Static magnetic field (SMF) modulates bone metabolism, but little research is concerned with
the effects of SMF on osteoclast. Our previous studies show that osteogenic differentiation is …

Static magnetic field (SMF), with constant magnetic field strength and direction, has a long
history of basic and clinical research in bone biology. Numerous studies demonstrate that …

Although we recently demonstrated that static magnetic fields (SMFs) of 3, 15, and 50 mT
stimulate osteoblastic differentiation, the effects of SMFs on osteoclastogenesis are still …

Static magnetic fields (SMFs), magnetic fields with constant intensity and orientation, have
been extensively studied in the field of bone biology both fundamentally and clinically as a …

Many studies have indicated that static magnetic fields (SMFs) have positive effects on bone
tissue, including bone formation and bone healing process. Evaluating the effects of SMFs …

All the living beings live and evolve under geomagnetic field (25–65 μT). Besides,
opportunities for human exposed to different intensities of static magnetic fields (SMF) in the …

Objective With the deepening of magnetic biomedical effects and electromagnetic
technology, some medical instruments based on static magnetic field (SMF) have been used …

Static magnetic fields (SMFs) can enhance the ability of bone formation by osteoblast and is
a potential physical therapy to bone disorders and the maintenance of bone health. But, the …

Objectives Static magnetic fields (SMF) have been proved to enhance osteogenic
differentiation in mesenchymal stem cells (MSCs). However, the effect of SMF on mandibular …

All the living organisms originate, evolve and live under geomagnetic field (GMF, 20–70 µT).
With rapid development in science and technology, exposure to various static magnetic …