We have investigated the effects of moderate static magnetic fields (SMFs) on murine
MC3T3-E1 osteoblasts, and found that they enhance proliferations and promote …

The aim of this study was to test the differentiative effects of osteoblasts after treatment with a
static magnetic field (SMF). MG63 osteoblast-like cells were exposed to a 0.4-T SMF. The …

The histogenesis of bone tissue is strongly influenced by physical forces, including magnetic
fields. Recent advances in tissue engineering has permitted the generation of three …

We examined the effect of magnetic force on differentiation of cultured human osteoblasts.
Magnetic microparticles (MPs) were introduced into the cytoplasm of a human osteoblast …

Among the multiple modulatory physical cues explored to regulate cellular processes, the
potential of magneto-responsive substrates in magnetic field stimulated stem cell …

The induction of bone formation to an intentional orientation is a potentially viable clinical
treatment for bone disorders. Among the many chemical and physical factors, a static …

Abstract Exposure to Pulsed Electromagnetic Field (PEMF) has been shown to affect
proliferation and differentiation of human mesenchymal stem cells derived from bone …

Bone marrow mesenchymal stem cells (BMMSCs) could be induced to osteoblasts, which
were considered as the seed cells source for organizational engineering. Moreover, it has …

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 …

The use of a porous coating on prosthetic components to encourage bone ingrowth is an
important way of improving uncemented implant fixation. Enhanced fixation may be …