Microfluidics cell electroporation

Microfluidics and Nanofluidics

Volumn 10, Issue 4, 2011, Pages 703-734

  Movahed, Saeid ^a   Li, Dongqing ^a  

^a UNIVERSITY OF WATERLOO   (Canada)

Author keywords

Cell; Electroporation; Microfluidics Lab on a chip

Indexed keywords

APPLIED ELECTRIC FIELD; BIOLOGICAL SAMPLES; BIOLOGICAL TECHNIQUES; CELL ELECTROPORATION; CELL VIABILITY; ELECTROPERMEABILIZATION; ELECTROPORATION; ELECTROPORATION DEVICES; EXPERIMENTAL METHODS; HIGH VOLTAGE ELECTRIC FIELD; JOULE HEATING EFFECT; MICRO-SCALES; MICROFLUIDIC CELL; THEORY OF MEMBRANE; TRANSFECTION EFFICIENCY;

CELL MEMBRANES; ELECTRIC FIELDS; MICROFLUIDICS; NANOPORES;

CYTOLOGY;

EID: 79955971003     PISSN: 16134982     EISSN: 16134990     Source Type: Journal    
DOI: 10.1007/s10404-010-0716-y     Document Type: Review

References (73)

1. Bao N, Wang J, Lu C (2008) Microfluidic electroporation for selective release of intracellular molecules at the single-cell level. Electrophoresis 29:2939-2944
2. Bao N, Le TT, Cheng J-X, Lu C (2010) Microfluidic electroporation of tumor and blood cells: observation of nucleus expansion and implications on selective analysis and purging of circulating tumor cells. Integr. Biol. 2:113-120. doi:10.1039/b919820b
3. Bilska AO, DeBruin KA, Krassowska W (2000) Theoretical modeling of the effects of shock duration, frequency, and strength on the degree of electroporation. Bioelectrochemistry 51:133-143 (Pubitemid 30345735)
4. Brennan D et al (2009) Emerging optoluidic technologies for point- of-care genetic analysis systems: a review. Anal Bioanal Chem 395:621-636. doi:10.1007/s00216-009-2826-5
5. Brouzes E, Medkova M, Savenelli N, Marran D, Twardowski M, Hutchison JB, Rothberga JM, Linka DR, Perrimon N, Samuels ML (2009) Droplet microluidic technology for single-cell high-throughput screening. PNAS 106(34):14195-14200
6. Cao Y, Yang J, Yin ZQ, Luo HY, Yang Mo, Hu N, Yang J, Huo DQ, Hou CJ, Jiang ZZ, Zhang RQ, Rong Xu, Zheng XL (2008) Study of high-throughput cell electrofusion in a microelectrode-array chip. Microfluid Nanofluid 5:669-675. doi:10.1007/s10404-008-0289-1
7. Cheng Wei et al (2010) Microfluidic cell arrays for metabolic monitoring of stimulated cardiomyocytes. Electrophoresis 31: 1405-1413
8. Cukjati D, Batiuskaite D, Andre F, Miklavĉiĉ D, Mir LM (2007) Mir real time electroporation control for accurate and safe in vivo non-viral gene therapy. Bioelectrochemistry 70:501-507 (Pubitemid 46507981)
9. DeBruin KA, Krassowska W (1999a) Modeling electroporation in a single cell. I. Effects of field strength and rest potential. Biophys J 77:1213-1224 (Pubitemid 29407298)
10. DeBruin KA, Krassowska W (1999b) Modeling electroporation in a single cell. ii. Effects of ionic concentrations. Biophys J 77: 1225-1233
11. El-Ali J, Sorger PK, Jensen KF (2006) Cells on chips. Nature. 442:403-411. doi: 10.1038/nature05063 (Pubitemid 44264784)
12. Escoffre JM, Portet T, Wasungu L, Teissie J, Dean D, Rols MP (2009) What is (Still not) known of the mechanism by which electroporation mediates gene transfer and expression in cells and tissues. Mol Biotechnol 41:286-295
13. Fei Z et al (2007) Gene transfection of mammalian cells using membrane sandwich electroporation. Anal. Chem. 79(15):5719-5722
14. Fei Z et al (2010) Micronozzle Array enhanced sandwich electro-poration of embryonic stem cells. Anal Chem 82:353-358
