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Effect of Gelatin Particles on Cell Proliferation in Polymer Scaffolds Made Using Particulate Leaching Technique.  

서수원 (성균관대학교 삼성서울병원 의공학과)
신지연 (성균관대학교 삼성서울병원 의공학)
김진훈 (성균관대학교 삼성서울병원 의공학)
김진국 (삼성서울병원 흉부외)
길광현 (성균관대학교 삼성서울병원 의공학과)
Publication Information
Journal of Biomedical Engineering Research / v.25, no.1, 2004 , pp. 1-4 More about this Journal
Abstract
On the background of general idea and technique of bioscience, medicine and engineering, tissue engineering aim at maintenance, improvement and repair of human body function through manufacturing and transplantation of artificial tissue and organ exchangeable human body. Basic material used in the area is scaffold that aid tissue and organ formation. Making scaffold, solvent-casting and particulate leaching technique is widely used in manufacturing of porous polymer scaffold. There are many types of particle including salt and gelatin. Salt is a most commonly used particulate because it is easily available and very easy to handle and gelatin particle is another candidate for this method because it is known as a material, which enhances cell attachment and proliferation. But there is no comparative study of two kinds of materials. In this study we compared the biocompatibility of the two scaffolds made from salt(salt scaffold) and gelatin particle (gelatin scaffold). These results demonstrated that gelatin scaffold showed better attachment of cells at the initial stage and better proliferation of cells. The better performance of gelatin scaffold is contributed to the better connection of pores in the same porosity.
Keywords
PLGA; salt scaffold; gelatin scaffold;
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