Tissue engineering applications technologies

Duarte, ARC., Mano, JR, Reis, RL. 2009. Preparation of chitosan scaffolds loaded with dexamethasone for tissue engineering applications using supercritical fiuid technology. European Polymer Journal 45 141-148. 

Ozdil, D., and H.M. Aydin. 2014. Pol5aners for medical and tissue engineering applications. Journal of Chemical Technology and Biotechnology 89(12) 1793-1810. 

Thin film coating technologies for tissue engineering applications... 

Figure 19.1 Cardiac tissue engineering triad. Schematic representation of the interplay between the components of the cardiac tissue engineering triad. Biomaterials are key components for cardiac tissue engineering applications and play a critical role in this technology. MSC, mesenchymal stem cell ADSC, adipose stem cell iPS, induced pluripotent cell CPC, cardiac progenitor cell VEGF, vascular endothelial growth factor FGF, fibroblast growth factor NRG, neuregulin EPO, erythropoietin HGF, hepatocyte growth factor SDF-1, stromal cell—derived factor 1.

D printing was developed at Massachusetts Institute of Technology to process bioresorbable scaffolds for tissue engineering applications [106,107]. The technology involves formation of a powdered layer, followed by printing of binder solution onto the powder bed to form a first layer. The bed is then lowered to redeposit powder and... 

Boccaccini, A.R. and Maquet, V. (2003) Bioresorbable and bioactive polymer/ Bioglass composites with tailored pore structure for tissue engineering applications. Composites Science and Technology, 63(15), 2417-29. 

---