Literature DB >> 19216632

Three-dimensional porous biodegradable polymeric scaffolds fabricated with biodegradable hydrogel porogens.

Jinku Kim1, Michael J Yaszemski, Lichun Lu.   

Abstract

We have developed a new fabrication technique to create three-dimensional (3D) porous poly(epsilon-caprolactone fumarate) (PCLF) scaffolds using hydrogel microparticle porogens, as an alternative to overcome certain limitations of traditional scaffold fabrication techniques such as a salt leaching method. Both natural hydrogel, gelatin, and synthetic hydrogel, poly(ethylene glycol) sebacic acid diacrylate, were used as porogens to fabricate 3D porous PCLF scaffolds. Hydrogel microparticles were prepared by a single emulsion technique with the particle size in the range of 100-500 microm after equilibrium in water. The pore size distribution, porosity, pore interconnectivity, and spatial pore heterogeneity of the 3D PCLF scaffolds were assessed using micro-computed tomography and imaging analysis. Scaffolds fabricated with the hydrogel porogens had higher porosity and pore interconnectivity as well as more homogeneous spatial pore distribution, compared to the scaffolds made from the salt leaching process. Compressive moduli of the scaffolds were also measured and showed that lower porosity yielded greater modulus of the scaffolds. Overall, the new fabrication technology using hydrogel porogens may be beneficial for certain tissue engineering applications.

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Year:  2009        PMID: 19216632      PMCID: PMC2819712          DOI: 10.1089/ten.TEC.2008.0642

Source DB:  PubMed          Journal:  Tissue Eng Part C Methods        ISSN: 1937-3384            Impact factor:   3.056


  32 in total

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Authors:  Jinku Kim; Kee-Won Lee; Theresa E Hefferan; Bradford L Currier; Michael J Yaszemski; Lichun Lu
Journal:  Biomacromolecules       Date:  2007-12-12       Impact factor: 6.988
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  16 in total

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Journal:  Tissue Eng Part C Methods       Date:  2014-09-29       Impact factor: 3.056

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Authors:  Masako Kishida; Ashlee N Ford Versypt; Daniel W Pack; Richard D Braatz
Journal:  Optim Control Appl Methods       Date:  2013-11       Impact factor: 2.530

5.  Hydrogel microparticles for biomedical applications.

Authors:  Andrew C Daly; Lindsay Riley; Tatiana Segura; Jason A Burdick
Journal:  Nat Rev Mater       Date:  2019-11-07       Impact factor: 66.308

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Authors:  Jinku Kim; Aditi Sharma; Brett Runge; Heather Waters; Bruce Doll; Sean McBride; Pedro Alvarez; Mahrokh Dadsetan; Michael J Yaszemski; Jeffrey O Hollinger
Journal:  J Tissue Eng Regen Med       Date:  2011-07-11       Impact factor: 3.963

Review 7.  Liquid-liquid two-phase systems for the production of porous hydrogels and hydrogel microspheres for biomedical applications: A tutorial review.

Authors:  Donald L Elbert
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8.  Modular scaffolds assembled around living cells using poly(ethylene glycol) microspheres with macroporation via a non-cytotoxic porogen.

Authors:  Evan A Scott; Michael D Nichols; Rebecca Kuntz-Willits; Donald L Elbert
Journal:  Acta Biomater       Date:  2009-07-14       Impact factor: 8.947

9.  Development of 3D-printed PLGA/TiO2 nanocomposite scaffolds for bone tissue engineering applications.

Authors:  M Rasoulianboroujeni; F Fahimipour; P Shah; K Khoshroo; M Tahriri; H Eslami; A Yadegari; E Dashtimoghadam; L Tayebi
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Journal:  Biomaterials       Date:  2015-12-31       Impact factor: 12.479
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