A new method for fabrication of chitosan-based hydrogel implants intended for peripheral
nervous tissue regeneration was developed. The method is based on an electrodeposition …

Chitosan-hydroxyapatite tubular-shaped hydrogel structures have been successfully
obtained by electrophoretic deposition. The deposits show great potential in the …

Tubular chitosan-based hydrogels, obtained in an electrodeposition process, are subject of
degradation and stability studies. The implants are prepared from polymer with different …

Tubular-shaped hydrogel structures were obtained in the process of cathodic
electrodeposition from a chitosan–hydroxyapatite solution carried out in a cylindrical …

The main objective of the work was to elaborate a methodology of manufacturing tubular
guide with an internal scaffold of polysaccharide hydrogel towards potential application for …

Biomaterial implants are a promising strategy to replace neural tissue that is lost after
traumatic nerve damage. Chitosan (Ch) is a suitable material for nerve implantation when it …

A simple method to covalently crosslink chitosan using poly (ethylene glycol) diacid as
crosslinking agent is proposed. Networks net-chitosan-ι-PEG (COOH) 2 were obtained by …

The use of materials, containing the biocompatible and bioresorbable biopolymer poly (1→
4)‐2‐amino‐2‐deoxy‐β‐D‐glucan, containing some N‐acetyl‐glucosamine units (chitosan …

Studies on synthesis, physico-chemical and biological properties of novel biomimetic
materials, potentially useful as injectable hydrogels are presented. These materials are in …

Scaffolds based on chitosan, collagen, and hyaluronic acid supplemented with nano-
hydroxyapatite were obtained with the use of the freeze-drying method. Composites swelling …