http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
폴리카프로락톤/알지네이트로 구성된 바이오 용액코팅 공정의 하이브리드 세포담체 제작
김용복(YongBok Kim),이형진(Hyeongjin Lee),안승현(SeungHyun Ahn,),전호준(HoJun Jeon),여명구(MyungGu Yeo),이경호(KyoungHo Lee),김민성(Minseong Kim),김근형(GeunHyung Kim) 대한기계학회 2014 대한기계학회 춘추학술대회 Vol.2014 No.11
Alginate has been widely used in various tissue regenerations, and it has also recently been applied to bone tissue regeneration due to its ability to promote cell growth and bone tissue development. However, although alginate has excellent biocompatibility for the tissue regeneration, it suffers from low mechanical properties and low processability to obtain artificially controlled internal microstructures. In this study, to overcome the limitations, we propose a new cell-coating process supplemented with cells in alginate. The cell-coated PCL/alginate scaffold consisted of alginate with a mixture of cells coated on the PCL struts. The fabricated scaffold showed highly cellular behavior and uniform cell density.
WonJin Kim(김원진),JiUn Lee(이지운),Gi-Hoon Yang(양지훈),Hyeongjin Lee(이형진),YongBok Kim(김용복),Minseong Kim(김민성),YoungWon Koo(구영원),GeunHyung Kim(김근형) 대한기계학회 2016 대한기계학회 춘추학술대회 Vol.2016 No.12
Collagen- based cell-printing technology has provided a new strategy for tissue engineering. However, although collagen-based scaffolds can provide an outstanding biofunctional benefits, their low mechanical strength and poor controllability have been limitation for their usage as hard tissue regeneration. To overcome this limitation, α-tricalcium phosphate (α-TCP) has been used for biomedical scaffolds. α-TCP is biocompatible and soluble material, and hydrolyzed rapidly to calcium-deficient hydroxyapatite which makes α-TCP a useful material for bone tissue regeneration. in this study, we fabricate 3-dimensional (3D) scaffold based on α-TCP/collagen struts coated with collagen-based bioink. To compare the physical and cellular activities, we used a scaffold composed of α-TCP/collagen scaffold coated with cell-embedded collagen. Following fabrication of the cell (MC3T3-E1)-embedded a-TCP/collagen scaffold, the cellular activities were evaluated in vitro.
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.
골 조직 재생을 위한 전기수력학적 공정을 이용한 섬유구조의 PCL/ceramic 세포담체 제작
김민성(Minseong Kim),이형진(Hyeongjin Lee),전호준(HoJun Jeon),여명구(MyungGu Yeo),김용복(YongBok Kim),양지훈(Gi-Hoon Yang),김원진(WonJin Kim),김근형(GeunHyung Kim) 대한기계학회 2016 대한기계학회 춘추학술대회 Vol.2016 No.12
In this study, we fabricated a new ceramic fibrous scaffold, using the initial jet of an electrospinning process and ethanol media as a target. The fabricated three-dimensional (3D) fibrous ceramic structure was configured with multilayered micro-sized struts consisting of randomly entangled micro/nanofibrous architecture, similar to that of native extracellular matrixes (ECMs). The fabrication of the ceramic structure was highly dependent on various processing parameters, such as the surface tension of the target media, and the flow rate and weight fraction of the polymer solution. As a tissue regenerative material, the 3D fibrous ceramic scaffold was cultured with pre-osteoblasts to observe the initial cellular activities in comparison with a solid freeform fabricated 3D scaffold sharing a similar structural geometry. The micro/nanofibrous 3D fibrous ceramic strut scaffold exhibited significantly high initial cell attachment, proliferation, and viability compared to solid freeform fabricated 3D scaffold.
이종범 ( Jongboem Lee ),김용복 ( Yongbok Kim ),현완순 ( Hwangjoo Lee ),이황주 ( Onesoon Hyun ),박재성 ( Jaesung Park ) 한국품질경영학회 2018 한국품질경영학회 학술대회 Vol.2018 No.-
Purpose In developing the methodology for achieving the product safety quality, we recognize the close linkage with the quality management system to the industry as a whole and propose an implementation methodology to eliminate the inherent problem of product safety. Methods A study of methodology for ensuring product safety by using procedural methods of applying various methods to achieve product safety based on the quality management system, and Product Safety Management System and research on QCC (Quality Control Circle) implementation method and improvement procedure methodology to improve R & D, design, production, quality, safety quality level, product safety quality a systematic methodology of achieving. Results Developing a model to improve the safety level of the product, developing product safety quality improvement model which is a method to identify, evaluate and eliminate potential risks, improve product safety quality Developing a manual to improve the product safety quality of small and medium sized companies easily in accordance with the stages of finding, evaluating, and eliminating potential failures by applying widely used product safety quality improvement techniques including techniques Conclusion: Suggest ideas for a systematic approach to prevent accidents and personal injury accidents caused by the absence of risk management in each company
에어로졸 세포 프린팅 기법을 이용한 세포가 포함된 콜라겐/알지네이트 세포담체 개발
이형진(Hyeongjin Lee),김용복(YongBok Kim),안승현(SeungHyun Ahn),전호준(HoJun Jeon),여명구(MyungGu Yeo),김민성(Minseong Kim),이경호(KyoungHo Lee),김근형(GeunHyung Kim) 대한기계학회 2014 대한기계학회 춘추학술대회 Vol.2014 No.11
A modified dispensing method for fabricating three-dimensional (3D) cell-laden alginate/collagen scaffolds is presented that utilizes aerosolized calcium chloride solutions for crosslinking. To evaluate the process, preosteoblasts (MC3T3-E1) mixed with 3.5 wt% alginate and 2 wt% collagen(pH 7.5) were fabricated into a 3D scaffold (15 x 15 x 1.2 mm3). The fabricated cell-laden structure was highly porous and had uniformly designed pore size and shape. The scaffold-embedded cells were 87% viable compared to the initial cell viability, and the cell distribution was homogeneous. This innovative cell dispensing technique is likely to be a promising fabrication tool for obtaining functional 3D scaffolds for tissue regeneration.