Characterization of cellular carriers for use in injectable tissue-engineering composites

## Abstract Chitosan scaffolds have gained much attention in tissue engineering. However, brittleness and low biodegradability limit scaffolds application, especially in use as guided tissue regeneration membranes (GTRm) in surgical operations. The first objective of this work is to improve the bri

## Abstract Adult porcine nucleus pulposus cells were seeded onto gelatin, demineralized bone matrix (DBM), and polylactide scaffolds and cultured __in vitro__. Cellular behavior in response to the scaffolds was analyzed using biochemical assays, histology, and real‐time quantitative reverse transc

## Abstract Herein we report on the development and characterization of a biodegradable composite scaffold for ligament tissue engineering based on the fundamental morphological features of the native ligament. An aligned fibrous component was used to mimic the fibrous collagen network and a hydrog

## Abstract Simple and effective biocompatible materials that mimic the natural extracellular matrix (ECM) were developed for a variety of uses in regenerative medicine. These synthetic ECMs (sECMs) were designed to recapitulate the minimal composition required to obtain functional ECMs. The sECM c

## Abstract The aim of this study was to develop a technique to decellularize a porcine cartilage bone construct with view to using this as a biological scaffold for cartilage substitution. The decellularization protocol applied freeze/thaw cycles; this was followed by cyclic incubation in hypotoni