Bone regeneration-enhancing effects of extremely low-frequency electromag- netic fields: Analysis using fish scales as a bone model.

Abstract

Electromagnetic fields (EMFs) noninvasively promote fracture healing, prevent osteoporosis, promote diaphyseal growth, enhance differentiation, and stimulate cell division. However, no good model systems for analyzing bone regeneration have been reported. In this study, we examined the in vivo regeneration of scales having osteoblasts and osteoclasts using a new magnetic field generator for exposing aquatic animals to EMFs at a sine-wave frequency of 60 Hz. Goldfish scales were put into a fish-breeding space with the developed magnetic field generator and exposed to extremely low-frequency electromagnetic fields (ELF-EMFs) of 60 Hz at an intensity of 1, 3, and 5 mT for 10 days while being regenerated the scales. After exposure, alkaline phosphatase (ALP) and tartrate-resistant acid phosphatase (TRAP) activities in the goldfish scales were measured as markers of osteoblasts and osteoclasts, respectively. As a result, both ALP and TRAP activities in regenerating scales exposed to 3 mT ELF-EMFs were higher than those in regenerating scales exposed to 1 and 5 mT ELF-EMFs. Exposure of scales to 3 mT ELF-EMFs significantly enhanced the scale regeneration rate. Exposure of rat calvaria to 3 mT ELF-EMFs also increased both ALP and TRAP activities like in goldfish scales. Thus, we concluded that 3 mT ELF-EMFs contribute to the medical treatment of bone diseases.