Wet‐spinning of polymeric materials has been widely investigated for various biomedical
applications, such as extracorporeal blood treatment, controlled drug release and tissue …

Drug‐eluting medical textiles have recently gained great attention to be used in different
applications due to their cost effectiveness and unique physical and chemical properties …

Tissue-engineered approaches to regenerate bone in the craniomaxillofacial region utilize
biomaterial scaffolds to provide structural and biological cues to stem cells to stimulate …

Metal–organic frameworks (MOFs) have recently emerged as a useful class of
nanostructures with well-suited characteristics for drug delivery applications, due to the high …

A simple method for the functionalization of a common implant material (Ti6Al4V) with
biodegradable, drug loaded chitosan-tripolyphosphate (CS-TPP) nanoparticles is …

Nano/microfibrous polymeric constructs present various inherent advantages, such as highly
porous architecture and high surface to volume ratio, making them attractive for tissue …

Here we report on a simple and flexible approach for continuous in situ fabrication of
chitosan microfibers with controllable internals from tubular to peapod-like structures in …

The employment of a tissue engineering scaffold able to release an antimicrobial agent with
a controlled kinetics represents an effective tool for the treatment of infected tissue defects as …

Nonwoven textiles are used extensively in the field of medicine, including wound healing,
but these textiles are mostly from conventional nondegradable materials, eg, cotton or …

Wet spun microfibers have great potential in the design of multifunctional controlled release
materials. Curcumin (Cur) and vitamin E acetate (Vit. E Ac) were used as a model drug …