Study of morphology on microcellular injection molded scaffolds for tissue engineering

Zhixiang Cui, Haibin Zhao, Yiyan Peng, Michael Kaland, Lih Sheng Turng*, Changyu Shen

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

In this research, injection molding was combined with a novel material combination, supercritical fluid processing, and particulate leaching techniques to produce highly porous and interconnected structures that have the potential to act as scaffolds for tissue engineering applications. The foamed structures, molded with Poly(e-caprolactone) (PCL) and Polyethylene oxide) (PEO) with salt as the particulate, were processed without the aid of organic solvents, which can be detrimental to tissue growth. The pore size in the scaffolds is controlled by salt particulates and interconnectivity is achieved by the co-continuous blending morphology of biodegradable PCL matrix with water-soluble PEO. Nitrogen (N2) at the supercritical state is used to serve as a plasticizer, thereby imparting moldability of blends even with an ultra high salt particulate content, and allows the use of low processing temperatures. Interconnected pores of ∼200 μm in diameter and porosities of ∼72% are reported and discussed.

Original languageEnglish
Title of host publication71st Annual Technical Conference of the Society of Plastics Engineers 2013, ANTEC 2013
PublisherSociety of Plastics Engineers
Pages1164-1168
Number of pages5
ISBN (Print)9781632665300
StatePublished - 2013
Externally publishedYes
Event71st Annual Technical Conference of the Society of Plastics Engineers 2013, ANTEC 2013 - Cincinnati, OH, United States
Duration: 22 04 201324 04 2013

Publication series

NameAnnual Technical Conference - ANTEC, Conference Proceedings
Volume2

Conference

Conference71st Annual Technical Conference of the Society of Plastics Engineers 2013, ANTEC 2013
Country/TerritoryUnited States
CityCincinnati, OH
Period22/04/1324/04/13

Keywords

  • Microcellular injection molding
  • Particulate leaching
  • Porous and interconnected structure
  • Tissue engineering

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