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 micro-tomographic 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 um), represents a promising result for regenerative medicine applications.
High resolution 3D scaffold model for engineered tissue fabrication using a rapid prototyping technique
Anna Tampieri;Elena Landi;
2005
Abstract
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 micro-tomographic 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 um), represents a promising result for regenerative medicine applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
