In the past few years, researchers have focused on the development of three-dimensional (3D) advanced scaffolds and multifunctional hydrogel-based materials. As reported in literature, 3D polymer-based composite scaffolds for tissue engineering have been manufactured through conventional and advanced manufacturing techniques, and different injectable materials and hydrogel-based systems have been proposed and studied. The aim of the current research was to define an approach in the development of multifunctional tools spanning from 3D hierarchical scaffolds for soft tissue engineering to advanced hydrogel-based devices for in situ cell or drug release. The mechanical/rheological behaviour as well as the structural/functional features of the designed devices were discussed and analyzed. (C) 2015 The Authors. Published by Elsevier B.V.
From 3D Hierarchical Scaffolds for Tissue Engineering to Advanced Hydrogel-Based and Complex Devices for in situ Cell or Drug Release / Gloria, Antonio; Russo, Teresa; Rodrigues, Diogo F. Lopes; D'Amora, Ugo; Colella, Francesco; Improta, Giovanni; Triassi, Maria; De Santis, Roberto; Ambrosio, Luigi. - 49:(2016), pp. 72-75. (Intervento presentato al convegno 2nd CIRP Conference on Biomanufacturing, 2016 tenutosi a Manchester Conference Centre, gbr nel 2015) [10.1016/j.procir.2015.07.036].
From 3D Hierarchical Scaffolds for Tissue Engineering to Advanced Hydrogel-Based and Complex Devices for in situ Cell or Drug Release
Gloria, Antonio;D'AMORA, Ugo;COLELLA, FRANCESCO;Improta, Giovanni;Triassi, Maria;
2016
Abstract
In the past few years, researchers have focused on the development of three-dimensional (3D) advanced scaffolds and multifunctional hydrogel-based materials. As reported in literature, 3D polymer-based composite scaffolds for tissue engineering have been manufactured through conventional and advanced manufacturing techniques, and different injectable materials and hydrogel-based systems have been proposed and studied. The aim of the current research was to define an approach in the development of multifunctional tools spanning from 3D hierarchical scaffolds for soft tissue engineering to advanced hydrogel-based devices for in situ cell or drug release. The mechanical/rheological behaviour as well as the structural/functional features of the designed devices were discussed and analyzed. (C) 2015 The Authors. Published by Elsevier B.V.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.