The aim of this work was to prepare the scaffolds of pure poly (L-lactic acid) 3%(w/v), pure
chitosan 3%(w/v), and PLLA/chitosan blend (1: 5) 3%(w/v) using TIPS method and …

The development of macroporous biodegradable polymeric materials with three-
dimensional pore structure is an important research field in tissue engineering. Structural …

Electrospinning is one of the most important ways to prepare continuous, high porosity, large
specific surface area, and uniform diameter micro‐and nanoscale fibers. So, it has been …

Large, three-dimensional, porous poly (glycerol sebacate urethane)(PGSU) scaffolds were
fabricated via a solvent-based synthesis approach followed by freeze-drying and curing. The …

Tissue engineering and regenerative medicine are increasingly taking advantage of active
materials, allowing to provide specific clues to the cells. In particular, the use of electroactive …

It has been generally accepted that tissue engineered constructs should closely resemble
the in-vivo mechanical and structural properties of the tissues they are intended to replace …

Scaffolds with intrinsically interconnected porous structures are highly desirable in tissue
engineering and regenerative medicine. In this study, three-dimensional polymer scaffolds …

Osteoarthritis is predicted to become the fourth leading cause of disability by 2020.
Engineered scaffolds have shown promise in the field of cartilage tissue engineering. The …

Two thermally induced phase separation (TIPS) methods have been used to fabricate
biodegradable poly (L-lactic acid)(PLLA) tissue engineering scaffolds each with fibrous (F …

A unique rapid scanning rate differential scanning calorimeter is used to examine the
differences in melt and cold crystallized poly (l-Lactide)(PLLA), a biodegradable semi …