When it comes to sports, the brain is king.
The muscles, tendons and bones of the body are so strong and coordinated that you can feel it as you’re playing, lifting, running and even running in a race.
But that’s not how the brain works.
The body’s own muscles are limited, so it doesn’t use a huge amount of the brain’s processing power to perform a task, said Dr. Scott H. McEwen, an assistant professor of neurobiology at the University of Washington.
The brain has a specific role in making decisions and acting on those decisions.
And for some people, the neural pathways that enable the brain to perform complex tasks have been weakened by injury or disease.
“If the brain isn’t functioning properly, the person isn’t doing what they want to do,” said Dr McEwan, who was not involved in the new research.
“The brain is very adaptive and can adapt.
It’s a very, very important part of the system.”
The new study, published Monday in Science, focused on how Neurivago Brain Performance, a neurotechnology company based in Seattle, developed its neurivago system, which uses electrodes placed over the brain and sensors to detect when a person’s brain is performing poorly or working properly.
Neurotechnologists have developed many devices that can detect when the brain has lost a bit of its ability to perform.
For instance, a brain scan might show you a brain injury that’s causing your behavior to become impaired.
The new Neuravago system uses sensors and a video camera to detect the brain in a real-time, high-definition video.
This is done by capturing a person as they walk, run, swim, stand and even stand up, according to the company’s website.
The company is also working on neurivacost systems, which would use the body’s internal sensors to make sure a person is getting enough oxygen to breathe.
The neurivaconnt, which was funded by the National Institutes of Health, also uses a special device to measure the amount of oxygen in the body.
Researchers have used these devices to determine whether a person has a heart attack, a stroke or even diabetes, and the results can help doctors predict which people might have other health problems.
Neurovacost, on the other hand, measures the amount and type of oxygen that a person uses to function.
The researchers have not yet been able to determine how many people use neurivaccost devices, but they expect it to increase as the technology becomes more widely used.
The findings could also help athletes train to improve their performance and improve their health.
“We have a huge need in sports for neurivACOST,” said McEwing.
“People can play with their friends, or they can play on the couch with a friend, but we’re really only seeing the beginning of how neurivascanning will be able to enhance performance.”
The team of researchers hopes that neurivasacost devices will be available for use in sports in about a decade.
It would also be possible to use neuravacost for rehabilitation and medical purposes, such as treating Parkinson’s disease.
The Neuravao system is available in a variety of forms and is currently being tested on a variety at the UW in Seattle and in the U.S. Army.