Scaffolds play a pivotal role in tissue engineering, promoting the synthesis of neo extra-cellularmatrix (ECM), and providing temporarymechanical support for the cells during tissue regeneration. Advances introduced by additive manufacturing techniques have significantly improved the ability to regulate scaffold architecture, enhancing the control over scaffold shape and porosity. Thus, considerable research efforts have been devoted to the fabrication of 3D porous scaffolds with optimized micro-architectural features. This chapter gives an overview of the methods for the design of additively manufactured scaffolds and their applicability in tissue engineering (TE). Along with a survey of the state of the art, the Authors will also present a recently developed method, called Load-Adaptive Scaffold Architecturing (LASA), which returns scaffold architectures optimized for given applied mechanical loads systems, once the specific stress distribution is evaluated through Finite Element Analysis (FEA). © Springer Science+Business Media Dordrecht 2014
Optimization Approaches for the Design of Additively Manufactured Scaffolds
Giannitelli SM;Rainer A;Accoto D;Guglielmelli E;Trombetta M
2014-01-01
Abstract
Scaffolds play a pivotal role in tissue engineering, promoting the synthesis of neo extra-cellularmatrix (ECM), and providing temporarymechanical support for the cells during tissue regeneration. Advances introduced by additive manufacturing techniques have significantly improved the ability to regulate scaffold architecture, enhancing the control over scaffold shape and porosity. Thus, considerable research efforts have been devoted to the fabrication of 3D porous scaffolds with optimized micro-architectural features. This chapter gives an overview of the methods for the design of additively manufactured scaffolds and their applicability in tissue engineering (TE). Along with a survey of the state of the art, the Authors will also present a recently developed method, called Load-Adaptive Scaffold Architecturing (LASA), which returns scaffold architectures optimized for given applied mechanical loads systems, once the specific stress distribution is evaluated through Finite Element Analysis (FEA). © Springer Science+Business Media Dordrecht 2014I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.