High-resolution 3D scaffold model for engineered tissue fabrication using a rapid prototyping technique

Rapid prototyping, automatic image processing (computer-aided design (CAD)) and computer-aided manufacturing techniques are opening new and interesting prospects for medical devices and tissue engineering, especially for hard tissues such as bone. The development of a bone high-resolution scaffold p...

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Veröffentlicht in:	Medical & biological engineering & computing 2005-03, Vol.43 (2), p.196-199
Hauptverfasser:	Quadrani, P, Pasini, A, Mattiolli-Belmonte, M, Zannoni, C, Tampieri, A, Landi, E, Giantomassi, F, Natali, Casali, F, Biagini, G, Tomei-Minardi, A
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Sprache:	eng
Schlagworte:	Bone Substitutes Computer-Aided Design Durapatite Finite Element Analysis Humans Rapid prototyping Tissue engineering Tissue Engineering - methods Tomography, X-Ray Computed - methods
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container_title	Medical & biological engineering & computing
container_volume	43
creator	Quadrani, P Pasini, A Mattiolli-Belmonte, M Zannoni, C Tampieri, A Landi, E Giantomassi, F Natali Casali, F Biagini, G Tomei-Minardi, A
description	Rapid prototyping, automatic image processing (computer-aided design (CAD)) and computer-aided manufacturing techniques are opening new and interesting prospects for medical devices and tissue engineering, especially for hard tissues such as bone. The development of a bone high-resolution scaffold prototype using these techniques is described. The results testify to the fidelity existing between microtomographic reconstruction and CAD. Furthermore, stereolithographic manufacturing of this scaffold, which possesses a high degree of similarity to the starting model as monitored by morphological evaluations (mean diameter 569 +/- 147 microm), represents a promising result for regenerative medicine applications.
doi_str_mv	10.1007/BF02345954
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subjects	Bone Substitutes Computer-Aided Design Durapatite Finite Element Analysis Humans Rapid prototyping Tissue engineering Tissue Engineering - methods Tomography, X-Ray Computed - methods
title	High-resolution 3D scaffold model for engineered tissue fabrication using a rapid prototyping technique
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