The potential of three‐dimensional (3D) printing technology in the fabrication of advanced
polymer composites is becoming increasingly evident. This review discusses the latest …

Addressing infected bone defects remains a significant challenge in orthopedics, requiring
effective infection control and bone defect repair. A promising therapeutic approach involves …

In a world grappling with environmental challenges and the need for sustainable
manufacturing practices, the convergence of 3D printing and recycling emerges as a …

This research explores the sustainability of recycling polymer composites using fused
deposition modelling (FDM). The objective was to assess how different recycling cycles …

Bone scaffolds are three-dimensional biocompatible structure that mimics the properties of
natural bone and is used in tissue engineering applications to help repair or regenerate …

Patient-specific fabrication of scaffold/implant requires an engineering approach to
manufacture the ideal scaffold. Herein, we design and 3D print scaffolds comprised of …

Bone tissue possesses piezoelectric properties, allowing mechanical forces to be converted
into electrical potentials. Piezoelectricity has been demonstrated to play a crucial role in …

Among different methods for the fabrication of bone scaffolds, 3D printing has created great
advances in tissue engineering and regenerative medicine owing to its ability to make …

The low occurrence rate of bone cancer contributes to delayed diagnosis and treatment; in
addition, the surgical resection of bone tumors can cause significant bone defects, further …

Personalized orthopedic devices are increasingly favored for their potential to enhance long-
term treatment success. Despite significant advancements across various disciplines, the …