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김예슬(YeSeul Kim),김민성(Minseong Kim),전호준(Hojun Jeon),김용복(YongBok Kim),이형진(Hyeongjin Lee),황헌(Heon Hwang),조재열(JaeYoul Cho),김근형(GeunHyung Kim) 대한기계학회 2013 대한기계학회 춘추학술대회 Vol.2013 No.12
The inherent properties of nanosized silica (sil), such as high biocompatibility, chemical and colloidal stability, and easy surface modification, have provided silica materials with a tremendous potential in biomedical applications. In this study, the biocomposites consisting of poly (ε-caprolactone) (PCL) and Sil fabricated by a melt-plotting/coating process can be applied as a potential scaffold for bone tissue regeneration. The pore size and strut diameter of the multi-layered biocomposites were fixed at approximately 300㎛ and 300㎛, respectively, and the morphology, hydrophilic properties, water-absorption, and mechanical strength of various compositions (1.8, 4.8, 9.4wt% of sil) in the composites were evaluated. Through the water-contact angle and water-absorption, the bio-composites displayed dramatically increased hydrophilic properties, and highly roughened surface compared to the pure PCL scaffold. The in vitro biocompatibilities (cell proliferation and mineralization) of the bio-composites wereexamined using pre-osteoblasts (MC3T3E1). Based on scanning electron microscope images, the cells were more easily adhered and grown on the surface of the bio-composites, showing enhanced mineral deposition compared to the pure PCL scaffold after 14 days of cell culture. These results were because the coated sil component in the bio-composites could induce the osteogensis of the composites. Based on the physical and biological activities, we believe that the biocomposite will be a potential biomaterial for enhancing bone tissue regeneration.