surface. In 3 of the cases, the scalp EE C showed a flat tracing at 2.0-2.5% of isoflurane. In two of the cases, the intracranial EEGs showed electrical silence when the scalp EEG was flat. D ecreasing the concentration of isoflurane to 1.5%, the intracranial EEG sho wed single paroxysmal appearance of 'revival' theta waves on the electrocor ticogram (ECoG) or electroventriculogram (EVG). The intracranial 'revival' wave was followed by high-voltage burst-waves. In another case, at 2.0-2.5% of isoflurane, the amplitude of the waves was greatest on the EVG. Conclusion: There is wave activity difference in the brain depth, which the scalp EEG is unable to show. Intracranial EEGs are able to show the first signs of revival after a nearly flat tracing in deep anesthesia. (C) 2001 E lsevier Science Ireland Ltd. All rights reserved.