Abstract β-tricalcium phosphate (β-TCP) is one the most used and potent synthetic bone
graft substitute. It is not only osteoconductive, but also osteoinductive. These properties …

The repair of osteochondral defects requires a tissue engineering approach that aims at
mimicking the physiological properties and structure of two different tissues (cartilage and …

An osteochondral scaffold has a chondrogenic spiral scaffold in one end of an outer shell
made of sintered microspheres, and an osteogenic spiral scaffold in the other end of the …

The quest for synthetic materials to repair load-bearing bone lost because of trauma, cancer,
or congenital bone defects requires the development of porous, high-performance scaffolds …

Biodegradable scaffolds play a critical role in therapeutic tissue engineering, in which the
matrix degradation and tissue ingrowth are of particular importance for determining the …

The degradation of polymeric biomaterials, which are widely exploited in tissue engineering
and drug delivery systems, has drawn significant attention in recent years. This paper aims …

Computer-aided design of porous structures is a challenging task because of the high
degree of irregularity and intricacy associated with the geometries. Most of the existing …

This study reports the development of biological/synthetic scaffolds for bone tissue
engineering (TE) via 3D bioplotting. These scaffolds were composed of poly (L-lactic-co …

Multiscale models based on representative volume elements (RVEs) might help unraveling
the ways in which macroscopic loadings affect the microstructure of tissues reinforced by …

Abstract Computer-Aided Tissue Engineering (CATE) is based on a set of additive
manufacturing techniques for the fabrication of patient-specific scaffolds, with geometries …