Modulation of Emotion Perception in Humans Via Amygdala Stimulation

This study will enroll patients with epilepsy who are being evaluated for epilepsy surgery and have intracranial EEG electrodes. In this study, the aim is to record brain signals from areas important in social and emotional processing and to understand how electrical brain stimulation - called neuromodulation - affects such processing. Patients enrolled in this study will be asked to view images depicting a variety of emotionally positive, negative, or neutral themes. As the patient views these images, a small amount of imperceptible and painless electric current will be used to map function of certain parts of a human brain. The overarching goal of the study is to determine if neuromodulation can be used in certain areas of the brain to treat cognitive disorders such as memory loss and post-traumatic stress disorder.

One to two study tasks will be performed by each participant to help us understand how the brain processes emotion and how stimulation effects emotional processing. These study tasks will last up to several minutes each, and generally require participants to view pictures while EEG recordings are made from the electrodes placed in specific areas of the brain. The routine video/EEG monitoring and brain function testing should not be disrupted or prolonged by the study testing, and if a participant has a seizure during the testing, it will be recorded as usual for review by participant's providers. The following study procedures will likely be carried out in each individual case: Recording from areas important in social and emotional processing. A computer monitor will be used to present pictures of people engaged in social interaction. Additionally, the researchers will present individual participants with well standardized tasks designed to understand the nature of emotions. Some of these images may be emotionally disturbing. Should participants become uncomfortable with viewing such images, participants would be provided with a choice to not participate in this study. Using brain stimulation to map function of certain parts of your brain. A brain stimulator will be used -normally used to map where important brain regions are located-to understand new functions of the brain. Each participant will be presented with pictures on a computer screen. As participant(s) views these pictures, the brain stimulator may be activated (this is not something that is felt by a person) and an electrical stimulation through the implanted electrodes will be delivered to specific regions of the brain. Research team will be measuring how brain stimulation may affect each individual's emotional response to a specific stimulus. Completing the Emotion Self-Rating (ESR) Scale. This questionnaire will be given to ensure the stimulation doesn't increase any unpleasant emotional experience for participants. This will take place before and during the stimulation of a specific part of the brain.

The researchers will use computerized randomization of electrical stimulation for each participant. The stimulation vs non stimulation are not discrete events and occur in random order within individual participants during each daily testing session.

This part will include 24 randomly chosen images from each of four categories (total of 96 images varying in valence and arousal) and will be presented block-randomized amygdala stimulation.

This part will include 24 randomly chosen images from each of four categories (total of 96 images varying in valence and arousal) and will be presented without amygdala stimulation.

We will use a computer randomized stimulation of specific areas in the amygdala while showing a computer randomized set of pictures.

Better understand neural circuits responsible for processing valence as measured by the power in the gamma band in the valence circuit

Intracranial electroencephalogram (EEG) oscillatory rhythms from the valence circuit, including the amygdala and, as available, the anterior insula, the dorsal anterior cingulate, and ventromedial prefrontal lobe will be measured during performance of the Affective Valence Perception Task.

Better understand the neural circuits responsible for processing valence by measuring negative and positive valence.

Intracranial electroencephalogram (EEG) oscillatory rhythms from the valence circuits, including amygdala and, as available, the anterior insula, the dorsal anterior cingulate, and ventromedial prefrontal lobe will be measured during performance of the Affective Valence Perception Task.

Measure whether amygdala can be a suitable DBS target through comparison of EEG and reported perceptions.

Through administration of the electrical stimulation to the human amygdala while presenting participants with emotion producing pictures, researchers hope to analyze the differences in effects on reported perceptions by individual participants. These findings would allow to further determine whether the human amygdala is a suitable DBS target to treat certain psychiatric disorders.

Inclusion Criteria: Age of 18 years or older FSIQ 75 and above or any equivalent test of generalized intelligence as determined by the PI to adequately predict engagement in the task Able to give independent consent for participation in the study Exclusion Criteria: Additional neurological disorders (such as dementia, stroke, brain tumor, etc.) Any psychiatric condition that would limit their ability to provide consent and/or perform study tasks within normal limits. This would be based on presurgical psychiatric assessment. Anything else, that in the opinion of the principal investigator, might preclude them from participating in the study

The study results will be available on ClinicalTrials.gov and will be published in appropriate clinical journal upon completion.