Abstract
Widespread in nature ability of biological objects to emit photons (biophotons) made it possible to create devices for non-invasive and continuous monitoring of the metabolism of organs and tissues, used as a powerful clinical diagnostic tool, as well as for visualisation and spatio-temporal analysis of functioning organs and, in particular, the brain. Numerous experimental data indicating the participation of biophotons in the processes of inter- and intracellular communication served as a theoretical basis for the medical use of low-intensity light therapy for the effective treatment of a wide range of diseases, including delayed wound healing, pain in arthritis, and acute stroke.
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