An extrusion fluidic driving method for continuous-flow polymerase chain reaction on a microfluidic chip

Microchimica Acta

Volumn 168, Issue 1-2, 2010, Pages 71-78

  Xu, Zhang Run ^a   Wang, Xin ^a   Fan, Xiao Feng ^a   Wang, Jian Hua ^a  

^a NORTHEASTERN UNIVERSITY   (China)

Author keywords

Extrusion fluidic driving; Microfluidics; PCR; Pneumatic valve

Indexed keywords

EID: 75749103663     PISSN: 00263672     EISSN: 14365073     Source Type: Journal    
DOI: 10.1007/s00604-009-0262-z     Document Type: Article

References (34)

1. Roper MG, Easley CJ, Landers JP (2005) Advances in polymerase chain reaction on microfluidic chips. Anal Chem 77: 3887.
2. Zhang CS, Xu JL, Ma WL, Zheng WL (2006) PCR microfluidic devices for DNA amplification, Biotechnology Advances. Biotechnol Adv 24: 243.
3. Liu J, Enzelberger M, Quake S (2002) A nanoliter rotary device for polymerase chain reaction. Electrophoresis 23: 1531.
4. Woolley AT, Hadley D, Landre P, de Mello AJ, Mathies RA, Northrup MA (1996) Functional integration of PCR amplification and capillary electrophoresis in a microfabricated DNA analysis device. Anal Chem 68: 4081.
5. Shen KY, Chen XF, Guo M, Cheng J (2005) A microchip-based PCR device using flexible printed circuit technology. Sens Actuators B 105: 251.
6. Lin YC, Huang MY, Young KC, Chang TT, Wu CY (2000) A rapid micro-polymerase chain reaction system for hepatitis C virus amplification. Sens Actuators B 71: 2.
7. Kricka LJ, Wilding P (2003) Microchip PCR. Anal Bioanal Chem 377: 820.
8. Kopp MU, de Mello AJ, Manz A (1998) Chemical amplification: continuous-flow PCR on a chip. Science 280: 1046.
9. Schneegass I, Brautigam R, Kohler JM (2001) Miniaturized flow-through PCR with different template types in a silicon chip thermocycler. Lab Chip 1: 42.
10. Sun K, Yamaguchi A, Ishida Y, Matsuo S, Misawa H (2002) A heater-integrated transparent microchannel chip for continuous-flow PCR. Sens Actuators B 84: 283.
11. Hashimoto M, Chen PC, Mitchell MW, Nikitopoulos DE, Soper SA, Murphy MC (2004) Rapid PCR in a continuous flow device. Lab Chip 4: 638.
12. Li SF, Fozdar DY, Ali MF, Li H, Shao DB, Vykoukal DM, Vykoukal J, Floriano PN, Olsen M, McDevitt JT, Gascoyne PRC, Chen SC (2006) A continuous-flow polymerase chain reaction microchip with regional velocity control. J Microelectromech Syst 15: 223.
13. Obeid PJ, Christopoulos TK, Crabtree HJ, Backhouse CJ (2003) Microfabricated device for DNA and RNA amplification by continuous-flow polymerase chain reaction and reverse transcription-polymerase chain reaction with Cycle Number Selection. Anal Chem 75: 288.
14. Park N, Kim S, Hahn JH (2003) Cylindrical compact thermal-cycling device for continuous-flow polymerase chain reaction. Anal Chem 75: 6029.
15. Sun Y, Satyanarayan MVD, Nguyen NT, Kwok YC (2008) Continuous flow polymerase chain reaction using a hybrid PMMA-PC microchip with improved heat tolerance. Sens Actuators B 130: 836.
16. Obeid PJ, Christopoulos TK (2003) Continuous-flow DNA and RNA amplification chip combined with laser-induced fluorescence detection. Anal Chim Acta 494: 1.
17. Krishnan M, Ugaz VM, Burns MA (2002) PCR in a Rayleigh-Bénard convection cell. Science 298: 793.
18. Braun D (2004) PCR by thermal convection. Mod Phys Lett B 18: 775.
19. Wheeler EK, Benett W, Stratton P, Richards J, Chen A, Christian A, Ness KD, Ortega J, Li LG, Weisgraber TH, Goodson K, Milanovich F (2004) Convectively driven polymerase chain reaction thermal cycler. Anal Chem 76: 4011.
20. Dorfman KD, Chabert M, Codarbox JH, Rousseau G, de Cremoux P, Viovy JL (2005) Contamination-free continuous flow microfluidic polymerase chain reaction for quantitative and clinical applications. Anal Chem 77: 3700.
21. Wang W, Li ZX, Luo R, Lu SH, Xu AD, Yang YJ (2005) Droplet-based micro oscillating-flow PCR chip. J Micromechanics Microengineering 15: 1369.
22. Chabert M, Dorfman KD, de Cremoux P, Roeraade J, Viovy JL (2006) Automated microdroplet platform for sample manipulation and polymerase chain reaction. Anal Chem 78: 7722.
23. Thorsen T, Maerkl SJ, Quake SR (2002) Microfluidic large-scale integration. Science 298: 580.
24. Sun Y, Kwok YC, Nguyen NT (2007) A circular ferrofluid driven microchip for rapid polymerase chain reaction. Lab Chip 7: 1012.
25. Sun Y, Nguyen NT, Kwok YC (2008) High-throughput polymerase chain reaction in parallel circular loops using magnetic actuation. Anal Chem 80: 6127.
26. Chen JF, Wabuyele M, Chen HW, Patterson D, Hupert M, Shadpour H, Nikitopoulos D, Soper SA (2005) Electrokinetically synchronized polymerase chain reaction microchip fabricated in polycarbonate. Anal Chem 77: 658.
27. Gui L, Ren CL (2006) Numeric simulation of heat transfer and electrokinetic flow in an electroosmosis-based continuous flow PCR chip. Anal Chem 78: 6215.
28. Unger MA, Chou HP, Thorsen T, Scherer A, Quake SR (2000) Monolithic microfabricated valves and pumps by multilayer soft lithography. Science 288: 113.
29. Jeong OC, Konishi S (2007) Fabrication and drive test of pneumatic PDMS micro pump. Sens Actuators A 135: 849.
30. Melin J, Johansson H, Soderberg O, Nikolajeff F, Landegren U, Nilsson M, Jarvius J (2005) Thermoplastic microfluidic platform for single-molecule detection, cell culture, and actuation. Anal Chem 77: 7122.
31. Cellar NA, Burns ST, Meiners J-C, Chen H, Kennedy RT (2005) Microfluidic chip for low-flow push-pull perfusion sampling in vivo with on-line analysis of amino acids. Anal Chem 77: 7067.
32. Leach AM, Wheeler AR, Zare RN (2003) Flow injection analysis in a microfluidic format. Anal Chem 75: 967.
33. Makamba H, Kim JH, Lim K, Park N, Hahn JH (2003) Surface modification of poly(dimethylsiloxane) microchannels. Electrophoresis 24: 3607.
34. Xia YM, Hua ZS, Srivannavit O, Ozel AB, Gulari E (2007) Minimizing the surface effect of PDMS-glass microchip on polymerase chain reaction by dynamic polymer passivation. J Chem Technol Biotechnol 82: 33.