Recently the fabrication of 3D scaffolds with the potential of application as flexible bone graft
substitutes has been attracted many researches. In this research, a 3D nanocomposite …

Bone tissue engineering had crucial role in the bone defects regeneration, particularly when
allograft and autograft procedures have limitations. In this regard, different types of scaffolds …

Here, the fabrication and characterization of porous magnetic nanocomposites was carried
out via the blending of chitosan, polyethylene glycol and nano-hydroxyapatite–Fe3O4 …

Magnetic-based scaffolds (ferroscaffolds) were fabricated using an in-situ synthesis of iron
oxide nanoparticles in the presence of various concentration of biodegradable gelatin. The …

The use of magnetism in tissue engineering is a very promising approach, in fact magnetic
scaffolds are able not only to support tissue regeneration, but they can be activated and …

Magnetism is a physical stimulus that can induce and regulate several biological responses
in cells and would be promising for application in various fields of biomedical, especially …

Multifunctional magnetic 3D scaffolds are recently of particular interest because of their
applications in hyperthermia-based therapy and localized drug delivery beside of their basic …

We describe the study of a new type of diphasic magnetic nanocomposite scaffold
(PLGA/Col-I-PLGA/n-HA/Fe 2 O 3) and its preparation using a novel low-temperature …

One of the most common systems for bone tissue engineering is polymeric scaffolds.
However, the low mechanical properties of polymeric scaffolds, considering the properties …

In this study, three-dimensional (3D) magnetic Fe3O4 nanoparticles containing mesoporous
bioactive glass/polycaprolactone (Fe3O4/MBG/PCL) composite scaffolds have been …