CHI ZHANG

Type

Text

Type

Thesis

Advisor

Meng, Yizhi | Gersappe, Dilip | Hadjiargyrou, Michael.

Date

2011-08-01

Keywords

Bone, Cornstarch, Gelatin, Hydroxyapatite, Supercritical Fluids | Materials Science

Department

Department of Materials Science and Engineering

Language

en_US

Source

This work is sponsored by the Stony Brook University Graduate School in compliance with the requirements for completion of degree.

Identifier

http://hdl.handle.net/11401/71525

Publisher

The Graduate School, Stony Brook University: Stony Brook, NY.

Format

application/pdf

Abstract

? The key to designing a suitable material for bone replacement is to mimic the mineral component and the microstructure of natural bone. The novel artificial bone scaffold should have good mechanical properties, high porosity, bioactivity, and controllable degradation kinetics. In this work, a three-dimensional scaffold based on a polymer phase consisting of only naturally- derived components (gelatin and cornstarch) and a mineral phase (hydroxyapatite (HA)) was produced using supercritical CO2 as the foaming agent. By setting the pressure of the supercritical CO2 at 2500 psi and the temperature at 35??C, 3-D porous scaffolds were successfully fabricated and no organic solvent was used in the entire process. The results show the amount of the cornstarch to have a direct effect on the porosity, in that, without cornstarch the scaffold could not be foamed (the total volume has not increased in this case). Pore size of the scaffolds was influenced by the HA concentration. We also investigated the effect of two different gelatin cross-linking agents (trisodium citrate and EDC/NHS) and different cross- linking methods (infusion and immersion) on degradation kinetics and supercritical CO2 foaming. The results show that EDC/NHS cross-linked samples (by the immersion method) lasted longest for about 7 days at 37??C in SBF. | 83 pages

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