Anxiety & Depression Association of America

Prediction of Anxiety and Memory State

Purpose

The purpose of this study is to look at how signals in the brain, body, and behavior relate to anxiety and memory function. This project seeks to develop the CAMERA (Context-Aware Multimodal Ecological Research and Assessment) platform, a state-of-the-art open multimodal hardware/software system for measuring human brain-behavior relationships. The R61 portion of the project is designed to develop the CAMERA platform, which will use multimodal, passive sensor data to predict anxiety-memory state in patients undergoing inpatient monitoring with intracranial electrodes for clinical epilepsy, as well as to build CAMERA's passive data framework and active data framework.

Conditions

Anxiety
Memory
Epilepsy

Eligibility

Eligible Ages: Between 18 Years and 55 Years
Eligible Genders: All
Accepts Healthy Volunteers: No

Inclusion Criteria

Patients must have known or suspected Temporal Lobe Epilepsy. - Native or proficient in speaking English or Spanish. - Stereoelectroencephalography (sEEG) cases: The implant plan must include hippocampal head, body, and tail electrodes either unilaterally or bilaterally. - 7th grade reading level (minimum level considered literate for adults)

Exclusion Criteria

Hearing impaired (i.e., not corrected with a hearing aid) - Unable to read the newspaper at arm's length with corrective lenses. - Objective intellectual impairment (estimated IQ < 70) - Any history of Electroconvulsive Therapy or psychosis (except postictal psychosis for patients) - Psychotic disorder (lifetime) - Current Anxiety disorder, Major Depressive Disorder, or Bipolar Disorder - Neurodegenerative diseases, presence of widespread brain lesions, language problems (other than naming difficulty) - Medical conditions that could potentially affect cognitive performance (e.g., human immunodeficiency virus (HIV) infection, cancer with metastatic potential). - Acute renal failure or end-stage renal disease

Study Design

Phase
Study Type: Observational
Observational Model: Cohort
Time Perspective: Prospective

Arm Groups

Arm	Description	Assigned Intervention
CAMERA	Adult subjects with epilepsy will undergo noninvasive video Electroencephalography (EEG) and intracranial electrodes sampling the amygdala and hippocampus (unilateral or bilateral). A subset of subjects (n=10) will use the Context-Aware Multimodal Ecological Research and Assessment (CAMERA) platform for 2 weeks after discharge with a subset of modalities: physiologic wristband, smartphone phenotyping, ecological momentary assessment (EMA) surveys, and memory task. At unpredictable intervals, CAMERA will interrupt subjects with: (a) an audible alarm to elicit an acoustic startle response; (b) a self-reported anxiety state scale; and (c) a visuospatial memory task with threat interference. For example, participants will fill out a brief survey and play a video game several times each day and wear a wristband with sensors.	Other: CAMERA (Context-Aware Multimodal Ecological Research and Assessment) The CAMERA platform is a multimodal, hardware-software framework for measuring brain-behavior interactions in an unstructured environment and predict ecological states. CAMERA will use multimodal, passive sensor data to predict anxiety-memory state in patients undergoing inpatient monitoring with intracranial electrodes for clinical epilepsy. CAMERA consists of: Wristband sensors of autonomic physiologic signals, emphasizing heart rate metrics and electrodermal activity; Smartphone usage, emphasizing natural language processing of text input for linguistic features; Subject-tracking audiovisual array, emphasizing subject vocal activity; Intracranial neural recordings, emphasizing hippocampal theta power and high-frequency activity (~70-200 Hz).

Recruiting Locations

More Details

Status: Recruiting
Sponsor: Columbia University

Study Contact

Brett Youngerman, MD
516-946-2145
bey2103@cumc.columbia.edu

Detailed Description

CAMERA will record neural, physiological, behavioral, and environmental signals, as well as measurements from ecological momentary assessments (EMAs), to develop a continuous high-resolution prediction of a person's level of anxiety and cognitive performance. CAMERA will provide a significant advance over current methods for human behavioral measurement because it leverages the complementary features of multimodal data sources and combines them with interpretable machine learning to predict human behavior. A further distinctive aspect of CAMERA is that it incorporates context-aware, adaptive EMA, where the timing of assessments depends on the subject's physiology and behavior to improve response rates and model learning. In this study, CAMERA focuses on predicting anxiety state and concurrent memory performance, but the platform is flexible for use in various domains. Currently, it is challenging to study complex, longitudinal relationships between the brain, body, and environment in humans. Most existent tools do not allow the investigator to measure transient internal states or cognitive functions comprehensively or continuously. Instead the investigators typically rely on sparsely collected and constrained self-reports or experimental constructs, including EMA.

Notice

Study information shown on this site is derived from ClinicalTrials.gov (a public registry operated by the National Institutes of Health). The listing of studies provided is not certain to be all studies for which you might be eligible. Furthermore, study eligibility requirements can be difficult to understand and may change over time, so it is wise to speak with your medical care provider and individual research study teams when making decisions related to participation.