Hyaluronic acid (HA) is of immense importance to biomaterials science and biomedical
engineering. It is finding applications in diverse areas of bioengineering ranging from …

This review focuses on the advancements in additive manufacturing techniques that are
utilized for fabricating bioceramic scaffolds and their characterizations leading to bone tissue …

Bone defect treatment is still a challenge in clinics, and synthetic bone scaffolds with
adequate mechanical and biological properties are highly needed. Adequate waste and …

Additive manufacturing technologies are getting attention as a prospective substitute for
conventional medical implant production methods owing to their unique manufacturing …

Bio-scaffolds are synthetic entities widely employed in bone and soft-tissue regeneration
applications. These bio-scaffolds are applied to the defect site to provide support and favor …

In recent years, finite element analysis (FEA) models of different porous scaffold shapes
consisting of various materials have been developed to predict the mechanical behaviour of …

Due to their excellent properties, triply periodic minimal surfaces (TPMS) have been applied
to design scaffolds for bone tissue engineering applications. Predicting the mechanical …

One of the primary challenges in developing bone substitutes is to create scaffolds with
mechanical properties that closely mimic those of regenerated tissue. Scaffolds that mimic …

The development of computer-aided facilities has contributed to the optimization of tissue
engineering techniques due to the reduction in necessary practical assessments and the …

Virtual Reality (VR) technologies are widely applied to teaching art design. VR has been
created with high‐level techniques that create the artificial environment to support virtual …