Tissue engineering embraces the potential of recreating and replacing defective body parts
by advancements in the medical field. Being a biocompatible nanomaterial with outstanding …

This study provides a review of the therapeutic potential of graphene dressing scaffolds and
mesenchymal stem cells (MSCs) and their synergistic effects with respect to cutaneous …

The scaffolds, which morphologically and physiologically mimic natural features of the bone,
are of high demand for regenerative medicine. To address this challenge, we have …

In this study, based on the collection process, three-dimensional aligned fiber scaffolds from
gelatin and zein protein were manufactured using Forcespinning®. The homogeneous …

Nano-based systems provide many advantages, including eluding gastrointestinal and first-
pass metabolism of the drug and improving the potential advantage of reduced doses of …

The growing demand for more efficient materials for medical applications brought together
two previously distinct fields: medicine and engineering. Regenerative medicine has …

Modern 3D printing of implantable devices provides an important opportunity for the
development of personalized implants with good anatomical fit. Nevertheless, 3D printing of …

The stiffness of a nano-fibrous scaffold is generally enhanced due to the size-dependency of
the thin nanofibers contained in the scaffold. We proposed a model that incorporates size …

In this study, we report on the fabrication of hybrid nanofibers for labeling and bioimaging
applications. Our approach is involved for developing highly fluorescent nanofibers using a …

Aligned fiber scaffolds can mimic the parallel aligned fibrils in the extracellular matrix (ECM)
of bones, and thus regulate many cellular behaviors. The aligned scaffolds are usually …