The challenge for the treatment of severe traumas poses an urgent clinical need for the
development of biomaterials to achieve rapid hemostasis and wound healing. In the past …

The osteochondral defect repair has been most extensively studied due to the rising
demand for new therapies to diseases such as osteoarthritis. Tissue engineering has been …

Osteochondral defects are caused by injury to both the articular cartilage and subchondral
bone within skeletal joints. They can lead to irreversible joint damage and increase the risk …

The tissue engineering approach for repairing osteochondral (OC) defects involves the
fabrication of a biological tissue scaffold that mimics the physiological properties of natural …

Abstract 3D printing (3DP) processes have evolved from simple prototy** for visual
inspection purposes to functional product manufacturing that offers flexibility, customization …

Blood vessel damage resulting from trauma or diseases presents a serious risk of morbidity
and mortality. Although synthetic vascular grafts have been successfully commercialized for …

Abstract 3D printing and nanotechnology have been two important tools in the development
of therapeutic approaches for personalized medicine. More recently, their alliance has been …

Osteochondral tissue regeneration is quite difficult to achieve due to the complexity of its
organization. In the design of these complex multilayer structures, a fabrication method, 3D …

Compared with conventional prosthesis with homogenous structures, functionally graded
lattice prosthesis with optimized stress distribution have both mechanical and biological …

Articular cartilage (AC) is a specialized connective tissue able to provide a low‐friction
gliding surface supporting shock‐absorption, reducing stresses, and guaranteeing wear …