Engineering Biocompatible Hydrogel Fibers With Tunable Mechanical Properties For Neural Tissue Engineering

Abstract: Neural tissue engineering holds a great promise for the treatment of neurodegenerative diseases and peripheral nerve injuries. However, the anisotropic mechanical and electrical properties of the highly aligned neural cells have hindered the development of a faithful in vitro disease models. In this study, a core-shell microfluidic extrusion method is implemented to fabricate a cell-laden composite hydrogel fiber with tunable mechanical properties. The hybrid hydrogel was formed using a core of GelMA mixed wit… Show more