The fast growth of 3D printing technology gives designers many ways to make structures that
are hard to see. 3D printing lets you customize complex structures in any way you want and …

As a bone tissue engineering material, polylactic acid (PLA) has received significant
attention and interest due to its ease of processing and biocompatibility. However, its …

Simple Summary Bone tissue engineering is one of the most promising approaches for the
restoration of large bone defects. Nevertheless, to date, several disadvantages limit its use …

Fused Deposition Modelling (FDM) 3D printers have gained significant popularity in the
pharmaceutical and biomedical industries. In this study, a new biomaterial filament was …

This study investigates the influence of design, relative density (RD), and carbon fiber (CF)
incorporation parameters on mechanical characteristics, including compressive modulus …

The use of porous scaffolds with appropriate mechanical and biological features for the host
tissue is one of the challenges in repairing critical-size bone defects. With today's three …

The ease of processing and biocompatibility of polylactic acid (PLA) have made it a widely
used material for fused deposition modeling (FDM)-based 3D printing. In spite of this, PLA …

Additive manufacturing technologies and their ability to produce customized items have
gained interest in different fields, such as in the design of personalized scaffolds for tissue …

Simple Summary Large bone defect treatments have always represented an important
challenge in clinical practice and created a large demand for more efficacious regenerative …

Critical-size bone defects are one of the main challenges in bone tissue regeneration that
determines the need to use angiogenic and osteogenic agents. Rosuvastatin (RSV) is a …