Various artificial bone graft substitutes based on ceramics have been developed over the
last 20 years. Among them, calcium-silicate-based ceramics, which are osteoconductive and …

Natural polymers have been used in the biomedical fields for decades, mainly derived from
animals and plants with high similarities with biomacromolecules in the human body. As an …

The pore architecture of porous scaffolds is a critical factor in osteogenesis, but it is a
challenge to precisely configure strut-based scaffolds because of the inevitable filament …

The treatment of bone defects is an important problem in clinical practice. The rapid
development of bone tissue engineering (BTE) may provide a new method for bone defect …

Spatial dimension of pores and interconnection in macroporous scaffolds is of particular
importance in facilitating endogenous cell migration and bone tissue ingrowth. However, it is …

ABSTRACT Three-dimensional (3D) printing as a powerful manufacturing platform has been
increasingly used in biomedical engineering over the past two decades. Such technologies …

Abstract Three-dimensional (3D) printing bioactive ceramics have demonstrated alternative
approaches to bone tissue repair, but an optimized materials system for improving the …

Implanting artificial biomaterial implants into alveolar bone defects with individual shape and
appropriate mechanical strength is still a challenge. In this study, bioceramic scaffolds …

Bioceramic scaffolds for repairing mandibular bone defects have considerable effects,
whereas pore architecture in porous scaffolds on osteogenesis in specific structures is still …

The growing demand for personalized ceramic devices for biomedical engineering
applications, with increasingly complex shapes and properties, highlights the limitations of …