Nylon is a human‐made material and has been applied in many industrial fields. This
literature review explores the use of nylon in biomedical applications and discusses the …

Today, the integration of medical and engineering principles for producing biological
replacements has attracted much attention. Tissue engineering is an interdisciplinary field …

Endowing wound dressings with drug delivery capability is a suitable strategy to transfer
medicinal compounds locally to damaged skin layers. These dressings are especially useful …

As a bone scaffold, meeting all basic requirements besides dealing with other bone-related
issues—bone cancer and accelerated regeneration—is not expected from traditional …

Articular cartilage is a connective load-bearing tissue with a low rate of regeneration due to
slow metabolism. Fabricating tissue-like structure modified based on natural features can …

Electrospun porous bone scaffolds are known to imitate the extracellular matrix very well
and provide an environment through which the tissue formation is enhanced. Although …

Polycaprolactone (PCL) has been extensively investigated in the field of bone tissue
engineering due to its good biocompatibility, biodegradability and processability …

In this study, a new nanocomposite scaffold entailing poly glycerol sebacate/
polycaprolactone/carbon quantum dots (PGS/PCL/CQDs) was designed and fabricated for …

This is a comprehensive study reporting the fabrication of highly porous Gehlenite scaffold
(Ca 2 Al 2 SiO 7)—both with and without surface modification—for the first time. The …

Electrospinning as an effective and accessible method is known to yield scaffolds with
desired physical, chemical, and biological properties for tissue engineering. In the present …