Journal
RAPID PROTOTYPING JOURNAL
Volume 18, Issue 4, Pages 299-307Publisher
EMERALD GROUP PUBLISHING LIMITED
DOI: 10.1108/13552541211231725
Keywords
Rapid prototypes; Polymers; Scaffolds; Microfabrication; Computer aided design; Computer aided manufacturing
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Purpose - The traditional tissue engineering approach employs rapid prototyping systems to realise microstructures (i.e. scaffolds) which recapitulate the function and organization of native tissues. The purpose of this paper is to describe a new rapid prototyping system (PAM-modular micro-fabrication system, PAM(2)) able to fabricate microstructures using materials with different properties in a controlled environment. Design/methodology/approach - Computer-aided technologies were used to design multi-scale biological models. Scaffolds with specific features were then designed using custom software and manufactured using suitable modules. In particular, several manufacturing modules were realised to enlarge the PAM(2) processing material window, controlling physical parameters such as pressure, force, temperature and light. These modules were integrated in PAM(2), allowing a precise control of fabrication parameters through a modular approach and hardware configuration. Findings - Synthetic and natural polymeric solutions, thermo-sensitive and photo-sensitive materials can be used to fabricate 3D scaffolds. Both simple and complex architectures with high fidelity and spatial resolution ranging from +/- 15 mu m to +/- 200 mu m (according to ink properties and extrusion module used) were realised. Originality/value - The PAM(2) system is a new rapid prototyping technique which operates in controlled conditions (for example temperature, pressure or light intensity) and integrates several manufacturing modules for the fabrication of complex or multimaterial microstructures. In this paper it is shown how the system can be configured and then used to fabricate scaffolds mimicking the extra-cellular matrix, both in its properties (i.e. physic-chemical and mechanical properties) and architecture.
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