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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/25749


    Title: 利用PDMS微流道做出三維的細胞培養;3D Cell Cultured By PDMS Based Microfluidic Device
    Authors: 林亞頡;YA CHIEH
    Contributors: 生物物理研究所
    Keywords: 利用PDMS微流道做出三維的細胞培養;3D Cell Cultured By PDMS Based Microfluidic Devi
    Date: 2009-10-19
    Issue Date: 2010-06-11 16:11:53 (UTC+8)
    Publisher: 國立中央大學圖書館
    Abstract: 微流道現在是一個很新又熱門的科學,由於製程技術的進步,使得微流道的運用也越來越廣。利用PDMS微流道裝置來製作體積比例很高且大小一致的微小明膠泡泡,收集完利用低溫成膠在經過戊二醛的化學固定後,放入高真空箱,使內外環境的壓力差將氮氣排出後,便可以得到一個大小均一的中空六角形多邊形結構。藉由排出氣體的動作,使得大小均一的蜂窩狀明膠結構是開放式的空腔。由於明膠的材料可用在細胞培養,因此在植入細胞後,可以觀察到細胞的生長情況是健康的。最後再利用PDMS做出迷你的擴散裝置,來做毒物測試,此PDMS裝置能使明膠骨架中的一半細胞死亡,另一半則不受影響。藉由結果可以知道, PDMS裝置可以快速且穩定的製作泡泡,得到大小一致的空腔開放式結晶型明膠骨架。種入細胞後的骨架搭配迷你裝置在未來不管是做細胞分化的觀察以及人工組織的定量分析一定會有相當大的幫助。 Microfluidics has become widely popular in the past decade and shows many applications from PCR, Cell sorting, single cell analysis, and so on. In this thesis, I show a new application to fabricate 3D ordered scaffolds for 3D cell cultures and to create a concentration gradient in such scaffolds. Our strategy to create scaffolds is to generate monodisperse bubbles in gelatin and to collect them. At high gas fraction, monodisperse bubbles self-assemble into crystallized foam structures. Next we congeal the gelatin solution make solid foam by lowering the temperature and crosslink with glutaraldehyde before the coarsening of bubbles. Finally, we degas the solid gel foam by immersing foam in liquid media under vacuum. The facet between the cells in the solid foam will be burst due to the pressure difference inside the foam and the ambient. The open solid foam is readily to be served as scaffold and seeded with cells. Cells proliferate inside the scaffolds. We also construct static reservoir systems to create a concentration gradient. We show the cells respond to the concentration gradient of surfactant triton-X100 by a dead-live assay.
    Appears in Collections:[Graduate Institute of Biophysics] Electronic Thesis & Dissertation

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