Sleep cleans the brain

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Sleep cleans the brain

Post by NHE » Thu Oct 31, 2019 4:25 pm

How Deep Sleep May Help The Brain Clear Alzheimer's Toxins ... ers-toxins
NPR wrote:The brain waves generated during deep sleep appear to trigger a cleaning system in the brain that protects it against Alzheimer's and other neurodegenerative diseases.

Electrical signals known as slow waves appear just before a pulse of fluid washes through the brain, presumably removing toxins associated with Alzheimer's, researchers reported Thursday in the journal Science.

The finding could help explain a puzzling link between sleep and Alzheimer's, says Laura Lewis, an author of the study and an assistant professor in the department of biomedical engineering at Boston University.

"Some disruption to the way sleep is working could potentially be contributing to the decline in brain health," Lewis says.

The finding also suggests that people might be able to reduce their risk of Alzheimer's by ensuring that they get high-quality sleep, says William Jagust, a professor of public health and neuroscience at the University of California, Berkeley, who was not involved in the study.

Scientists are already testing other lifestyle changes, like diet and exercise changes, to protect brain health. And sleep should be "high on the list" of measures worth trying, he says.

The study comes after decades of questions about the link between sleep and Alzheimer's.

Studies show that people with Alzheimer's often have sleep problems. And there's growing evidence that people with sleep problems are more vulnerable to Alzheimer's.

But there has never been a good explanation for this connection.

"It's been known for a long time that sleep is really important for brain health," Lewis says, "but why it is was more mysterious."

Lewis and a team of researchers wanted to solve the mystery.

So they found a way to use cutting-edge MRI techniques and other technologies to watch what was going on in the brains of 11 sleeping people.

One of the things they monitored was cerebrospinal fluid, or CSF, the liquid that flows through the brain and spinal cord.

"And that's when we discovered that during sleep, there are these really large, slow waves occurring maybe once every 20 seconds of CSF washing into the brain," Lewis says.

These waves were a bit like the oscillations of a very slow washing machine.

Earlier studies of animals had found that the flow of CSF increases during sleep and helps carry away waste products, including the toxins associated with Alzheimer's.

But Lewis' team was able to see this process occur in the brains of people — in real time. And that led to another discovery.

"Before each wave of fluid, we would actually see a wave of electrical activity in the neurons," Lewis says. "This electrical wave always happens first, and the CSF wave always seems to follow seconds later."

The finding suggests that the electrical wave was triggering each wash cycle.

And the brain wave in question was a very familiar one called a slow wave. Slow waves appear when a person enters the state known as deep sleep, or non-rapid eye movement sleep.

And they play a role in both memory and brain disease, Lewis says.

"It's already known that people with Alzheimer's disease have less of these electrophysiological slow waves, so they have smaller and fewer slow waves," she says.

The new study suggests that this reduction in slow waves is reducing wash cycles in the brain, which would limit the brain's ability to clear out the toxins associated with Alzheimer's.

"It would make sense that if there's large waves of fluid, of CSF, that that might in turn cause mixing and dispersion with other fluids in the brain and help with this waste removal process," Lewis says.

Lewis' team made one more discovery about sleeping brains. As the flow of cerebrospinal fluid increases, blood flow decreases.

Less blood in the brain means more room for CSF to carry away waste.

The study's findings fit nicely with other research on sleep and Alzheimer's disease, Jagust says.

He was part of a team that studied the relationship between slow-wave sleep and a toxin called beta-amyloid, which accumulates in the brains of people with Alzheimer's.

They found something a bit disturbing.

"It's a vicious cycle where amyloid decreases sleep, and decreased sleep results in more amyloid," Jagust says.

The new study results suggest that the increase in amyloid could be the result of less waste removal in the brain, he says.

But Alzheimer's, like heart disease, is likely to have more than one cause, Jagust says.

"There are a bunch of things that are probably contributing to people's likelihood [of] getting Alzheimer's," he says, "and I think sleep is going to turn out to be one of them."

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Re: Sleep cleans the brain

Post by NHE » Fri Nov 01, 2019 12:24 am

Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep
Science 01 Nov 2019: Vol. 366, Issue 6465, pp. 628-631

Fluid dynamics during sleep: During non–rapid eye movement sleep, low-frequency oscillations in neural activity support memory consolidation and neuronal computation. Sleep is also associated with increased interstitial fluid volume and clearance of metabolic waste products. It is unknown why these processes co-occur and how they are related. Fultz et al. simultaneously measured electrophysiological, hemodynamic, and flow signals in the human brain (see the Perspective by Grubb and Lauritzen). Large oscillations of fluid inflow to the brain appeared during sleep and were tightly coupled to functional magnetic resonance imaging signals and entrained to electroencephalogram slow waves. Slow oscillatory neuronal activity thus leads to oscillations in blood volume, drawing cerebrospinal fluid into and out of the brain.

Abstract: Sleep is essential for both cognition and maintenance of healthy brain function. Slow waves in neural activity contribute to memory consolidation, whereas cerebrospinal fluid (CSF) clears metabolic waste products from the brain. Whether these two processes are related is not known. We used accelerated neuroimaging to measure physiological and neural dynamics in the human brain. We discovered a coherent pattern of oscillating electrophysiological, hemodynamic, and CSF dynamics that appears during non–rapid eye movement sleep. Neural slow waves are followed by hemodynamic oscillations, which in turn are coupled to CSF flow. These results demonstrate that the sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural and hemodynamic rhythms.

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