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 …

Abstract 3D multifunctional bone scaffolds have recently attracted more attention in bone
tissue engineering because of addressing critical issues like bone cancer and inflammation …

Traditional bone grafts have shown their abilities for successful bone regeneration, but they
are not able to address other critical problems such as infection and bone cancer beside …

Macroporous scaffolds with bioactivity and magnetic properties can be a good candidate for
bone regeneration and hyperthermia. In addition, modifying the surface of the scaffolds with …

In this paper, we report on synthesis and characterization of three-dimensional biocomposite
based on a polymerized 3-(trimethoxysilyl) propyl methacrylate/ethylene glycol …

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 …

It is increasing evidence that the synergistic effects of magnetic scaffolds and magnetic fields
can accelerate bone repairing and regeneration, and the bone tumor may be treated using …

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 …

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

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 …