A study at the University of California, Berkeley, published in the journal, Nature Neuroscience, and reported in Futurity, claims that the "human brain improvises while its rhythm section keeps up a steady beat. But when it comes to taking on intellectually challenging tasks, groups of neurons tune in to one another for a fraction of a second and harmonize, then go back to improvising, according to new research." The findings could help to define treatments for people with brain disorders marked by fast, slow, or chaotic brain waves, also known as neural oscillations," the article explains (http://www.futurity.org/brain-waves-jazz-968642/).
According to the study's lead author Bradley Voytek, an assistant professor of cognitive science at UC San Diego who conducted the study as a postdoctoral fellow in neuroscience at UC Berkeley, "The human brain has 86 billion or so neurons all trying to talk to each other in this incredibly messy, noisy, and electrochemical soup. Our results help explain the mechanism for how brain networks quickly come together and break apart as needed."
In measuring electrical activity in the brains of epilepsy patients who were cognitively healthy, the researchers at UC Berkeley's Helen Wills Neuroscience Institute discovered that, when mental exercises became more demanding, theta waves at 4 to 8 Hertz or cycles per second synchronized within the brain's frontal lobe, which allowed it to connect with other brain regions, such as the motor cortex. As Voytek explains, "In these brief moments of synchronization, quick communication occurs as the neurons between brain regions lock into these frequencies, and this measure is critical in a variety of disorders."
While prior experiments on animals have demonstrated how brain waves control brain activity, the UC Berkeley study used electrocorticography to measure neural oscillations while people perform cognitively challenging tasks and showed "how these rhythms control communication between brain regions," the article says. Ultimately, such research could show how the five types of brain wave frequencies - Gamma, Beta, Alpha, Theta, and Delta - play a different role, interact with each other and cause problems if the interaction is not what might be expected.
According to Nathan Urban, a neuroscientist at Carnegie Mellon University in Pittsburgh, in previous research, "The brain absolutely has rhythm.When you concentrate, Urban says, your brain produces rapid, rhythmic electrical impulses called gamma waves. When you relax, it generates much slower alpha waves. The internal cadences of the brain and nervous system appear to play an important role in everything from walking to thinking, Urban says. And abnormal rhythms, he says, have been associated with problems including schizophrenia, epilepsy, autism and Parkinson's disease" (http://www.npr.org/sections/health-shots/2014/06/17/322915700/your-brains-got-rhythm-and-syncs-when-you-think