| Literature DB >> 25491863 |
Yong Sang Cho1, Myoung Wha Hong2, So-Youn Kim1, Seung-Jae Lee1, Jun Hee Lee3, Young Yul Kim4, Young-Sam Cho5.
Abstract
In this study, a novel technique was proposed to fabricate dual-pore scaffolds combining both SLUP (salt leaching using powder) and WNM (wire-network molding) techniques. This technique has several advantages: solvent-free, no limit on the use of thermoplastic polymers as a raw material, and easiness of fabricating scaffolds with dual-scale pores that are interconnected randomized small pores. To fabricate dual-pore scaffolds, PCL and NaCl powders were mixed at a certain ratio. Subsequently, needles were inserted into a designed mold, and the mixture was filled into the mold thereafter. Subsequently, after the mold was pressurized, the mold was heated to melt the PCL powders. The PCL/NaCl structure and needles were separated from the mold. The structure was sonicated to leach-out the NaCl particles and was dried. Consequently, the remaining PCL structure became the dual-pore scaffold. To compare the characteristics of dual-pore scaffolds, control scaffolds, which are 3D plotter and SLUP scaffolds were fabricated.Entities:
Keywords: Dual-pore scaffold; PCL (polycaprolactone); SLUP (salt leaching using powder); Tissue engineering; WNM (wire-network molding)
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Year: 2014 PMID: 25491863 DOI: 10.1016/j.msec.2014.10.009
Source DB: PubMed Journal: Mater Sci Eng C Mater Biol Appl ISSN: 0928-4931 Impact factor: 7.328