The three-dimensional printing (3DP) also known as the additive manufacturing (AM), a
novel and futuristic technology that facilitates the printing of multiscale, biomimetic, intricate …

The employment of tissue engineering scaffolds in the reconstruction of the damaged bone
tissues has shown remarkable promise since they significantly facilitate the healing process …

The mechanical and biological properties of polylactic acid (PLA) need to be further
improved in order to be used for bone tissue engineering (BTE). Utilizing a material …

Developing a uniform polymer-based composite filament is a critical factor for a successful
3D printing process. In this regard, a novel technique for the fabrication of PLA-graphite …

Polylactic acid (PLA) is considered as a great option to be employed as 3D porous scaffold
in hard tissue engineering applications owing to its excellent biocompatibility and …

Lattice structures are composed of interconnected porous unit cells that are arranged in a
periodic and regular fashion. Their light wight and high specific strength alongside many …

Polylactic acid (PLA) scaffolds produced by the fused deposition modeling (FDM) method
have biocompatibility, close Young's modulus to that of bone, and the ability to make …

This article presents current possibilities of using polyester-based materials in hard and soft
tissue engineering, wound dressings, surgical implants, vascular reconstructive surgery …

The mechanical behavior, corrosion mechanisms, and cytocompatibility at the interface of
magnesium wires reinforced poly-lactic acid polymer composites were studied by in vitro …

To improve the endurance limits of triply periodic minimal surface (TPMS)-based scaffolds,
the post-treatment process combing hot isostatic pressing (HIP) and electropolishing (ELP) …