簡易檢索 / 詳目顯示

回結果列表
研究生: 邱新智
Chiu Hsin-Chih
論文名稱: 具定點藥物輸送功能之新型細胞晶片設計與製作
Design and Fabrication of A Novel Cell-chip with Local Drug Delivery Function
指導教授: 曾繁根
口試委員:
學位類別: 碩士
Master
系所名稱: 原子科學院 - 工程與系統科學系
Department of Engineering and System Science
論文出版年: 2007
畢業學年度: 95
語文別: 中文
論文頁數: 65
中文關鍵詞: 細胞晶片奈微米流道微機電製程
相關次數: 點閱:4下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 本研究利用微機電製程,設計製作一種新型可定點藥物輸送功能之細胞晶片,晶片上包含有細胞儲槽、快速定點輸送流道、微電極、微吸孔…等元件,將原本需要許多實驗器材才能執行的細胞實驗,整合於一平方公分大小的細胞晶片上;其能夠將細胞陣列化的在晶片上執行培養、藥物輸送、電擊、觀測等多種功能,對於單一細胞體內的生物資訊能夠快速輸出、同步觀測。而本文也利用不同方式設計製作了各種特殊的邊界流道,在不影響觀察視野下,將液體快速輸送至目標區域,以增加實驗結果的準確性。

    In this study, we develop a novel nano drug delivery system for single-cell chip, which includes cell culture cavities and nano fluid delivery channels for localized drug delivery onto single cell.
    In order to clear the observation path for optical microscope, single-cell was incubated on a transparent silicon nitride membrane, and drugs were delivered surrounding the cell from the nano channels underneath the membrane without the influence of observation.
    Chip fabrication and flow testing in the nano channel has been successfully carried out, and demonstrated a promising result on localized drug delivery for single cells.

    摘要 I 第一章 序論 1 1-1 研究背景 1 1-2 研究目的 3 第二章 文獻探討 5 2-1 單細胞電胞膜穿孔 9 2-2 電胞膜穿孔晶片 11 2-3 實驗參數比較 19 2-4 綜合比較 20 第三章 實驗設計 21 3-1 晶片設計與製程 22 3-1-1 細胞輸送方式 28 3-2 細胞前處理 31 第四章 實驗結果 33 4-1 微金屬電極 34 4-2 體型微加工 35 4-3 輸送流道 38 4-3-1 第一代輸送流道 38 4-3-2 第二代輸送流道 40 4-3-3 第三代輸送流道 42 4-3-4 第四代輸送流道 44 4-4 細胞培養及晶片測試 53 4-5 細胞定點輸送裝置 56 第五章 結果與討論 58 第六章 未來工作 61 第七章 參考文獻 63

