Clinical Trials Directory

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RecruitingNCT06883981

Capturing Autobiographical Memory Formation in Real World Spaces Using Multimodal Recordings

Capturing Autobiographical Memory Formation in People Moving Through Real-World Spaces Using Synchronized Wearables and Intracranial Recordings of EEG

Status
Recruiting
Phase
N/A
Study type
Interventional
Enrollment
50 (estimated)
Sponsor
University of Utah · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Accepted

Summary

The goal of this observational study is to develop novel methods for integrating multimodal data streams with invasive neural recordings to study autobiographical memory (AM) formation in individuals with implanted neurostimulation devices (e.g., NeuroPace RNS) for epilepsy treatment. The main questions it aims to answer are: How does the brain encode and retrieve real-world autobiographical memories? Can multimodal data integration enhance our understanding of memory-related cognitive and neural mechanisms? Participants will: * Use a smartphone-based recording application (CAPTURE app) to collect real-world data. * Have their wearable sensor data (e.g., audio-visual, accelerometry, GPS, autonomic physiology, eye tracking) synchronized with invasive neural recordings. Researchers will analyze these multimodal data streams to develop new analytic approaches for studying memory formation in naturalistic settings, with the long-term goal of informing neuromodulation-based memory enhancement treatments for individuals with memory disorders.

Detailed description

This observational study aims to develop and validate novel methodologies for integrating multimodal data streams with invasive neural recordings in individuals with implanted neurostimulation devices (e.g., NeuroPace RNS) undergoing treatment for epilepsy. The study focuses on understanding the neural mechanisms underlying autobiographical memory (AM) formation and retrieval in real-world settings. By leveraging real-time, ecologically valid data collection, this research seeks to bridge the gap between controlled laboratory-based memory studies and naturalistic memory processes. Study Design and Data Collection Participants with implanted neurostimulation devices will use a smartphone-based application (CAPTURE) to log real-world experiences while wearing additional sensors to record behavioral, physiological, and environmental data. The study integrates multiple data modalities, including: * Neural recordings from implanted neurostimulation devices * Wearable sensor data, including: * Audio-visual recordings * GPS location tracking * Accelerometry for movement analysis * Autonomic physiology measurements (e.g., heart rate, skin conductance) * Eye-tracking data By synchronizing these data streams, researchers will establish a high-fidelity representation of autobiographical memory encoding and retrieval processes in daily life. Analytic Methods and Data Integration This study aims to develop computational frameworks for real-time data alignment and analysis. The primary methodological goals include: * Temporal synchronization of multimodal data with neural recordings * Automated feature extraction from behavioral and physiological data * Neural signal processing techniques to identify patterns of activity associated with memory formation and retrieval * Development of machine learning models to predict successful memory encoding and recall based on neural and behavioral signals * These analytic advancements will enable researchers to assess memory-related brain activity in naturalistic environments, providing insights into the neural correlates of real-world autobiographical memory. Potential Impact: The findings from this study have significant implications for neuroscience, cognitive psychology, and clinical applications. By establishing methods for naturalistic neural recording and analysis, this research paves the way for neuromodulation-based memory enhancement therapies for individuals with memory disorders, including those with epilepsy, traumatic brain injury, and neurodegenerative diseases. The study also advances real-world cognitive neuroscience, enabling a deeper understanding of how the brain supports memory outside of laboratory settings.

Conditions

Interventions

TypeNameDescription
BEHAVIORALFree and Cued Recall Memory. Temporal Sequence and Spatial MemoryMemory for real-world episodic experiences will be tested in the laboratory first with free recall (spoken narration of their recollections from each environment) and then with cued recall, in which participants will be cued with an event image from the CAPTURE app, a map location, or a relative time and asked to recall the other two non-cued pieces of episodic information (event, place, or time). Because we will know the 'ground truth', the cued recall test will allow us to measure how accurately the participant is able to remember key details of each episode. We will also assess temporal order memory by asking participants to arrange 1st person images in the order in which they occurred, and we will assess spatial memory by asking them to place each image on a schematic map of the venue.

Timeline

Start date
2025-01-30
Primary completion
2027-03-01
Completion
2028-03-01
First posted
2025-03-19
Last updated
2025-04-08

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT06883981. Inclusion in this directory is not an endorsement.