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Sound Waves Enhance Deep Sleep and Memory

Summary: Gentle noise stimulation can enhance sleep quality and improve memory in older people, a new study reports.

Source: Northwestern University.

Pink noise synced to brain waves deepens sleep and boosts memory in older adults.

Gentle sound stimulation — such as the rush of a waterfall — synchronized to the rhythm of brain waves significantly enhanced deep sleep in older adults and improved their ability to recall words, reports a new Northwestern Medicine study.

Deep sleep is critical for memory consolidation. But beginning in middle age, deep sleep decreases substantially, which scientists believe contributes to memory loss in aging.

The sound stimulation significantly enhanced deep sleep in participants and their scores on a memory test.

“This is an innovative, simple and safe non-medication approach that may help improve brain health,” said senior author Dr. Phyllis Zee, professor of neurology at Northwestern University Feinberg School of Medicine and a Northwestern Medicine sleep specialist. “This is a potential tool for enhancing memory in older populations and attenuating normal age-related memory decline.”

The study was published March 8 in Frontiers in Human Neuroscience.

In the study, 13 participants 60 and older received one night of acoustic stimulation and one night of sham stimulation. The sham stimulation procedure was identical to the acoustic one, but participants did not hear any noise during sleep. For both the sham and acoustic stimulation sessions, the individuals took a memory test at night and again the next morning. Recall ability after the sham stimulation generally improved on the morning test by a few percent. However, the average improvement was three times larger after pink-noise stimulation.

The older adults were recruited from the Cognitive Neurology and Alzheimer’s Disease Center at Northwestern.

The degree of slow wave sleep enhancement was related to the degree of memory improvement, suggesting slow wave sleep remains important for memory, even in old age.

Although the Northwestern scientists have not yet studied the effect of repeated nights of stimulation, this method could be a viable intervention for longer-term use in the home, Zee said.

Previous research showed acoustic simulation played during deep sleep could improve memory consolidation in young people. But it has not been tested in older adults.

The new study targeted older individuals — who have much more to gain memory-wise from enhanced deep sleep — and used a novel sound system that increased the effectiveness of the sound stimulation in older populations.

The study used a new approach, which reads an individual’s brain waves in real time and locks in the gentle sound stimulation during a precise moment of neuron communication during deep sleep, which varies for each person.

During deep sleep, each brain wave or oscillation slows to about one per second compared to 10 oscillations per second during wakefulness.

Giovanni Santostasi, a study coauthor, developed an algorithm that delivers the sound during the rising portion of slow wave oscillations. This stimulation enhances synchronization of the neurons’ activity.

After the sound stimulation, the older participants’ slow waves increased during sleep.

Image shows an alarm clock.

The degree of slow wave sleep enhancement was related to the degree of memory improvement, suggesting slow wave sleep remains important for memory, even in old age. NeuroscienceNews.com image is for illustrative purposes only.

Larger studies are needed to confirm the efficacy of this method and then “the idea is to be able to offer this for people to use at home,” said first author Nelly Papalambros, a Ph.D. student in neuroscience working in Zee’s lab. “We want to move this to long-term, at-home studies.”

Northwestern scientists, under the direction of Dr. Roneil Malkani, assistant professor of neurology at Feinberg and a Northwestern Medicine sleep specialist, are currently testing the acoustic stimulation in overnight sleep studies in patients with memory complaints. The goal is to determine whether acoustic stimulation can enhance memory in adults with mild cognitive impairment.

Previous studies conducted in individuals with mild cognitive impairment in collaboration with Ken Paller, professor of psychology at the Weinberg College of Arts and Sciences at Northwestern, have demonstrated a possible link between their sleep and their memory impairments.

About this neuroscience research article

Other Northwestern authors on the study are Paller, Sandra Weintraub and Rosemary Braun.

Northwestern has a patent pending for the technology. Santostasi is a cofounder of DeepWave Technologies, Inc., which plans to commercialize the technology.

Source: Marla Paul – Northwestern University
Image Source: NeuroscienceNews.com image is in the public domain.
Original Research: Full open access research for “Acoustic Enhancement of Sleep Slow Oscillations and Concomitant Memory Improvement in Older Adults” by Nelly A. Papalambros, Giovanni Santostasi, Roneil G. Malkani, Rosemary Braun, Sandra Weintraub, Ken A. Paller and Phyllis C. Zee in Frontiers in Human Neuroscience. Published online March 8 2017 doi:10.3389/fnhum.2017.00109

Cite This NeuroscienceNews.com Article
Northwestern University “Sound Waves Enhance Deep Sleep and Memory.” NeuroscienceNews. NeuroscienceNews, 25 April 2017.
<http://neurosciencenews.com/pink-noise-sleep-memory-6508/>.
Northwestern University (2017, April 25). Sound Waves Enhance Deep Sleep and Memory. NeuroscienceNew. Retrieved April 25, 2017 from http://neurosciencenews.com/pink-noise-sleep-memory-6508/
Northwestern University “Sound Waves Enhance Deep Sleep and Memory.” http://neurosciencenews.com/pink-noise-sleep-memory-6508/ (accessed April 25, 2017).

Abstract

Acoustic Enhancement of Sleep Slow Oscillations and Concomitant Memory Improvement in Older Adults

Acoustic stimulation methods applied during sleep in young adults can increase slow wave activity (SWA) and improve sleep-dependent memory retention. It is unknown whether this approach enhances SWA and memory in older adults, who generally have reduced SWA compared to younger adults. Additionally, older adults are at risk for age-related cognitive impairment and therefore may benefit from non-invasive interventions. The aim of this study was to determine if acoustic stimulation can increase SWA and improve declarative memory in healthy older adults. Thirteen participants 60–84 years old completed one night of acoustic stimulation and one night of sham stimulation in random order. During sleep, a real-time algorithm using an adaptive phase-locked loop modeled the phase of endogenous slow waves in midline frontopolar electroencephalographic recordings. Pulses of pink noise were delivered when the upstate of the slow wave was predicted. Each interval of five pulses (“ON interval”) was followed by a pause of approximately equal length (“OFF interval”). SWA during the entire sleep period was similar between stimulation and sham conditions, whereas SWA and spindle activity were increased during ON intervals compared to matched periods during the sham night. The increases in SWA and spindle activity were sustained across almost the entire five-pulse ON interval compared to matched sham periods. Verbal paired-associate memory was tested before and after sleep. Overnight improvement in word recall was significantly greater with acoustic stimulation compared to sham and was correlated with changes in SWA between ON and OFF intervals. Using the phase-locked-loop method to precisely target acoustic stimulation to the upstate of sleep slow oscillations, we were able to enhance SWA and improve sleep-dependent memory storage in older adults, which strengthens the theoretical link between sleep and age-related memory integrity.

“Acoustic Enhancement of Sleep Slow Oscillations and Concomitant Memory Improvement in Older Adults” by Nelly A. Papalambros, Giovanni Santostasi, Roneil G. Malkani, Rosemary Braun, Sandra Weintraub, Ken A. Paller and Phyllis C. Zee in Frontiers in Human Neuroscience. Published online March 8 2017 doi:10.3389/fnhum.2017.00109

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