    1. J. A. Lundqvist, F. Sahlin, M. A. I. Åberg, A. Stro¨Mberg, P. S. Eriksson, O,Orwar” Altering the biochemical state of individual cultured cells and organelles with ultramicroelectrodes”,Proc. Natl. Acad. Sci. USA Vol. 95,pp.10356–10360, September 1998.
    2. S.Li,L.Lin,A single cell electrophysiological analysis device with embedded electrode, Sensors and Actuators A 134 (2007) 20–26.
    3. S.L.Tao, T.A.Desai, Microfabricated drug delivery systems: from particles to pores,Advanced Drug Delivery Reviews 55 (2003) 315–328
    4. J.T. Santini, M.J. Cima, R. Langer, “A controlled -release microchip” Nature 397 (1999) 335–338.
    5. Naldini, L., Blomer, U., Gallay, P., Ory, D., Mulligan, R., Gage, F. H., Verma, I. M., and Trono,D. (1996). “In vivo gene delivery and stable transduction of nondividing cells by a lentiviral vector, “Science 272, 263-267.
    6. Frenkel, N., Singer, O., and Kwong, A. D. (1994).” Minireview: the herpes simplex virus amplicon--a versatile defective virus vector”. Gene Ther. 1, S40-46.
    7. Yang, N. S., Burkholder, J., Roberts, B., Martinell, B., and McCabe, D. (1990).” In vivo and in vitro gene transfer to mammalian somatic cells by particle bombardment”. Proc. Natl. Acad. Sci. USA 87, 9568-9572.
    8. Neumann, E., M. Schaefer-Ridder, Y. Wang, and P. H. Hofschneider.1982.” Gene transfer into mouse lyoma cells by electroporationin high electric fields.” EMBO (Eur. Mol. Biol. Organ.) J.1:841-845.
    9. S.B. Dev, D. P. Rabussay, G. Widera, G. A. Hofmann, “Medical Applications of Electroporation”, Ieee Transactions On Plasma Science, Vol. 28, No. 1, February 2000.
    10. K. Nolkrantz, C. Farre, A. Brederlau, R. I. D. Karlsson, C. Brennan, P. S. Eriksson, S. G. Weber, M. Sandberg, O. Orwar,|” Electroporation of Single Cells and Tissues with an Electrolyte-filled Capillary.” Anal. Chem. 2001, 73, 4469-4477.
    11. R. L. Atkins, D. Wang, R. D.Burke” Localized Electroporation_ A Method For Targeting Expression Of Genes In Avian Embryos.” Atkins et al. 2000. Biotechniques 28:94-100.
    12. Y. Huang, B. Rubinsky,” Micro Electroporation Improving the Efficiency and Understanding of Electrical Permeabilization of cells.” Biomedical Microdevices 2:2, 145-150, 1999.
    13. Y. Huang, B. Rubinsky,”microfabricated electroporationchip for single cell membrance permeabilization”. Sensors and Actuators A 89 (2001) 242-249.
    14. Y. Huang, B. Rubinsky,” Flow through micro electroporation chip for high efficiency single cell genetic manipulation”. Sensors and Actuators A 104 (2003) 205–212.
    15. R.E.D´ıaz-Rivera, B.Rubinsky, ” Electrical and thermal characterization of nanochannels between a cell and a silicon based micro pore.” Biomed Microdevices (2006) 8: 25–34.
    16. M.Khine, A.Lau, C.Ionescu-Zanetti, J.Seo, L.P.Lee,” A single cell electroporation chip”. Lab Chip, 2005, 5, 38–43.
    17. Lu H, Schmidt MA, Jensen KF (2005) “A microfluidic electroporation device for cell lysis”. Lab Chip 5:23–29.
    18. M.B. Fox . D.C. Esveld . A. Valero . R. Luttge. H. C. Mastwijk . P. V. Bartels . A. van den Berg. R. M. Boom.” Electroporation of cells in microfluidic devices: a review”. Anal Bioanal Chem (2006) 385: 474–485.
    19. C.P. Jen, W.M. Wu, M. Li, Y.C. Lin.” Site-Specific Enhancement of Gene Transfection Utilizing an Attracting Electric Field for DNA Plasmids on the Electroporation Microchip”. Journal Of Microelectromechanical Systems, Vol. 13, No. 6, December 2004.
    20. Y.C. Lin, M.Y. Huang,” Electroporation microchips for in vitro gene transfection.” J. Micromech. Microeng. 11 (2001) 542–547.
    21. Y.C. Lin, C.M.Jen, M.Y. H, X.Z. Lin,”Flow-Type Electroporation Chips For GeneTransfection.”Microfluidic Devices And Systems.Spie Vol.4177.P181-185.
    22. V.J.Vodyanoy, W.C.Neely,”High-Resolution Optical Microscope.” US patent 6,865,013(September 30,2003).
    23. H.He, D.C.Chang, Y.K.Lee,"Micro pulsed radio-frequency electroporation chips",Bioelectrochemistry 68 (2006) 89–97.
    24. H.He, D.C.Chang, Y.K.Lee,"Using a micro electroporation chip to determine the optimal physical parameters in the uptake of biomolecules in HeLa cells",Bioelectrochemistry 71 (2006) 80–85.
    25. C.E.Sims,N.L.Allbritton,"Analysis of single mammalian cells on-chip",Lab Chip, 2007, 7, 423–440.
    26. www.microchem.com.

    無法下載圖示 全文公開日期 本全文未授權公開 (校內網路)
    全文公開日期 本全文未授權公開 (校外網路)

    QR CODE