Wayfinding Intervention and Long-Term Memory — Quest-Tablet  

Mild Cognitive Impairment Clinical Trial

Official title: Virtual Reality Interventions to Stimulate Capabilities for Learning and Retrieval of High-Fidelity Memory

Status Recruiting

Clinical Trial Summary

Therapeutic treatment is yet available for declining memory, which is an impairment affecting the quality of life for many older adults and patients with cognitive impairment. Cognitive training with an immersive video game promises to drive hippocampal-cortical plasticity and associated gains that can restore memory capability or provide therapeutic treatment for memory deficits.

Clinical Trial Description

A hallmark of higher cognition is the capability for flexible association of diverse bits of information stored in memory, such that experiences can be remembered in detailed and distinct terms (i.e., high-fidelity long-term memory). Interventions capable of sustaining improved learning and flexible association of new information into long-term memory (LTM) have shown promising pilot results, and further development is expected to find treatments to attenuate the decline of high-fidelity LTM in normal aging or provide therapeutic treatment for patients with cognitive impairment without dementia (i.e., MCI). This project applies a translational neuroscience approach in further development of a cognitive training intervention that targets sustained improvement in capabilities for long-term memory (LTM) and cognitive control. Treatments use commercially available head-mounted display Virtual Reality (VR) technology and tablet computers to present a deeply immersive spatial wayfinding video game. Based on preliminary results, the hypothesis is that immersion in a game to navigate errands through unfamiliar, visually complex neighborhoods (i.e., wayfinding) will be an effective means to environmental enrichment, which refers to a process whereby new and complex experiences bring change to brain and behavior. Research in humans shows that learning a new, enriched environment spurs the healthy function of the hippocampus and supports lifelong neurogenesis. Adult-borne hippocampal neurogenesis has been linked as the neurobiological basis for the formation of new, high-fidelity memories. The significance of this project includes functionality for remote training procedures (i.e., at home). The availability for participants to complete some of the experiment procedures at home will expand enrollment opportunities and prove the practicality of the intervention outside of a clinical setting. The Labyrinth spatial wayfinding game uses 3D and 2.5D computer graphics tools to present dozens of levels of adaptive challenge and deliver a dynamic, engaging experience for participants throughout the training regimen. In this project, participants will effect game movement using hand controllers while playing the game in a seated position. For each participant, pre- and post-training assessments will occur promptly before and after their 15 to 20-hour training regimen. Cognitive outcome measures will assess capabilities for high-fidelity LTM retrieval and control of sustained visual attention, and some measures will include collection of associated functional MRI (fMRI) and structural MRI data. Effectiveness of the wayfinding game intervention will be evidenced by post-training improvements in retrieval of high-fidelity LTM and cognitive control capabilities. FMRI results associated with the measured cognitive improvements will localize changes in functional brain networks that support gains in memory capabilities. Structural MRI measures will assess morphometric and volumetric changes from pre- to post-training assessments. ;

Related Conditions & MeSH terms

• Cognitive Dysfunction
• Long-Term Memory Decline
• Mild Cognitive Impairment

• NCT number: NCT05625425
• Study type: Interventional
• Source: University of California, San Francisco
• Contact: Melissa Arioli
• Phone: 415-502-7321
• Email: melissa.arioli@ucsf.edu
• Status: Recruiting
• Phase: N/A
• Start date: January 1, 2024
• Completion date: January 31, 2026