The development of new materials with specific functionalities for certain applications has
been increasing with the advent of nanotechnology. A technique widely used for this …

Tendon and ligament (TL) injuries affect millions of people annually. Biopolymers play a
significant role in TL tissue repair, whether the treatment relies on tissue engineering …

Electrospinning (ES) is considered the most advanced and robust method to make
nanoscale materials named nanofibers (NFs) using various polymers. However, due to the …

Combination chemo-photothermal therapy with nanomaterials can reduce the dose of
chemotherapeutic drugs required for effective cancer treatment by minimizing toxic side …

An anti-adhesive barrier membrane incorporating hyaluronic acid (HA) can reduce
fibroblasts attachment and impart lubrication effect for smooth tendon gliding during …

This study develops a spiral wound scaffold based on gelatin/PCL/heparin (GPH) nanofiber
membranes for tendon tissue engineering. By embedding sutures in dual layers of aligned …

Hyaluronan is a biodegradable, biopolymer that represents a major part of the extracellular
matrix and has the potential to be fabricated in a fibrous form conjugated with other polymers …

Hyaluronic acid (HA) has been suggested to be a preferential material for the delivery of
adipose-derived stem cells (ASCs) in wound healing. By incorporating HA in electrospun …

Tendon disease is a significant and growing burden to healthcare systems. One strategy to
address this challenge is tissue engineering. A widely held view in this field is that …

In this study, we intend to develop an effective tendon tissue engineering scaffold that can
provide mechanical stability and tendon regeneration ability. Using a novel electrospinning …