This scientific perspective piece explores the revolutionary concept of biophotonic signaling in the human body and brain, arguing that electromagnetic signaling through photons is a fundamental mechanism of cellular communication alongside traditional chemical pathways. The authors, Ganna Nevoit and colleagues, propose a working model where ultra-weak photon emission (UPE), primarily originating from DNA and mitochondria, forms a coherent electromagnetic current that transfers both energy and genetic information throughout the organism. Key themes include the role of liquid crystal and semiconductor properties in biological structures like water and fascia for transporting these signals, the identification of muscles as primary electromagnetic energy generators, and the suggestion that the Primo Vascular System (PVS) acts as a biological “fiber-optic” network for rapid, protected signal transmission, which may explain higher nervous activity and psychosomatic links.
Sources used
Nevoit G, Poderiene K, Potyazhenko M, Mintser O, Jarusevicius G, Vainoras A. “The concept of biophotonic signaling in the human body and brain: rationale, problems and directions.” Frontiers in systems neuroscience vol. 19 1597329. 23 Jun. 2025, doi:10.3389/fnsys.2025.1597329 (https://pmc.ncbi.nlm.nih.gov/articles/PMC12230014/)
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