ELECTRIC CURRENT IN LIVING ORGANISMS
Abstract
Bioelectrical activity is an intrinsic property of living organisms that reflects the dynamic interaction between ionic movements and cellular structures. Unlike artificial electrical systems, biological electrical processes are self-regulated and tightly integrated with metabolic and signaling pathways. This article examines the fundamental nature of electrical currents in living systems, emphasizing their role in cellular communication, functional coordination, and adaptive responses. Special focus is placed on how electrical signals contribute to the regulation of physiological stability and the integration of complex biological functions. The study also highlights the growing importance of bioelectricity in modern biomedical research and innovative therapeutic strategies.