Critical-sized bone defect repair remains a substantial challenge in clinical settings and
requires bone grafts or bone substitute materials. However, existing biomaterials often do …

Bone healing is an impressive ability of the human body, but critical-sized bone defects
require external intervention. Bioceramic scaffolds with excellent biocompatibility and …

Bone biomaterials play a vital role in bone repair by providing the necessary substrate for
cell adhesion, proliferation, and differentiation and by modulating cell activity and function. In …

Triply periodic minimum surfaces (TPMS), which outperform other structures in terms of bulk
moduli and relative density, have been widely used to dramatically improve the mechanical …

Tissue engineering has acquired remarkable attention as an alternative strategy to treat and
restore bone defects during recent years. A scaffold is a fundamental component for tissue …

The present work focuses on the state-of-the-art of biodegradable ceramic-polymer
composites with particular emphasis on influence of various types of ceramic fillers on …

Immobilization using external or internal splints is a standard and effective procedure to treat
minor skeletal fractures. In the case of major skeletal defects caused by extreme trauma …

Bone is a self‐engineered structural component of the human body with multifaceted
mechanical strength, which provides indomitable support to the effective functioning of the …

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

Scaffolds for bone tissue engineering require considerable mechanical strength to repair
damaged bone defects. In this study, we designed and developed mechanically competent …