Human Blood Tissue Intrinsic Bioelectromagnetic Energy Transferring Onto a Miniorgan

The study demonstrated that human blood tissue could transfer bioelectromagnetic energy to a hair follicle, considered a miniorgan, through a 1 mm glass barrier. This was achieved using a tabletop optical microscopy method and potassium ferricyanide, an anisotropic crystal, to absorb electromagnetic radiation. The experiments showed that electromagnetic waves emitted by the hair follicle could trigger the formation of semicircular periodic crystals of potassium ferricyanide, indicating energy transfer without direct tissue contact. The findings suggested that human blood tissue could act as a source of bioelectromagnetic fields (BEMFs) energy, warranting further research into its physiological implications.