15. Fox MB, Esveld DC, Valero A, Luttge R, Mastwijk HC, Bartels PV, van den Berg A, Boom RM (2006) Electroporation of cells in microfluidic devices: a review. Anal Bioanal Chem 385:474-185
16. Fox MB et al (2008) Inactivation of L. plantarum in a PEF microreactor the effect of pulse width and temperature on the inactivation. Innovative Food Science and Emerging Technologies. 9:101-108 (Pubitemid 350152021)
17. Geng T et al (2010) Flow-through electroporation based on constant voltage for large-volume transfection of cells. J Controlled Release. doi:10.1016/j.jconrel.2010.01.030
18. Gimsa Jan (2001) A comprehensive approach to electro-orientation, electrodeformation, dielectrophoresis, and electrorotation of ellipsoidal particles and biological cells. Bioelectrochemistry 54:23-31
19. Granot Y, Rubinsky B (2008) Mass transfer model for drug delivery in tissue cells with reversible electroporation. Int J Heat Mass Transfr 51:5610-5616
20. Ho Yi-P, Leong KM (2010) Quantum dot-based theranostics. Nanoscale 2:60-68
21. Huang Y, Rubinsky B (2000) Micro-electroporation: improving the efficiency and understanding of electrical permeabilization of cells. Biomed Microdev 3:145-150 (Pubitemid 129644708)
22. Huang Y, Rubinsky B (2001) Microfabricated electroporation chip for single cell membrane permeabilization. Sens Actuators A 89:242-249 (Pubitemid 32296916)
23. Huang Y, Rubinsky B (2003) Flow-through micro-electroporation chip for high efficiency single-cell genetic manipulation. Sens Actuators A 104:205-212
24. Ikeda N, Tanaka N, Yanagida Y, Hatsuzawa T (2007) On-chip single-cell lysis for extracting intracellular material. Jpn J Appl Phys 46(9B):6410-6414 (Pubitemid 47463468)
25. Ionescu-Zanetti C, Blatz A, Khine M (2008) Electrophoresis-assisted single-cell electroporation for efficient intracellular delivery. Biomed Microdevices 10:113-116. doi:10.1007/s10544-007-9115-x
26. Kang Y, Li D, Kalams SA, Eid JE (2008) DC-dielectrophoretic separation of biological cells by size. Biomedical Microdevices 10(2):243-249 (Pubitemid 351337927)
27. Khine M, Lau A, Ionescu-Zanetti C, Seo J, Lee LP (2005) A single cell electroporation chip. Lab Chip 5:38-43. doi:10.1039/b408352k (Pubitemid 40139338)
28. Khine M, Ionescu-Zanetti C, Blatz A, Wang L-P, Lee LP (2007) Single-cell electroporation arrays with real-time monitoring and feedback control. Lab Chip 7:457-462 (Pubitemid 46496546)
29. Kim SK, Kim JH, Kim KP, Chung TK (2007) Continuous low-voltage dc electroporation on a microfluidic chip with polyelectrolytic salt bridges. Anal. Chem. 79:7761-7766
30. Krassowska W, Filev PD (2007) Modeling electroporation in a single cell. Biophys J 92:404-417 (Pubitemid 46145774)
31. Le Gac S, van den Berg A (2009) Single cells as experimentation units in lab-on-a-chip devices. Trends Biotechnol 28(1). doi: 10.1016/j.tibtech.2009.10. 005
32. Lee S-W, Tai Y-C (1999) A micro cell lysis device. Sens Actuators A 73:74-79
33. Lee ES, Robinson D, Rognlien JL, Harnett CK, Simmons BA, Bowe Ellis CR, Davalos RV (2006) Microfluidic electroporation of robust 10-im vesicles for manipulation of picoliter volumes. Bioelectrochemistry 69:117-125 (Pubitemid 44287615)
34. Lee WG, Demirci U, Khademhosseini A (2009) Microscale electro-poration: challenges and perspectives for clinical applications. Integrative Biology. 1:242-251
35. Li D (2004) Electrokinetics in microfluidics. Elsevier, Amsterdam
