Functional biomaterials with magnetic properties are considerably useful for regulating cell
behavior and promoting bone regeneration. And the combination of such biomaterials with …

Scaffolds play an essential role in the success of tissue engineering approaches. Their
intrinsic properties are known to influence cellular processes such as adhesion, proliferation …

The biological behaviors of magnetic graphene oxide (MGO) in a static magnetic field (SMF)
are unknown. The current study is to investigate the cellular behaviors, osteogenesis and …

To provide a novel approach for the clinical treatment of cartilage tissue defects, we
prepared a new type of magnetic nanocomposite hydrogel with an optimal raw material ratio …

Fe 3 O 4 nanoparticles were widely applied as magnetic sources in scaffolds to stimulate
bone regeneration. In this study, Fe 3 O 4 nanoparticles were successfully functionalized by …

Apart from chemical molecules, physical regulations also greatly determine the efficiency of
healing in regenerating functional tissues. In this study, we fabricated superparamagnetic …

Bone tissue engineering emerged as a solution to treat critical bone defects, aiding in tissue
regeneration and implant integration. Mainly, this field is based on the development of …

Bone defects characterized by limited regenerative properties are considered a priority in
surgical practice, as they are associated with reduced quality of life and high costs. In bone …

Magnetically actuated mechanical stimulation, as a novel form of intelligent responsive force
stimulation, has a great potential for remote spatiotemporal regulation of a variety of life …

The treatment of tumour-related bone defects should ideally combine bone regeneration
with tumour treatment. Additive manufacturing (AM) could feasibly place functional bone …