Tissue engineering (TE) is the approach to combine cells with scaffold materials and
appropriate growth factors to regenerate or replace damaged or degenerated tissue or …

In the last half-century, the development of biodegradable polymeric materials for
biomedical applications has advanced significantly. Biodegradable polymeric materials are …

Three-dimensional printing with Digital Lighting Processing (DLP) printer has come into the
new wave in the tissue engineering for regenerative medicine. Especially for the clinical …

Articular cartilage damage poses huge burden on healthcare sector globally due to its
extremely weak inherent regenerative ability. Three‐dimensional (3D) bioprinting for …

This review aims to show case recent regenerative medicine based on biomaterial
technologies. Regenerative medicine has arousing substantial interest throughout the world …

An osteoarthritis pandemic has accelerated exploration of various biomaterials for cartilage
reconstruction with a special emphasis on silk fibroin from mulberry (Bombyx mori) and non …

Digital light processing (DLP)‐based bioprinting technology has recently aroused
considerable concerns as a strategy to deliver biomedical materials and/or specific cells to …

Silk, a natural biopolymer, has been used clinically as suture material over thousands of
years and has received much impetus for a plethora of biomedical applications in the last …

Silk fibroin is regarded as a natural fibrous protein with tunable mechanical properties,
acceptable biocompatibility, and favorable capability of enhancing attachment, proliferation …

The global volume of skin damage or injuries has major healthcare implications and,
accounts for about half of the world's annual expenditure in the healthcare sector. In the last …