Multi - Parameter Optimization for Two-Phase Unit-Cell based Tissue Scaffolds

C Gomez; T Denton; A Shokoufandeh; Wei Sun

doi:10.1109/NEBC.2006.1629760

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Multi - Parameter Optimization for Two-Phase Unit-Cell based Tissue Scaffolds

C Gomez, T Denton, A Shokoufandeh and Wei Sun

Proceedings of the IEEE 32nd Annual Northeast Bioengineering Conference, v 32, pp 77-78

2006

DOI: https://doi.org/10.1109/NEBC.2006.1629760

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Abstract

Assembly

Computer architecture

Computer science

Laboratories

Maintenance engineering

Mechanical engineering

Mechanical factors

Microscopy

Sun

Tissue engineering

Porous three-dimensional (3D) tissue scaffolds directly influence cell attachment, proliferation, and guidance of new tissue formation. Cells respond to a scaffold's architecture, mechanical properties, and transport properties. Given the number of design constraints, scaffold design must include multiple design parameters. Using a unit-cell based assembly approach, we introduce a method to account for multiple design parameters during scaffold assembly. This paper presents our method for integrating multiple parameters for unit-cell selection.

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Title: Multi - Parameter Optimization for Two-Phase Unit-Cell based Tissue Scaffolds
Creators: C Gomez - Laboratory for Computer-Aided Tissue Engineering, Department of Mechanical Engineering and Mechanics
T Denton
A Shokoufandeh - Drexel University
Wei Sun
Publication Details: Proceedings of the IEEE 32nd Annual Northeast Bioengineering Conference, v 32, pp 77-78
Conference: IEEE 32nd Annual Northeast Bioengineering Conference, 32nd
Publisher: IEEE
Number of pages: 1
Resource Type: Conference proceeding
Language: English
Academic Unit: Computer Science; Mechanical Engineering and Mechanics
Other Identifier: 991019173568604721

Multi - Parameter Optimization for Two-Phase Unit-Cell based Tissue Scaffolds

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