Single pulsed electromagnetic field restores bone mass and microarchitecture in denervation/disuse osteopenic mice.

Abstract Pulsed electromagnetic fields (PEMFs) have been proposed to treat bone loss. However, time-consuming is the main complaint. A time-saving and effective treatment is of expectation. Previously, we showed a 3 min daily of single pulsed electromagnetic field (SPEMF) accelerated bone formation of long bone defect in mice. Here we compared the effect of SPEMF with PEMF for treating denervation/disuse osteopenic mice. Healthy mice were divided into 3 groups: intact mice (INT), INT + PEMF, and INT + SPEMF. Induced osteopenic mice were divided to osteopenia (IOP), IOP + PEMF, and IOP + SPEMF groups. The PEMF treated groups were subjected to daily 8 h PEMF(15 Hz, 18 G) exposure, while SPEMF treated groups were daily 3 min SPEMF(0.2 Hz, 1 T) exposure. BMD was evaluated every two weeks during the 12 weeks of treatment. Microarchitecture was evaluated on week 12. SPEMF significantly reversed bone loss in IOP mice as early as 6 weeks post-treatment, while PEMF reversed bone loss after 8 weeks. Bone volume was significantly increased in the IOP + PEMF and IOP + SPEMF group. Besides, bone volume and trabecular number of IOP + SPEMF mice were restored to the levels of INT mice in 12 weeks. Our finding suggests SPEMF increased BMD and restored microarchitecture of disuse osteopenic mice to healthy level.