以透過改善方法來解決。
改善的方式有(1)將細胞從培養皿取下時,重複多沖幾次,使細胞均勻 掉落,而較不會有堆疊現象(2)離心後,取較多的medium稀釋細胞,使細胞 數減少,並均勻分佈在溶液裡(3)在流道上製作電極,施加交流電使細胞被 捕捉或誘導到某個特定的出口進行偵測。期望未來能將奈米粒子結合細 胞,並在微流道上鍍電極,根據物質介電泳動力性質的不同,施加不同頻 率和電壓的交流電,將細胞加以捕捉、分離、過濾等,建立一套即時且全 自動化的生醫檢測系統。
參考文獻
[1] 郭正次、朝春光, 奈米結構材料科學,全華科技圖書公司 [2] Paul Hauser, "Lab on a Chip", Berkeley Science Review 16, 2009
[3] 徐玄修、林永昇、殷宏林、謝哲偉,生醫微流體晶片之製程平台,儀器 科技研究中心,2006
[4] McDonald J.C., Duffy D.C., Anderson J.R., Chiu D.T., Wu H., Schueller O.J., Whitesides G.M.,”Fabrication of microfluidic system in poly(dimethylsiloxane)”, Electrophoresis, 21, pp, 27-40, 2000
[5] S. W. Rhee, A. M. Taylor, C. H. Tu, D. H. Cribbs, C. W. Cotman and N. L.
Jeon,”Patterned cell culture inside microfluidic devices”, Lab Chip, 5, pp, 102 – 107, 2005
[6] W. C. Chang, L. P. Lee and D. Liepmann,”Biomimetic technique for adhesion-based collection and separation of cells in a microfluidic channel”
Lab Chip, 5, pp, 64-73, 2005
[7] I. Inoue, Y. Wakamoto, H. Moriguchi, K. Onako and K. Yasuda, “On-chip culture system for observation of isolated individual cells”, Lab Chip, 1, pp, 50-55, 2001
[8] Z. Palkova´ , L. Va´chova´, M. Valer and T. Preckel, “Single-cell analysis of yeast, mammalian cells, and fungal spores with a microfluidic pressure-driven chip-based system” Cytometry Part A, 59A, pp, 246-253, 2004
[9] I-Fang Cheng, Hsien-Chang Chang, Diana Hou and Hsueh-Chia Chang Diana Hou and Hsueh-Chia Chang,” An integrated dielectrophoretic chip for continuous bioparticle filtering, focusing, sorting, trapping,and detecting”, biomicrofluidics, 1, 021503 , 2007
[10] Diana Hou, Siddharth Maheshwari, and Hsueh-Chia Chang, “Rapid bioparticle concentration and detection by combining a discharge driven vortex with surface enhanced Raman scattering”, biomicrofluidic 1, 014106, 2007
[11] Katrin R. Strehle, Dana Cialla, Petra Ro1sch, Thomas Henkel, Michael Ko1 hler, and Ju1rgen Popp, “A Reproducible Surface-Enhanced Raman Spectroscopy Approach. Online SERS Measurements in a Segmented Microfluidic System”, Analytical Chemistry, Vol. 79, No. 4, pp, 1542-1547, 2007
[12] Sangyeop Lee, Junghyun Choi, Lingxin Chen, Byungchoon Park, Jin Burm Kyong , Gi Hun Seong , Jaebum Choo, Yeonjung Lee , Kyung-Hoon Shin ,Eun Kyu Lee, Sang-Woo Joo, Kyeong-Hee Lee, “ Fast and sensitive
trace analysis of malachite green using a surface-enhanced Raman microfluidic sensor”, Analytica Chimica Acta, 590, pp, 139–144, 2007
[13] Ly Xuan Quang, Chaesung Lim, Gi Hun Seong,a Jaebum Choo, Ki Jun Dob and Seoung-Kyo Yoo, “A portable surface-enhanced Raman scattering sensor integrated with a lab-on-a-chip for field analysis”, Lab on a Chip, 8, pp, 2214-2219, 2008
[14] 董慕愷、陳郁文,奈米金觸媒,科學發展,2005年6月,47-49,390期 [15] 嚴鴻仁、徐善慧,奈米金與銀的妙用,科學發展,431期,28-32,2008
年11 月
[16] Hua He, Chao Xie, and Jicun Ren, “Nonbleaching Fluorescence of Gold Nanoparticles and Its Applications in Cancer Cell Imaging”, Analytical Chemistry, 80, pp, 5951–5957, 2008