36. Li D (2008a) Encyclopedia of microfluidics and nanofluidics. Springer, New York
37. Li S (2008b) Electroporation protocols: preclinical and clinical gene medicine. Springer, New York
38. Lim JK, Zhou H, Tilton RD (2009) Liposome rupture and contents release over coplanar microelectrode arrays. J Colloid Interf Sci 332:113-121
39. Lin Y-H, Leea G-B (2009) An optically induced cell lysis device using dielectrophoresis. Appl Phys Lett 94:033901
40. Lu H, Schmidt MA, Jensen KF (2005) A microfluidic electroporation device for cell lysis. Lab on a Chip 5:23-29 (Pubitemid 40139336)
41. Luo C, Yang X, Fu Q, Sun M, Ouyang Q, Chen Y, Ji H (2006) Picoliter-volume aqueous droplets in oil: Electrochemical detection and yeast cell electroporation. Electrophoresis 27:1977-1983 (Pubitemid 43853645)
42. Miklavcic D, Towhidi L (2010) Numerical study of the electroporation pulse shape effect on molecular uptake of biological cells. Radiol Oncol. 44(1):34-11
43. Mossop BJ, Barr RC, Henshaw JW, Yuan F (2007) Electric fields around and within single cells during electroporation - a model study. Ann Biomed Eng. 35(7):1264-1275 (Pubitemid 46966274)
44. Neu JC, Krassowska W (1999) Asymptotic model of electroporation. Phys Rev E 59:3471-3482 (Pubitemid 129306005)
45. Neu WK, Neu JC (2009) Theory of electroporation. In: Efimov IR, Kroll MW, Tchou PJ (eds) Cardiac bioelectric therapy. Springer, New York
46. Neumann E, Schaefer-Ridder M, Wang Y, Hofschneider PH (1982) Gene transfer into mouse lyoma cells by electroporation in high electric fields. EMBO J 1:841-845
47. Park S, Chung TK, Kim HC (2009) Ion bridges in microfluidic systems. Microfluid Nanofluid 6:315-331. doi:10.1007/s10404-008-0391-4
48. Schaper J, Bohnenkamp HR, Noll T (2007) New electrofusion devices for the improved generation of dendritic cell-tumour cell hybrids. In: Smith R (ed) Cell technology for cell products. Springer, New York
49. Sedgwick H, Caron F, Monaghan PB, Kolch W, Cooper JM (2008) Lab-on-a-chip technologies for proteomic analysis from isolated cells. J. R. Soc Interface 5:S123-S130
50. Shil P, Bidaye S, Vidyasagar PB (2008) Analysing the effects of surface distribution of pores in cell electroporation for a cell membrane containing cholesterol. J Phys D 41:055502 (7 pp)
51. Shin YS, Cho K, Kim JK, Lim SH, Park CH, Lee KB, Park Y, Chung C, Han D-C, Chang JK (2004) Electrotransfection ofmammalian cells using microchannel-type electroporation chip. Anal Chem 76:7045-7052 (Pubitemid 39600879)
52. Sott K et al (2008) Optical systems for single cell study. Expert Opin Drug Discov 3(11)
53. Suzuki T, Yamamoto H, Ohoka M, Okonogi A, Kabata H, Kanno I, Washizu M, Kotera H (2007) High throughput cell electroporation array fabricated by single-mask inclined uv lithography exposure and oxygen plasma etching. In: The 14th international conference on solid-state sensors, actuators and microsystems, June 10-14, 2007. IEEE, Lyon, pp 687-690
54. Talele S, Gaynor P, Cree MJ, van Ekeran J (2010) Modelling single cell electroporation with bipolar pulse parameters and dynamic pore radii. J Electrostat 1-14
55. Teissie J, Eynard N, Vernhes MC, Bénichou A, Ganeva V, Galutzov B, Cabanes PA (2002) Recent biotechnological developments of electropulsation. A prospective review. Bioelectrochemistry 55:107-112
