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Clinical Trial Summary

Down Syndrome (DS) is characterized by an additional copy of chromosome 21, which also increases risk of Alzheimer's Disease (AD). The investigators' lab found a non-invasive way to remove toxic proteins from the brain in AD mouse models. Remarkably, treated mice also have improved memory on behavioral testing. The investigators then translated this non-invasive method, which uses light and sound to stimulate the brain, to be used in mild Alzheimer's patients and cognitively normal adults. The investigators have also translated this research into a vibrating speaker device to study tactile vibration to stimulate the brain as well. For the present study, 30 participants with Down Syndrome and 30 cognitively normal adult controls will be recruited, and the investigators will assess their brain waves with electroencephalogram (EEG) during light, sound, and tactile stimulation. The investigators will also test for safety, feasibility, and cognitive performance before and after a 30-60 minute session of light and sound stimulation to optimize the stimulation devices for use in the DS population.


Clinical Trial Description

The hallmark sign of Down Syndrome (DS) is an additional copy of chromosome 21, which is also a risk factor of Alzheimer's Disease (AD). Given the significantly increased likelihood of developing AD in DS, it is imperative to study the impact of a possible disease modifying therapeutic both in the prevention of progression to dementia as well as for changing the course of memory disorders in this population. Development of a non-invasive medical device that is effective in slowing cognitive impairment is not only revolutionary but also possibly cost- effective. Information processing in the brain is thought to occur through synchronized neuronal activity in the form of network oscillations. Disruptions of gamma oscillations, particularly in the 30 - 50 Hz range, are reported as a potential early hallmark of Alzheimer's disease. Using a non-invasive light (LED) flickering at 40 Hz, investigators were able to show entrainment of 40 Hz gamma oscillations in the visual cortex of Alzheimer's mouse models, along with microglia activation and a significant reduction in amyloid load. Similar gamma activity disruptions have been observed in mouse models of Down Syndrome. In initial pilot studies, investigators found that the light and sound device is safe to use in cognitively normal adults and adults with mild AD and that the stimulation at 40Hz can be used to entrain their brain activity. Additionally, investigators have found that a vibrating speaker tactile device is safe to use in cognitively normal adults and can also be used to entrain brain activity. While trials are ongoing in the setting of sporadic Alzheimer's Disease, the purpose of this proposed study is to determine whether gamma entrainment through non-invasive 40Hz sensory stimulation can be observed in participants with Down Syndrome as measured by electroencephalogram (EEG) and an acute stimulation session. The investigators will recruit 30 participants diagnosed with Down Syndrome and 30 cognitively normal participants as a comparison group. Participants will be randomly assigned into one of two study conditions within their participant group: an active condition (40Hz stimulation) and a control condition (sham stimulation) for a 30-60 minute light and sound stimulation session. Cognitive and mental health evaluations as well as memory tests will be performed on all participants, before and after exposure to the GENUS light and sound device for 30-60 minutes, which can deliver light and sound waves at different frequencies. The GENUS device is composed of a panel with light-emitting diode (LED) illumination and speakers for auditory stimulation. In addition to the stimulation session, the investigators will also use electroencephalography (EEG) to check how the participant's brain waves respond to the stimulation, and use questionnaires to evaluate for safety and tolerability. The investigators will also use EEG to check how a subset of the participants (10 total individuals) respond to tactile stimulation using a vibrating speaker device. The tactile stimulation will simply be an additional condition during the EEG for these 10 individuals, but will not impact the stimulation session or study condition assignments, which involve only light and sound. This study will provide critical insight into potential longitudinal studies involving non-invasive 40Hz sensory stimulation in subjects with Down Syndrome as a potential intervention for the development of AD. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05196984
Study type Interventional
Source Massachusetts Institute of Technology
Contact Gabrielle C de Weck, BS
Phone 6172587723
Email gdeweck@mit.edu
Status Recruiting
Phase N/A
Start date December 6, 2021
Completion date December 31, 2024

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