[17] Ximei Qian, Xiang-Hong Peng, Dominic O Ansari, Qiqin Yin-Goen, Georgia Z Chen, Dong M Shin Lily Yang, Andrew N Young, May D Wang
& Shuming Nie, “In vivo tumor targeting and spectroscopic detection with surface-enhanced Raman nanoparticle tags”, NATURE BIOTECHNOLOGY, VOLUME 26, NUMBER 1, pp, 83-90, 2008
[18] Resch-Genger U.,Grabolle M., Cavaliere-Jaricot S.,Nitschke R., Nann T.,
“Quantum Dots versus Organic Dyes as Fluorescent Labels.” Nat. Methods, 9, pp, 763–775, 2008
[19] Michalet X., Pinaud F., Bentolila L., Tsay J., Doose S., Li J.,Sundaresan G., Wu A., Gambhir S., Weiss S., “Quantum Dots for Live Cells, In Vivo Imaging, and diagnostics.”Science, 307, pp, 538–544, 2005
[20] Kirchner C., Liedl T., Kudera S., Pellegrino T., Javier A.,Gaub H., Stoelze S., Fertig N., Parak W.,” Cytotoxicity of Colloidal CdSe and CdSe/ZnS Nanoparticles.” Nano Lett., 5, pp, 331–338, 2005
[21] Nirmal M., Dabbousi B., Bawendi M., Macklin J.,Trautman J., Harris T., Brus L., “Fluorescence Intermittency in Single Cadmium Selenide Nanocrystal. “ Nature ,383, pp, 802–804, 1996
[22] Amanda M. Schrand, Houjin Huang, Cataleya Carlson, John J. Schlager, Eiji Oh sawa, Saber M. Hussain, and Liming Dai” Are Diamond Nanoparticles Cytotoxic?” J. Phys.Chem. B Letters ,111 ,pp, 2-7, 2007
[23] Shu-Jung Yu, Ming-Wei Kang, Huan-Cheng Chang, Kuan-Ming Chen, Yueh-Chung Yu”Bright Fluorescent Nanodiamonds: No Photobleaching and Low Cytotoxicity” J. Am.Chem. Soc. Communications, 127, pp, 17604-17605, 2005
[24] X. L. Kong, L. C. L. Huang, C.-M. Hsu, W.-H. Chen, C.-C. Han, and H.-C.
Mass Spectrometric Analysis”, Anal. Chem., 77, pp, 259-265, 2005
[25] Xianglei Kong, L. C. Lora Huang, S.-C. Vivian Liau, Chau-Chung Han, and Huan-Cheng Chang, “ Polylysine-Coated Diamond Nanocrystals for MALDI-TOF Mass Analysis of DNA Oligonucleotides”, Anal. Chem,. 77, pp, 4273-4277, 2005
[26] Knight, D. S., and W. B. White, “Characterization of diamond films by Raman spectroscopy.” J. Mater. Res. 4 ,pp , 385–393, 1989
[27] Jacob Filik, ”Raman spectroscopy: a simple non-destructive way to characterise diamond and diamond-like materials ”, SPECTROSCOPYEUROPE, 17, 5 , 2005
[28] Jui-I. Chao, Elena Perevedentseva, Pei-Hua Chung, Kuang-Kai Liu, Chih-Yuan Cheng, Chia-Ching Chang, and Chia-Liang Cheng”
Nanometer-Sized Diamond Particle as a Probe for Biolabeling”, Biophysical Journal Volume, 93, pp, 2199–2208, 2007
[29] P.-H. Chung, E. Perevedentseva, C.-L. Cheng, “The particle size-dependent photoluminescence of nanodiamonds”, Surface Science, 601, pp, 3866–3870, 2007
[30] P.W. May, J.A. Smith, K.N.,” Rosser 785 nm Raman spectroscopy of CVD diamond films”, Diamond & Related Materials, 17, pp, 199–203, 2008 [31] Houjin Huang, Erik Pierstorff, Eiji Osawa, and Dean Ho,”Functionalized
nanodiampnds as efficient transmembrane drug carriers”, 7th IEEE, pp, 570-573, 2007
[32] Bradley R. Smith, Marcus Niebert, Taras Plakhotnik, Andrei V.
