par Wickering, Ellis;Gaspard, Nicolas 
;Zafar, Sahar S.F.;Moura, Valdery V.J.;Biswal, Siddharth;Bechek, Sophia;O'Connor, Kathryn K.L.;Rosenthal, Eric E.S.;Westover, Michael Brandon
Référence Journal of clinical neurophysiology, 33, 3, page (227-234)
Publication Publié, 2016-06
;Zafar, Sahar S.F.;Moura, Valdery V.J.;Biswal, Siddharth;Bechek, Sophia;O'Connor, Kathryn K.L.;Rosenthal, Eric E.S.;Westover, Michael BrandonRéférence Journal of clinical neurophysiology, 33, 3, page (227-234)
Publication Publié, 2016-06
Article révisé par les pairs
| Résumé : | The purpose of this study is to evaluate automated implementations of continuous EEG monitoring-based detection of delayed cerebral ischemia based on methods used in classical retrospective studies. We studied 95 patients with either Fisher 3 or Hunt Hess 4 to 5 aneurysmal subarachnoid hemorrhage who were admitted to the Neurosciences ICU and underwent continuous EEG monitoring. We implemented several variations of two classical algorithms for automated detection of delayed cerebral ischemia based on decreases in alpha-delta ratio and relative alpha variability. Of 95 patients, 43 (45%) developed delayed cerebral ischemia. Our automated implementation of the classical alpha-delta ratio-based trending method resulted in a sensitivity and specificity (Se,Sp) of (80,27)%, compared with the values of (100,76)% reported in the classic study using similar methods in a nonautomated fashion. Our automated implementation of the classical relative alpha variability-based trending method yielded (Se,Sp) values of (65,43)%, compared with (100,46)% reported in the classic study using nonautomated analysis. Our findings suggest that improved methods to detect decreases in alpha-delta ratio and relative alpha variability are needed before an automated EEG-based early delayed cerebral ischemia detection system is ready for clinical use. |
