Skin tissue engineering is an advanced method to repair and regenerate skin injuries.
Recent research is focused on the development of scaffolds that are safe, bioactive, and …

Tissue engineering is an emerging method for replacing damaged tissues. In this study, the
potential application of electrospun polycaprolactone/chitosan/the internal layer of oak fruit …

Preparation and evaluation of a polycaprolactone/chitosan/propolis fibrous nanocomposite
scaffold as a tissue engineering skin substitute - PMC Back to Top Skip to main content NIH …

Treatments of skin injuries caused by trauma and diseases are among the most
considerable medical problems. The use of scaffolds that can cover the wound area and …

Hybrid electrospun fiber containing bioactive molecules, which offer the ability to deliver the
cells into the wound bed, will help to achieve a high therapeutic effect. In this study, an …

Aloe vera (AV) and tetracycline hydrochloride (TCH) exhibit significant properties such as
anti-inflammatory, antioxidant and anti-bacterial activities to facilitate skin tissue …

Abstract Nowadays, aloe-vera (AV) is exploited extensively in nanofibrous structures for skin
substitutes. However, the lack of electrospinnability and appropriate mechanical …

This work investigates the incorporation of the Calendula officinalis (C. officinalis) extract in
electrospun fiber scaffolds composed of poly (ε-caprolactone)(PCL), Zein and gum arabic …

Polymer blending is a strategy commonly used to obtain hybrid materials possessing
properties better than those of the individual constituents regarding their use in scaffolds for …

Natural‐synthetic blend nanofibres have recently attracted more interest because of the
ability of achieving desirable properties. Poly (ε‐caprolactone)(PCL)‐chitosan (Cs)‐poly …