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논문 기본 정보
- 자료유형
- 학술대회자료
- 저자정보
- 발행연도
- 2017.5
- 수록면
- 3 - 23 (21page)
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The achievement of tissue engineering can be highly depending on the capability to generate complicated, cell seeded three dimensional (3D) micro/nano-structures. So, various fabrication techniques that can be used to precisely design the architecture and topography of scaffolding materials will signify a key aspect of multi-functional tissue engineering. Previous methods for obtaining scaffolds based on top-down are often not satisfactory to produce complex micro/nano-structures due to the lack of control on scaffold architecture, porosity, and cellular interactions. However, a bioprinting method can be used to design sophisticated 3D tissue scaffolds that can be engineered to mimic the tissue architecture using computer aided approach. Also, in recent, the method has been modified and optimized to fabricate scaffolds using various natural biopolymers (collagen, alginate, and chitosan etc.). Variation of the topological structure and polymer concentration allowed tailoring the physical and biological properties of the scaffolds. In this presentation, the 3D bioprinting supplemented with a newly designed plasma treatment for attaining highly bioactive and functional scaffolds for tissue engineering applications will be introduced. Moreover, various in vivo and in vitro results will show that the fabricated scaffolds can carry out their structural and biological functionality.
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VARIOUS BIOPRINTING SYSTEMS FOR DESIGNING TISSUE ENGINEERING SCAFFOLDS
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Dual pore scaffold fabrication using 3D bioprinting system
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Solid Freeform Techniques Application in Bone Tissue Engineering for Scaffold Fabrication
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[Review] Decellularized Extracellular Matrix Scaffolds in Various Tissue Engineering Applications
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Chitosan-Poly(Vinyl Alcohol) Nanofibers by Free Surface Electrospinning for Tissue Engineering Applications
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Automatic design, planning and drawing of scaffolding system for constructions
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Fabrication of Functionalized Porous Scaffold for Tissue Engineering
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Study on stability and design guidelines for the combined system of scaffolds and shores
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Hybrid Additive Microfabrication Scaffold Incorporated with Highly Aligned Nanofibers for Musculoskeletal Tissues
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Strategies for Constructing Tissue-Engineered Fat for Soft Tissue Regeneration
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Bioprinting of Tissue Scaffold with Hyaluronate-Based Self-healing Hydrogel
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Biomaterial Scaffolds Based on Functional Hydrogel Structures for Hepatic Tissue Engineering
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Fabrication of various composite scaffolds for bone tissue engineering
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Development of new composite scaffolds for bone tissue engineering
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Fabrication and Characterization of Polyphosphazene/ Calcium Phosphate Scaff olds Containing Chitosan Microspheres for Sustained Release of Bone Morphogenetic Protein 2 in Bone Tissue Engineering
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Fabrication of Biodegradable Polyurethane Scaffolds with Controlled Porous Structures for Tissue Engineering
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Development of A Powder Extruder System for Dual-Pore Tissue-Engineering Scaffold Fabrication
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UCI(KEPA) : I410-ECN-0101-2018-581-000913181