Background Tissue engineering (TE) is the main approach for stimulating the body's
mechanisms to regenerate damaged or diseased organs. Bone and cartilage tissues due to …

In the era of personalised medicine, novel therapeutic approaches raise increasing hopes to
address currently unmet medical needs by developing patient-customised treatments. Three …

Controllable pore size and architecture are essential properties for tissue‐engineering
scaffolds to support cell ingrowth colonization. To investigate the effect of polyethylene …

Background: Chronic full-thickness rotator cuff tears (FTRCTs) represent a major clinical
concern because they show highly compromised healing capacity. Purpose: To evaluate the …

Bone tissue engineering (BTE) aims to develop engineered bone tissue to substitute
conventional bone grafts. To achieve this, culturing the cells on the biocompatible three …

Tissue engineering strategies involving in vitro growth of cells over three‐dimensional
scaffolds before implantation into the damaged portions represents a significant alternative …

Tissue engineering scaffolds require a controlled pore size and interconnected pore
structures to support the host tissue growth. In the present study, three dimensional (3D) …

In the study, a new strategy is presented to make PLGA (poly lactic‐co‐glycolic acid) and
POEGMEMA (poly (oligo (ethylene glycol) methyl ether methacrylate)) based biodegradable …

The shortage of organ resource has been limiting the application of liver transplantation.
Bioartificial liver construction is increasingly focused as a replacement treatment. To product …

Stem cells, either neural [NSCs] or mesenchymal [MSCs], possess tremendous untapped
potential for cell therapy. Unlike the NSCs, MSCs are multi-potent and they have high self …