This paper reports the impact of the magnetic field on 3T3-E1 preosteoblasts within silk-
fibroin scaffolds decorated with magnetic nanoparticles. Scaffolds were prepared from silk …

Bone-related diseases are one of the most common health conditions that limit the quality of
life of elderly. Novel materials for bone tissue engineering that actively assist on the …

We report about a biomaterial in the form of film∼ 10 μm thick, consisting of a silk fibroin
matrix with embedded iron oxide superparamagnetic nanoparticles, for prospective …

Recently, the incorporation of magnetic nanoparticles into standard scaffolds has emerged
as a promising approach for tissue engineering applications. This strategy can promote not …

Tissue engineering is a promising approach in repairing damaged tissues. During the last
few years, magnetic nanoparticles have been of great interest in this field of study due to …

Magnetic silk fibroin protein (SFP) scaffolds integrating magnetic materials and featuring
magnetic gradients were prepared for potential utility in magnetic-field assisted tissue …

Stimulating stem cell differentiation without growth factor supplement offers a potent and cost-
effective scaffold for tissue regeneration. We hypothesise that surface precipitation of nano …

This study investigates the potential of three-dimensional (3-D) scaffolds of wild non-
mulberry tropical tasar silk gland fibroin protein as substratum for osteogenic differentiation …

Biological behavior of cells can be modified with an induced magnetic field if magnetic
nanoparticles are localized within the cells or associated with cell membrane. A high …

The present study demonstrated the fabrication that incorporation of titanium isopropoxide
(TiO 2) and hydroxyapatite (HA) nanoparticles into the silk fibroin (SF) scaffolds. In this …