Are there optical communication channels in the brain?

Are there optical communication channels in the brain?

Despite great progress in neuroscience, there are still fundamental unanswered questions about the brain, including the origin of subjective experience and consciousness. Some answers might rely on new physical mechanisms. Given that biophotons have been discovered in the brain, it is interesting to...

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Veröffentlicht in:Frontiers in bioscience 2018-03, Vol.23 (8), p.1407-1421, Article 4652
Hauptverfasser: Zarkeshian, Parisa, Kumar, Sourabh, Tuszynski, Jack, Barclay, Paul, Simon, Christoph
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Axons - physiology
Axons - radiation effects
Brain - physiology
Brain - radiation effects
Humans
Light
Models, Neurological
Nerve Fibers, Myelinated - physiology
Nerve Fibers, Myelinated - radiation effects
Neural Conduction - physiology
Neural Conduction - radiation effects
Neurons - physiology
Neurons - radiation effects
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Zusammenfassung:Despite great progress in neuroscience, there are still fundamental unanswered questions about the brain, including the origin of subjective experience and consciousness. Some answers might rely on new physical mechanisms. Given that biophotons have been discovered in the brain, it is interesting to explore if neurons use photonic communication in addition to the well-studied electro-chemical signals. Such photonic communication in the brain would require waveguides. Here we review recent work (S. Kumar, K. Boone, J. Tuszynski, P. Barclay, and C. Simon, Scientific Reports 6, 36508 (2016)) suggesting that myelinated axons could serve as photonic waveguides. The light transmission in the myelinated axon was modeled, taking into account its realistic imperfections, and experiments were proposed both and to test this hypothesis. Potential implications for quantum biology are discussed.
ISSN:1093-9946
2768-6698
1093-4715
DOI:10.2741/4652