A novel collagen scaffold supports human osteogenesis—applications for bone tissue engineering

## Abstract With the increasing occurrence of vascular diseases and poor long‐term patency rates of current small diameter vascular grafts, it becomes urgent to pursuit biomaterial as scaffold to mimic blood vessel morphologically and mechanically. In this study, novel human‐like collagen (HLC, pro

## Abstract The aim of this study was to fabricate bioactive porous CaSiO~3~ scaffolds and examine their effects on proliferation and differentiation of osteoblast‐like cells. In this study, porous CaSiO~3~ scaffolds were obtained by sintering a ceramic slip‐coated polymer foam at 1350°C. X‐ray dif

## Abstract The objective of this study was to develop a biomimetic, highly porous collagen‐hydroxyapatite (HA) composite scaffold for bone tissue engineering (TE), combining the biological performance and the high porosity of a collagen scaffold with the high mechanical stiffness of a HA scaffold.

## Abstract The repair of tissue defects remains a challenging clinical problem. Extruded collagen fibers comprise a promising scaffold for anterior cruciate ligament and tendon reconstruction; however the engineering of these fibers has still to be improved to bring this material to clinical pract

## Abstract Scaffolds based on a novel functionalized polyester, pHMGCL, are electrospun and characterized morphologically and physically. In vitro degradation studies of pHMGCL films show considerable mass loss and molecular weight reduction within 70 weeks. Scaffolds composed of fibers with unifo