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 Discarded data may be gateway to new brain insights

This story is from the category The Brain
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Date posted: 16/05/2010

Scientists regularly discard up to 90 percent of the signals from monitoring of brain waves, one of the oldest techniques for observing changes in brain activity. They discard this data as noise because it produces a seemingly irregular pattern like those seen in river fluctuations, seismic waves, heart rates, stock market prices and a wide variety of other phenomena.

Now, though, researchers at Washington University School of Medicine in St. Louis have found evidence that these data may contain significant information about how the brain works. In a study published in the May 13 Neuron, a closer look reveals not only previously unrecognized patterns in the data but also shows that putting the brain to work on a simple task can change those patterns.

"We don't yet know how to decode the information contained in these signals, but the fact that they're such a large part of brain activity and that they can be modulated when you do a task suggests that they are going to be very important to understanding the brain," says lead author Biyu Jade He, PhD, a postdoctoral fellow.

Electroencephalography (EEG), a long-established technique for monitoring brain waves, involves attaching an array of electrodes to the head. The electrodes can detect minute changes in electrical fields caused by brain cells firing.

Routine EEG analysis, used both in basic research and in clinical contexts such as epilepsy and sleep disorders, focuses on periodic components of EEG activity that are caused by millions of brain cells firing in coordination. These components are known as brain waves, and they occur at varying frequencies. Slow waves during sleep, for example, occur about once per second.

The remaining, irregular signals in EEG recordings didn't seem to contain useful information. By using a mathematical technique called spectral analysis, neuroscientists have found that these "irregular" signals produce a regular pattern: a diagonal line on the results graph that goes from the upper left (high-power, low-frequency brain waves) to the lower right (low-power, high-frequency brain waves).

That didn't seem interesting because spectral analyses of many other phenomena produce the same pattern. In linguistics, for example, analysis of the most frequently used words in a language and the number of times they appear in a typical text produces a similar diagonal line. Analyzing changes in stock market prices versus how fast they change, or the power and frequency of waves of seismic energy also produces similar results.

"Why this pattern is so common is one of the great questions of modern physics, and it's spawned a relatively young field of research called complex dynamics," says Biyu He. "With the exception of a few labs, though, this hasn't been given much consideration in neuroscience."

See the full Story via external site: www.eurekalert.org

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