Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT05984524 |
| Other study ID # |
NortheasternMINDLabGammaMBI |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
July 1, 2022 |
| Est. completion date |
June 30, 2027 |
Study information
| Verified date |
October 2023 |
| Source |
Northeastern University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The study will test and refine a novel brain-stimulation tool using gamma-frequency lights
coupled with self-selected music for a gamma-music-based intervention for participants with
mild Alzheimer's Disease. Results will yield a gamma-stimulation protocol that reliably
influences brain activity (Aim 1), is adaptive, motivating and rewarding to use (Aim 2), and
will generate predictions as to who might benefit the most from gamma-MBI (Aim 3). By
bridging the gap between neurostimulation and behavioral intervention by combining music
therapy with gamma- band neurostimulation, the present project aims to find a sustainable
intervention that delays the progression of AD.
Description:
Alzheimer's Disease (AD) is characterized by cognitive deficits such as memory loss, as well
as deficits in the motivation that drives daily activities. These cognitive and motivational
deficits are linked to widespread neuronal and synaptic atrophy, coupled with aggregated
extracellular Aβ-plaque and tau deposits, and atypical neural activity across multiple
frequencies. Recent work in mouse models of AD have shown that inducing gamma oscillations
with a non-invasive gamma-frequency (40 Hz) light-flickering and auditory tone-stimulation
regimes reduced Aβ plaques and improved spatial and recognition memory. In humans, restoring
gamma-frequency activity while preserving its phase-amplitude coupling with theta-band
activity are shown to recover human memory performance in older adults, and in patients with
mild AD, thus offering a promising route towards a novel therapy that can prevent brain
atrophy while improving cognition. Despite their recent successes, it is a major challenge to
translate gamma-frequency neurostimulation from a laboratory study to a behavioral
intervention. The goal is to promote healthy neurocognitive aging using lifestyle
interventions; in particular, interventions that sustainably elevate mood and reward
motivated behavior while encouraging social bonding may be most promising in slowing the
progression of AD. Music listening engages multiple brain networks involved in sensory
processing, movement, language, attention, learning and memory, emotion and reward, and
social connectedness. Music-Based Interventions (MBIs) have the potential to manage symptoms,
slow disease progression, and improve quality of life. This study will test a novel protocol
for music-based brain stimulation, gamma-MBI: gamma-light stimulation that automatically
adapts to music-based intervention. Harnessing the fact that music listening is an
intrinsically rewarding activity, the study uses music as a carrier for gamma sensory
stimulation. As music contains theta-band acoustic energy, music listening is a form of
theta- band noninvasive brain stimulation. A novel brain-stimulation tool will be tested
using gamma-frequency lights coupled with self-selected music for a gamma-music-based
intervention for participants with mild Alzheimer's Disease. Results will yield a
gamma-stimulation protocol that reliably influences brain activity (Aim 1), is adaptive,
motivating and rewarding to use (Aim 2), and will generate predictions as to who might
benefit the most from gamma-MBI (Aim 3). By bridging the gap between neurostimulation and
behavioral intervention by combining music therapy with gamma-band neurostimulation, the
present project aims to find a sustainable intervention that delays the progression of AD.
