Optics and Precision Engineering, Volume. 21, Issue 8, 2161(2013)
Nonuniformity correction for fluorescence imaging of microfluidic real-time PCR
[1] [1] FANG ZH L. The Production and Application of Microfluidic Chip [M]. Beijing: Chemical Industry Press, 2005. (in Chinese)
[2] [2] LI G. Research and application of laser-induced fluorescence detection system based on microfluidic chip [D]. Shanghai: East China Normal University,2010. (in Chinese)
[3] [3] ZHANG CH S, XU J L, MA W L, et al.. PCR microfluidic devices for DNA amplification [J]. Biotechnology Advances,2006,24(3): 243-284.
[4] [4] HEID C A, STEVENS J, LIVAK K J, et al.. Real time quantitative PCR [J]. Genome Research, 1996, 6(10): 986-994.
[5] [5] AHMAD F, SEYRIG G, TOURLOUSSE D M, et al.. A CCD-based fluorescence imaging system for real-time loop-mediated isothermal amplification-based rapid and sensitive detection of waterborne pathogens on microchips [J]. Biomed Microdevices, 2011, 13(5): 929-937.
[6] [6] LI Y Y, ZHANG CH S, XING D. Integrated microfluidic reverse transcription-polymerase chain reaction for rapid detection of food- or waterborne pathogenic rotavirus [J]. Anal. Biochem, 2011, 415(2): 87-96.
[7] [7] PIERIK A, BOAMFA M, ZELST M V, et al.. Real time quantitative amplification detection on a microarray: towards high multiplex quantitative PCR [J]. Lab Chip, 2012, 12(10): 1897-1902.
[8] [8] XU J G, WANG B Z. The Fluorescence Analysis Method [M]. 3rd ed.Beijing: Science Press, 2007. (in Chinese)
[9] [9] BUSTIN S A, BENES V, GARSON J A, et al.. The MIQE guidelines: minimum information for publication of quantitative real-time PCR experiments [J]. Clin Chem, 2009, 55(4): 611-622.
[10] [10] WANG Y. Universal reference dye for quantitative amplification US: US,2012/0164690 A1[P].2012-01-28.
[11] [11] CHRISTIAN V T. Methods for increasing multiplex level by externalization of passive reference in polymerase chain reactions: WO,WO 2011/097424 A1[P].2011-08-11.
[13] [13] YUE J H, LI Y, WU X Y, et al.. Correction of imaging nonuniformity for multi-TDICCD mosaic camera [J]. Opt. Precision Eng., 2009, 17(12): 3084-3088. (in Chinese)
[15] [15] WEI W Y. Research on gray correction and segmentation technology for un-uniform illumination image [D]. Gansu: Lanzhou University of Technology, 2011. (in Chinese)
[16] [16] FUWA K, VALLE B L. The physical basis of analytical atomic absorption spectrometry. The pertinence of the beer-lambert law [J]. Analytical Chemistry, 1963, 35(8): 942-946.
[17] [17] LIU Y X. Research on the Calibration Technique of the TDI CCD remote sensing Camera [D]. Changchun: Changchun Institute of Optics, Fine mechanics and Physics, Chinese Academy of Sciences, 2005. (in Chinese)
[18] [18] LIKAR B, MAINTZ J B, VIERGEVER M A, et al.. Retrospective shading correction based on entropy minimization [J]. J Microsc, 2000, 197(3): 285-295.
[19] [19] JIANG Y D, YU J SH, WANG ZH F. Design for the correction system of the real time non-uniformity of large area-array CCD image [C]. 6th International Symposium on Advanced Optical Manufacturing and Testing Technologies, Xiamen, P.R. China: Proc. of SPIE, 2012: 84191R-84191R-6.
[20] [20] JIANG Y D, KIPPELEN B, YU J SH. A study of two-point multi-section non-uniformity correction auto division algorithm for infrared images [C]. 5th International Symposium on Advanced Optical Manufacturing and Testing Technologies, Dalian, P.R. China: Proc. of SPIE, 2010: 76583X-76583X-7.
[21] [21] LIN X D, NAMBA Y, XING T W. Non-uniformity correction algorithm for decomposing the non-uniformity character of infrared FPA [C]. 6th International Symposium on Advanced Optical Manufacturing and Testing Technologies, Xiamen, P.R. China: Proc. of SPIE, 2012: 842013-842013-11.
[22] [22] ZHU L, LI L, AN D, et al.. An integrated microfluidic real-time PCR system for pathogen detection [C]. Technical Proceedings of the 2012 NSTI Nanotechnology Conference and Expo, California, U.S.A: NSTI-Nanotech, 2012: 52-55.
[23] [23] MORENO I. Illumination uniformity assessment based on human vision [J]. Optics letters, 2010, 35(23): 4030-4032.
[24] [24] ZHENG ZH R, HAO X, LIU X. Freeform surface lens for LED uniform illumination [J]. Appl Opt, 2009, 48(35): 6627-6634.
Get Citation
Copy Citation Text
LIU Yong, QIAN Hong-hu, ZHU Ling, ZHAO Shu-mi, ZHANG Long. Nonuniformity correction for fluorescence imaging of microfluidic real-time PCR[J]. Optics and Precision Engineering, 2013, 21(8): 2161
Category:
Received: Feb. 4, 2013
Accepted: --
Published Online: Sep. 6, 2013
The Author Email: Yong LIU (liuyong@aiofm.ac.cn)