One embodiment provides a method, including: obtaining EEG data from one or more single channel EEG sensor worn by a user; classifying, using a processor, the EEG data as one of nominal and abnormal; and providing an indication associated with a classification of the EEG data. Other embodiments are described and claimed.

One embodiment provides a method, including: obtaining EEG data from one or more single channel EEG sensor worn by a user; classifying, using a processor, the EEG data as one of nominal and abnormal; and providing an indication associated with a classification of the EEG data. Other embodiments are described and claimed.

One embodiment provides a method, including: obtaining EEG data from one or more single channel EEG sensor worn by a user; classifying, using a processor, the EEG data as one of nominal and abnormal; and providing an indication associated with a classification of the EEG data. Other embodiments are described and claimed.

In alternative embodiments, provided are products of manufacture, including devices and integrated systems, and methods, for reducing error-related negativity (ERN) and anxiety, and for treating or ameliorating Anxiety Disorders such as Generalized Anxiety Disorder (GAD) or Social Anxiety Disorder (SAD) and obsessive-compulsive disorder (OCD).

In alternative embodiments, provided are products of manufacture, including devices and integrated systems, and methods, for reducing error-related negativity (ERN) and anxiety, and for treating or ameliorating Anxiety Disorders such as Generalized Anxiety Disorder (GAD) or Social Anxiety Disorder (SAD) and obsessive-compulsive disorder (OCD).

One embodiment provides a method, including: obtaining EEG data from one or more single channel EEG sensor worn by a user; classifying, using a processor, the EEG data as one of nominal and abnormal; and providing an indication associated with a classification of the EEG data. Other embodiments are described and claimed.

One embodiment provides a method, including: obtaining EEG data from one or more single channel EEG sensor worn by a user; classifying, using a processor, the EEG data as one of nominal and abnormal; and providing an indication associated with a classification of the EEG data. Other embodiments are described and claimed.

The devices and methods described below provide for more convenient stereo-electro-encephalography, which may allow the patient to move freely during the days-long monitoring period. The system includes a number of depth SEEG electrodes. In one version of the system, each SEEG electrodes are wirelessly connected to an EEG console, through a subcutaneous electrode which is connected to the SEEG electrode through a conductor. The subcutaneous electrode is in turn wirelessly connected to a supra-cutaneous appliance operable to obtain SEEG signals, generated by the SEEG electrode, through the subcutaneous electrode. The method of use entails implantation of the depth SEEG electrodes deep in the brain, implantation of the subcutaneous electrodes under the scalp. The patient need not be physically connected to a console or control system, and may be ambulatory for the SEEG protocol period.

The devices and methods described below provide for more convenient stereo-electro-encephalography, which may allow the patient to move freely during the days-long monitoring period. The system includes a number of depth SEEG electrodes. In one version of the system, each SEEG electrodes are wirelessly connected to an EEG console, through a subcutaneous electrode which is connected to the SEEG electrode through a conductor. The subcutaneous electrode is in turn wirelessly connected to a supra-cutaneous appliance operable to obtain SEEG signals, generated by the SEEG electrode, through the subcutaneous electrode. The method of use entails implantation of the depth SEEG electrodes deep in the brain, implantation of the subcutaneous electrodes under the scalp. The patient need not be physically connected to a console or control system, and may be ambulatory for the SEEG protocol period.

Some systems, devices and methods detailed herein provide a system for use in determining metrics of a subject. The system can provide, as an output, a function-metric value determined based on a defined relationship between physiological measures and a chronological age.