Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

Additive manufacturing (AM) allows the fabrication of customized bone scaffolds in terms of
shape, pore size, material type, and mechanical properties. Combined with the possibility to …

Abstract 3D-printed composite scaffolds have emerged as an alternative to deal with existing
limitations when facing bone reconstruction. The aim of the study was to systematically …

Tissue engineering (TE) scaffolds have enormous significance for the possibility of
regeneration of complex tissue structures or even whole organs. Three-dimensional (3D) …

Various bone graft products are commercially available worldwide. However, there is no
clear consensus regarding the appropriate bone graft products in different clinical situations …

The investigation of novel hydrogel systems allows for the study of relationships between
biomaterials, cells, and other factors within osteochondral tissue engineering. Three …

The use of biodegradable polymers for treating bone-related diseases has become a focal
point in the field of biomedicine. Recent advancements in material technology have …

Calcium phosphates (apatites) are considered as a research frontier for bone regeneration
applications by virtue of similarity to the mineral constituent of bone, suitable biocompatibility …

Three-dimensional-printed scaffolds have received greater attention as an attractive option
compared to the conventional bone grafts for regeneration of alveolar bone defects …

The pore morphology design of bioceramic scaffolds plays a substantial role in the induction
of bone regeneration. Specifically, the effects of different scaffold pore geometry designs on …