56. Teissie J, Golzio M, Rols MP (2005) Mechanisms of cell membrane electropermeabilization: A minireview of our present (lack of ?) knowledge. Biochim Biophys Acta 1724:270-280 (Pubitemid 41080035)
57. Valero A, Post JN, van Nieuwkasteele JW, ter Braak PM, Kruijer W, van den Berg A (2008) Gene transfer and protein dynamics in stem cells using single cell electroporation in a microfluidic device. Lab Chip 8:62-67. doi:10.1039/b713420g (Pubitemid 350294129)
58. Valley JK, Hsu H-Y, Neale S, Ohta AT, Jamshidi A, Wu MC (2009a) Assessment of single cell viability following light induced electroporation through use of on-chip microfluidics IEEE. 978-1-4244-2978-3
59. Valley JK, Neale S, Hsu H-Y, Ohta AT, Jamshidi A, Wu MC (2009b) Parallel single-cell light-induced electroporation and dielec- trophoretic manipulation. Lab on a Chip 9:1714-1720. doi: 10.1039/b821678a
60. Vassanelli S, Bandiera L, Borgo M, Cellere G, Santoni L, Bersani C, Salamon M, Zaccolo M, Lorenzelli L, Girardi S, Maschietto M, Dal Maschio M, Paccagnella A (2008) Space and time-resolved gene expression experiments on cultured mammalian cells by a single-cell electroporation microarray. New Biotechnol 25(1). doi:10.1016/j.nbt.2008.03.002 (Pubitemid 351713605)
61. Wang H-Y, Lu C (2006a) Electroporation of mammalian cells in a microfluidic channel with geometric variation. Anal Chem. 78:5158-5164 (Pubitemid 44100654)
62. Wang H-Y, Lu V (2006b) High-throughput and real-time study of single cell electroporation using microfluidics: effects of medium osmolarity. Biotechnology and Bioengineering 95(6):1116-1125. doi:10.1002/bit (Pubitemid 44901327)
63. Wang H-Y, Lu C (2008) Microfluidic electroporation for delivery of small molecules and genes into cells using a common dc power supply. Biotechnology and Bioengineering 100(3):579-586. doi: 10.1002/bit.21784 (Pubitemid 351792933)
64. Wang H-Y, Bhunia AK, Lu C (2006) A microfluidic flow-through device for high throughput electrical lysis of bacterial cells based on continuous dc voltage. Biosens Bioelectronics 22:582-588 (Pubitemid 44635195)
65. Wang J, Stine MJ, Lu C (2007) Microfluidic cell electroporation using a mechanical valve. Anal Chem 79:9584-9587 (Pubitemid 350276341)
66. Wang J, Bao N, Paris LL, Wang H-Y, Geahlen RL, Lu C (2008) Detection of kinase translocation using microfluidic electroporative flow cytometry. Anal Chem 80(4):1087-1093 (Pubitemid 351272342)
67. Wang M et al (2010) Single-cell electroporation. Anal Bioanal Chem. 397:3235-3248
68. Weaver JC, Chizmadzhev YuA (1996) Theory of electroporation: A review. Bioelectrochem Bioenerg 41:135-160 (Pubitemid 26426526)
69. Zaharoff DA, Henshaw JW, Mossop B, Yuan F (2008) Mechanistic analysis of electroporation-induced cellular uptake of macro-molecules. 94-105. doi:10.3181/0704-RM-113
70. Zhan Y, Wang J, Bao N, Lu C (2009) Electroporation of cells in microfluidic droplets. Anal Chem 81:2027-2031. doi:10.1021/ac9001172
71. Zhao X, Zhang M, Yang R (2010) Control of pore radius regulation for electroporation-based drug delivery. Commun Nonlinear Sci NumerSimul 15:1400-1407
72. Zhu T et al (2010) Electroporation based on hydrodynamic focusing of microfluidics with low dc voltage. Biomed Microdevices 12:35-40. doi: 10.1007/s10544-009-9355-z
73. Ziaie B et al (2004) Hard and soft micromachining for BioMEMS: review of techniques and examples of applications in microfluidics and drug delivery. Advanced Drug Delivery Reviews. 56(3):145-172 (Pubitemid 38114928)