Neurofeedback to Aid Vets' Memory

Summary

Participation Requirements

Description

The proposed project is poised to investigate state-of-art neurofeedback (NF; biofeedback of brain activity) training for self-modulation of neural plasticity to boost memory performance in Veterans. The recent advance of NF with Brian-Computer Interface (BCI) has provided a novel way to examine bra...

The proposed project is poised to investigate state-of-art neurofeedback (NF; biofeedback of brain activity) training for self-modulation of neural plasticity to boost memory performance in Veterans. The recent advance of NF with Brian-Computer Interface (BCI) has provided a novel way to examine brain functions and plasticity. Thus far, there have been limited applications that have developed effective experimental and clinical paradigms for rehabilitation in Veterans. Historically, brainwave patterns during memory task performance have been analysed offline, a methodology which does not allow real-time NF modulation and training. The central hypothesis guiding this research is that optimal memory-related brainwave patterns of a Veteran can be trained. The online NF allows maximization of brainwave patterns associated with healthier memory states. The development of efficient NF paradigms to augment memory performance is an important first step for the application of this nonpharmacologic intervention to improve combat Veterans' memory functions and potential for treating MCI due to mild TBI or pain. The pilot work will start with wider range of Veterans using state-of-the-art wearable wireless brain-computer interface headset, which is affordable and can be easily set up in VAMCs and eventually in remote assessment settings. This innovative, cognitive neuroscience based, nonpharmacologic intervention serves to revolutionize the diagnosis and treatment of combat Veterans who are at risk for degenerative dementia.

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