Radio Electric Asymmetric Conveyer Reparative Effects on Muscle Injuries: A Report of Two Cases

Cells and tissues work like batteries, positively charged by potassium ions and negatively charged by chloride ions. The difference in potential gradient generates an ionic flux, and this, in turn, generates a current that develops endogenous bioelectric fields (EBFs), which are fundamental for all cellular life processes, including reparative phenomena. In damaged tissues, the ionic flow is altered and, consequently, the production of EBFs is altered. This determines an alteration of the reparative processes. In previous studies, the reparative and regenerative treatments of radio electric asymmetric conveyer (REAC) technology have been shown to favor and accelerate the reparative processes of injured tissues, inducing the recovery of ionic flows and EBFs. The purpose of this report is to illustrate the clinical efficacy of REAC treatments for reparative tissue optimization on muscle injuries, even in those with a severity of third degree.