Background Tissue engineering (TE) is the main approach for stimulating the body's
mechanisms to regenerate damaged or diseased organs. Bone and cartilage tissues due to …

Among different treatments of critical-sized bone defects, bone tissue engineering (BTE) is a
fast-developing strategy centering around the fabrication of scaffolds that can stimulate …

Abstract β-tricalcium phosphate (β-TCP, β-Ca 3 (PO 4) 2) is one of the most attractive
biomaterials for bone regeneration and β-TCP macroporous scaffolds are very promising for …

In tissue engineering, biocompatible scaffolds are used as 3D cell niches to provide a
similar environment to that of native tissue for seeded cells to regenerate the target tissue …

Abstract Additive manufacturing (AM), or 3D printing, of bioceramic scaffolds promises
personalized treatment options for patients with site-specific designability for repair and …

Background and aim As a newly emerging three-dimensional (3D) printing technology, low-
temperature robocasting can be used to fabricate geometrically complex ceramic scaffolds …

Purpose Large bone defects caused by congenital defects, infections, degenerative
diseases, trauma, and tumors often require personalized shapes and rapid reconstruction of …

From long ago, orthopedists and physicians are trying to deal with bone diseases and
disorders, while today, in the regenerative medicine field, bone scaffolds are being in …

Bone regeneration requires porous and mechanically stable scaffolds to support tissue
integration and angiogenesis, which is essential for bone tissue regeneration. With the …

Digital light processing (DLP)-based 3D printing is suitable to fabricate bone scaffolds with
small size and high precision. However, the published literature mainly deals with the …