Scientists Open New ‘Window’ Into The Brain
An unexpected discovery has led scientists to open an intriguing new window into the human brain, via the visual system.
Their finding may have implications for better understanding of states such as sleep, epilepsy and anaesthesia say the research team leaders Dr Sam Solomon and Professor Paul Martin of The Vision Centre and The University of Sydney.
Potentially it could open up a new pathway for manipulating brain rhythms to manage disorders such as insomnia and epilepsy, the team speculate in an article published today in the Proceedings of the National Academy of Sciences of the USA.
“It was purely a chance observation we made while we were activating the three cell layers of the lateral geniculate nucleus (LGN), which is the part where the optic nerve actually connects to the brain,” Prof. Martin recounts.
Two of these layers are linked with our ability to perceive edges and movement, he explains. The third, koniocellular or “˜K’ layer, is much more primitive ““ part of our deep evolutionary ancestry ““ and its function is still mysterious.
“When we stopped applying a stimulus, two of the three layers ceased to respond while the K layer continued to pulse, slowly and rhythmically ““ like a sleeping brain.”
At the suggestion of a colleague, the research team then compared the signal from the K cells to an EEG readout from the brain itself: “To our surprise and delight we found the two were marching in time,” Dr Solomon says.
The observation has provided physical evidence to support a scientific theory that the more primitive parts of the brain serve as regulators for the more advanced parts, responsible for conscious thought and feelings.
It could also lead to a deeper scientific understanding of the nature of sleep and unconsciousness.
However an intriguing idea is that this pathway might also be used to influence the patterns of the brain itself, Prof. Martin adds.
“We know this K pathway is affected by blue light. This raises the tantalising possibility that by stimulating it with light of the right wavelength you could actually alter the rhythms of the brain.”
The slow theta rhythms of the brain, as seen on an EEG, are commonly associated with sleep, anaesthesia and epilepsy, he says.
“Just possibly, the K cells might offer a way to use visual stimuli to alter brain rhythms ““ to modify sleep patterns, say, or to arrest or prevent an epileptic state. At this stage it is simply an idea flowing from our discovery ““ but it is well worth exploring further.”
Their research is published today in a paper entitled “Slow intrinsic rhythm in the koniocellular visual pathway” by Soon Keen Cheong, Chris Tailby, Paul R. Martin, Jonathan B. Levitt and Samuel G. Solomon in the Proceedings of the National Academy of Sciences of the USA.
The Vision Centre is funded by the Australian Research Council as the ARC Centre of Excellence in Vision Science.
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