Critical sized bone defects are difficult to manage and currently available clinical/surgical
strategies for treatment are not completely successful. Polycaprolactone (PCL) which is a …

The ability to design polymers with a controlled degradation profile and mechanical and
processing properties has opened opportunities for develo** novel polymer-based drug …

Among many biomaterials, gelatin methacrylate (GelMA), a photocurable protein, has been
widely used in 3D bioprinting process owing to its excellent cellular responses …

Improving biomechanical and biochemical properties of tissue-engineered scaffolds akin to
those of native stem-cell niches can effectively regenerate tissues. Bio-ceramic …

Bone formation and growth are crucial for treating bone fractures. Improving bone-
reconstruction methods using autologous bone and synthetic implants can reduce the …

199Three-dimensional (3D) scaffolds composed of various biomaterials, including metals,
ceramics, and synthetic polymers, have been widely used to regenerate bone defects …

Titanium and titanium alloys have excellent mechanical properties, corrosion resistance and
biocompatibility, making them an ideal biomedical implant material with favorable results in …

Objective (s): Bone tissue engineering is considered a new method in the treatment of bone
defects and can be an effective alternative to surgery and bone grafting. The use of adipose …

In order to fabricate the artificial bone with high bioactive property, leadfree barium titanate
(BaTiO3, BT) piezoelectric material added hydroxyapatite (HA) composites were prepared in …

Light has attracted significant attention as a promising tool in the biomedical and cosmetic
industries. However, little is known about the cytotoxic effects of conventional light sources …