Bone fusion of defect broken ends is the basis of the functional reconstruction of critical
maxillofacial segmental bone defects. However, the currently available treatments do not …

Mandibular bone defect reconstruction is an urgent challenge due to the requirements for
daily eating and facial aesthetics. Three‐dimensional‐(3D‐) printed titanium (Ti) scaffolds …

Objective To present the results of guided bone regeneration (GBR) with three‐dimensional
printing individualized titanium mesh (3D‐PITM) applied to alveolar bone defects with …

Mandibular tissue engineering aims to develop synthetic substitutes for the regeneration of
critical size defects (CSD) caused by a variety of events, including tumor surgery and post …

Background The purpose of this study was to establish a mechanical and histological basis
for the development of biocompatible maxillofacial reconstruction implants by combining 3D …

Objectives To evaluate the outcomes of bone regeneration using a customized titanium
mesh scaffold to cover a bone graft for reconstruction of complex defects of the jaws …

The successful regeneration of functional bone tissue in critical‐size defects remains a
significant clinical challenge. To address this challenge, synthetic bone scaffolds are widely …

Background Vascularized bone tissue transfer, commonly used to reconstruct large
mandibular defects, is challenged by long operative times, extended hospital stay, donor …

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

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