There is a general increase in the number of patients with non-healing skin wounds,
imposing a huge social and economic burden on patients and healthcare systems. Severe …

In recent years, preparation technology for tissue-engineered scaffolds has continuously
improved; researchers can select suitable preparation methods according to the scaffold …

Introduction: Biomaterial-based scaffold formulations (three-dimensional Porous matrix,
nano-fibre mesh, hydrogels and microspheres) are the major components that are used to …

Small-diameter tissue-engineered vascular grafts are urgently needed for clinic arterial
substitute. To simulate the structures and functions of natural blood vessels, we designed a …

Articular cartilage is a structure lack of vascular distribution. Once the cartilage is injured or
diseased, it is unable to regenerate by itself. Surgical treatments do not effectively heal …

Demand is increasing for functional small-diameter vascular grafts (diameter< 6 mm) for
clinical arterial replacement. In the present study, we develop a bilayer poly (ε-caprolactone …

Bilayer poly (l-lactic acid) fibrous scaffolds consisting of a thin aligned-fiber layer (AFL) and a
relatively thick random-fiber layer (RFL) were fabricated by an electrospinning technique …

Porous biomaterials are of significant interest in a variety of biomedical applications as they
enable the diffusion of nutrients and gases as well as the removal of metabolic waste from …

A variety of biodegradable polymer scaffolds serving the purpose of mimicking the
extracellular matrix have been studied; however, no effective recipe has yet been developed …

Injection of cell‐laden scaffolds in the form of mesoscopic particles directly to the site of
treatment is one of the most promising approaches to tissue regeneration. Here, a novel and …