Zvyagin, ”Transfection and imaging of diamond nanocrystals as scattering optical labels”, Journal of Luminescence 127, pp, 260-263, 2007
[33] In Pin Chang, Kuo Chu Hwang, and Chi-Shiun Chiang, ”Preparation of Fluorescent Magnetic Nanodiamonds and Cellular Imaging”, J. AM. CHEM.
SOC. 130, pp, 15476-15481, 2008
[34] Tse-Luen Wee , Yi-Wen Mau , Chia-Yi Fang , Hsiang-Ling Hsu , Chau-Chung Han , Huan-Cheng Chang, ” Preparation and characterization of green fluorescent nanodiamonds for biological applications”, Diamond
& Related Materials, 18, pp, 567–573, 2009
[35] Tsong-Shin Lim, Chi-Cheng Fu, Kang-Chuang Lee, Hsu-Yang Lee, Kowa Chen, When-Feng Cheng, Woei Wu Pai, Huan-Cheng Chang and Wunshain Fann”Fluorescence enhancement and lifetime modification of single nanodiamonds near a nanocrystalline silver surface”, Phys. Chem. Chem.
Phys., 11, pp, 1508-1514, 2009
[36] L.R. Harrott, Proceedings of the 1999 Particle Accerlerator Conference, pp,
595~599, 1999
[37] 王鏡堯,單一奈米鑽石之光學特性研究,國立交通大學應用化學系,2007 [38] ELS-7500EX Electron Beam Lithography System Instrument Manual,
ELIONIX Inc.
[39] FEI Company Beam Technology Division
[40] Nano Science & Technology, National Chiao Tung University
[41] SKOOG, HOLLER, NIEMAN, Principles of Instrumental Analysis, Fifth Edition
[42] C. Bohren and D. Huffman, “Absorption and Scattering of Light by Small Particles” , Wiley, New York, 1983
[43] Campion A., and P. Kambhampati, “Surface enhanced Raman scattering”, Chemical Society Reviews, 27, pp, 241-250, 1998
[44] 易正男”藉由奈米電漿子偵測信號強化之表面電漿共振與表面強化拉曼 散射生物感測器”, 國立中央大學光電工程研究所
[45] M. Born et alibi, “Principles of Optics:”Oxford, Pergamon Press, 1980.
[46] Paul Davidovits M. David Egger Scanning Laser Microscope Nature, 223, 831, 1969
[47] X. Wu, M. Wan, G. Li, Z. Xu, C. Chen, F. Liu, and J. Li, Eur. J. Cancer,
“EVIDENCE THAT THE GROWTH-HORMONE RECEPTOR MEDIATES DIFFERENTIATION AND DEVELOPMENT OF THE MAMMARY-GLAND”, ENDOCRINOLOGY,113, 4, , pp, 1602-1608, 2006 [48] 林柏帆,”利用自組裝單層膜技術製造奈米鑽石陣列晶片與其應用:奈米
金粒子耦合於陣列晶片的光學量測”,國立交通大學應用化學系,2009 [49] Alexey Shavel, Nikolai Gaponik, and Alexander Eychmuller” Covalent
Linking of CdTe Nanocrystals to Amino-Functionalized Surfaces”, Chem.
Phys. Chem., 6, pp, 449 –451, 2005
[50] Hermanson, Greg T., ” Bioconjugate Techniques”, 2008
[51] MICROCHEM,”SU-8 2000 Permanent Epoxy Negative Photoresist”