This study will evaluate the ability of sounds played during slow wave sleep using a phase locked loop algorithm to enhance slow wave sleep and memory in cognitively healthy older adults and in those with amnestic mild cognitive impairment.
Alzheimer's disease is a degenerative disorder associated with aging and presents a significant human and financial burden. Amnestic mild cognitive impairment (aMCI) is a disorder of impaired memory and is a precursor to Alzheimer's disease. Current treatments are symptomatic and do not slow disease progression. There is increasing evidence linking sleep and cognition, such that decreased sleep, particularly slow wave sleep (physiologically slow wave activity; SWA), is associated with impaired cognitive performance. Not only does SWA decrease with aging, it is much less in people with aMCI than cognitively normal elderly. Interventions that improve sleep may also improve cognition. Auditory stimulation using sounds played through headphones or speakers during sleep have been shown to increase SWA and memory in young adults. Because this method plays sounds at fixed intervals, its ability to enhance SWA may be limited. Investigators have developed an improved method that measures slow waves during sleep in real time and delivers the sound at a particular phase of the slow wave (phase locked loop; PLL). Given that people with aMCI have low SWA, this method may be able to improve cognition by enhancing SWA. Our objective is to determine whether the PLL method of auditory stimulation can increase SWA and improve cognition in people with aMCI. Investigators propose a randomized sham-controlled cross-over study of auditory stimulation that population. The specific aims are: 1. to determine a dose and duration of stimulation required to increase SWA by 10% in people with aMCI; 2. to determine the effect of the stimulus on cognitive performance in people with aMCI using word pair recall and the NIH Toolbox cognitive battery, which includes tests in multiple cognitive domains. Investigators will recruit 15 participants with aMCI identified through the Northwestern University Cognitive Neurology and Alzheimer's Disease Center Clinical Core. Participants will undergo 2 separate nights of polysomnography (stimulation and sham) and cognitive testing on stimulation and sham visits. There will be approximately 1 week between overnight visits. The order of stimulation and sham will be randomized. Results study will be used to determine the optimal stimulation parameters, provide preliminary data on its potential effect, and guide design of future studies.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
23
The intervention is a brain computer interface program which measures brain electroencephalogram to identify slow waves and time the sounds. Barely audible sounds are delivered through headphones and played during sleep (specifically, during slow wave sleep).
The brain electroencephalogram is measured and headphones are worn, but sounds are not played during sleep.
Northwestern University
Chicago, Illinois, United States
Memory performance on a word pair recall
Participants will initially view word pairs on a computer screen. Participants then complete a recall, where they are presented with one word and freely recall the second word from the pair. Participants complete word pair recall prior to sleep and then again after waking in the morning. This test is completed during both experiment visits.
Time frame: Through study completion, approximately 1.5 years.
NIH Cognition Toolbox - Composite score
Participants will complete the NIH toolbox in the morning following both experimental nights. The investigators are evaluating composite scores from the NIH Cognition Toolbox between the two nights.
Time frame: Through study completion, approximately 1.5 years.
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.