Poly(l-lactide-co-ɛ-caprolactone) electrospun nanofibers for encapsulating and sustained releasing proteins

## Abstract The aim of this study was to investigate electrospinning of emulsions to prepare core‐shell type of nanofibers for being an innovative type of cell‐growth scaffolds with potentially controllable drug‐releasing capabilities. The hypothesis was that the poly(L‐lactide‐__co__‐ε‐caprolacton

## Abstract Blends of PAni and PLCL are electrospun to prepare uniform fibers for the development of electrically conductive, engineered nerve grafts. PC12 cell viability is significantly higher on RPACL fibers than on PLCL‐only fibers, and the electrical conductivity of the fibers affects the diff

## Abstract In this work, electrically conductive polyaniline (PAni) doped with camphorsulfonic acid (CPSA) is blended with poly(L‐lactide‐__co__‐__ε__‐caprolactone) (PLCL), and then electrospun to prepare uniform nanofibers. The CPSA‐PAni/PLCL nanofibers show a smooth fiber structure without coars

## Abstract Electrospun composite mats of poly[(D,L‐lactide)__‐co‐__glycolide] and collagen with high porosities of 85–90% and extended pore sizes of 90–130 µm were prepared to mimic the ECM morphologically and chemically. The existence of collagen molecules on the fiber surface was confirmed, enab

## Abstract Degeneration of the intervertebral disk constitutes one of the major causes of low back pain in adults aged 20–50 years old. In this study, injectable, __in situ__ setting, degradable composites aimed for intervertebral disk replacement were prepared. β‐TCP and calcium carbonate particl