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 to display electromagnetic energy emissions. The experiments involved a human blood smear and a hair follicle separated by glass, with Potassium Ferricyanide (K3Fe) used to visualize the energy transfer. The findings suggested a "bioelectromagnetic cross-talk" between blood and hair follicles, even without direct contact, indicating that blood tissue could act as a source of bioelectromagnetic fields (BEMFs). Further research was needed to explore the physiological implications of this energy transfer.