EEG-­based monitoring of anesthetic depth is intended to complement traditional monitoring methods during anesthesia. Its primary aim is to adapt anesthesia to individual needs so patients can recover more quickly and be at lower risk for awareness while under anesthesia. EEG-based monitoring of anesthetic depth reduces by a few minutes the after intravenous anesthesia (limited scientific evidence). The time saved has not been shown to have any clinical or economic significance. Whether or not monitoring of anesthetic depth affects the after inhalational anesthesia cannot be determined (contradictory scientific evidence). Regarding the (, time until discharge), scientific evidence on the effects of EEG­based monitoring of anesthetic depth is contradictory. Whether or not EEG-based monitoring of anesthetic depth reduces the risk of during anesthesia cannot be assessed (insufficient scientific evidence). Whether or not EEG-based monitoring of anesthetic depth has any effect on , or on the incidence of post­anesthesia , cannot be determined (contradictory scientific evidence). Whether or not EEG-based monitoring of anesthetic depth in risk patients has a positive effect on post­anesthesia (insufficient scientific evidence), or reduces the risk of during anesthesia (contradictory scientific evidence), cannot be determined. In summary, as regards general anesthesia, the scientific evidence is inadequate to support routine use of EEG­based monitoring of anesthetic depth aimed at reducing the incidence of awareness or decisively improving patient recovery.