Pulsed electromagnetic field therapy, or pulsed signal therapy, has shown efficacy in
treating many illnesses, including knee osteoarthritis. Although the mechanism is not fully …

In this work, a paramagnetic nanofibrous composite film was fabricated with poly lactide,
hydroxyapatite and γ-Fe203 nanoparticles using the electrospinning technique. The …

As a non-invasive biophysical therapy, electromagnetic fields (EMF) have been widely used
to promote the healing of fractures. In the present study, hydroxyapatite/collagen I (HAC) …

Objective (s) Due to the natural bone microstructure, the design and fabrication of porous
ceramic scaffold nanocomposite materials coated with thin layer of a natural polymer can …

Magnetic-responsive materials are promising for applications in various biomedical fields.
Especially, superparamagnetic nanoparticles are widely used in magnetic system for bone …

A magnetic field has been applied to accelerate bone healing for a long time. In this study, in
order to combine the bone repair capability of calcium phosphate (CaP) ceramics with the …

This study addresses the development of gel-based magnetic material in the purposes of
biomedical applications in the fields of tissue engineering, regenerative medicine, drugs …

Magnetic scaffolds incorporated with iron oxide nanoparticles (IONPs) are biocompatible
and present excellent osteogenic properties. However, the underlying mechanism is …

We evaluated the effect of a novel mesenchymal stem cell (MSC) delivery system using
magnetic beads and an external magnetic force, and investigated the osteogenic potential of …

The magnetic hydrogels were successfully fabricated by chemically cross-linking of gelatin
hydrogels and Fe3O4 nanoparticles (ca. 40–60nm) through genipin (GP) as cross-linking …