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Items: 1 to 20 of 91

1.

Electrical impedance monitoring of photothermal porated mammalian cells.

Yamane D, Wu YC, Wu TH, Toshiyoshi H, Teitell MA, Chiou PY.

J Lab Autom. 2014 Feb;19(1):50-9. doi: 10.1177/2211068213494390. Epub 2013 Jun 24.

PMID:
23797097
2.

Photothermal nanoblade for large cargo delivery into mammalian cells.

Wu TH, Teslaa T, Kalim S, French CT, Moghadam S, Wall R, Miller JF, Witte ON, Teitell MA, Chiou PY.

Anal Chem. 2011 Feb 15;83(4):1321-7. doi: 10.1021/ac102532w. Epub 2011 Jan 19.

3.
4.

Photothermal nanoblade for patterned cell membrane cutting.

Wu TH, Teslaa T, Teitell MA, Chiou PY.

Opt Express. 2010 Oct 25;18(22):23153-60. doi: 10.1364/OE.18.023153.

5.

Transfection of HeLa-cells with pEGFP plasmid by impedance power-assisted electroporation.

Glahder J, Norrild B, Persson MB, Persson BR.

Biotechnol Bioeng. 2005 Nov 5;92(3):267-76.

PMID:
16161165
6.

Electric field-induced effects on neuronal cell biology accompanying dielectrophoretic trapping.

Heida T.

Adv Anat Embryol Cell Biol. 2003;173:III-IX, 1-77. Review.

PMID:
12901336
7.
8.

Membrane perforation and recovery dynamics in microbubble-mediated sonoporation.

Hu Y, Wan JM, Yu AC.

Ultrasound Med Biol. 2013 Dec;39(12):2393-405. doi: 10.1016/j.ultrasmedbio.2013.08.003. Epub 2013 Sep 21.

PMID:
24063956
9.

Electrical impedance characterization of adipose tissue-derived stem cells cultured on indium tin oxide electrodes.

Jun HS, Choi W, Kim JY, Cho S.

J Biomed Nanotechnol. 2013 Apr;9(4):699-702.

PMID:
23621031
10.

Monitoring voltage-sensitive membrane impedance change using radio frequency interrogation.

Dharia S, Rabbitt RD.

Conf Proc IEEE Eng Med Biol Soc. 2010;2010:889-94. doi: 10.1109/IEMBS.2010.5627860.

PMID:
21097203
11.

Combining optical and electrical impedance techniques for quantitative measurement of confluence in MDCK-I cell cultures.

De Blasio BF, Laane M, Walmann T, Giaever I.

Biotechniques. 2004 Apr;36(4):650-4, 656, 658 passim.

PMID:
15088383
12.

PDMS-film coated on PCB for AC impedance sensing of biological cells.

Guo J, Li CM, Kang Y.

Biomed Microdevices. 2014 Oct;16(5):681-6. doi: 10.1007/s10544-014-9872-2. Erratum in: Biomed Microdevices. 2014 Oct;16(5):687.

PMID:
24850232
13.

Microfluidic device for cell capture and impedance measurement.

Jang LS, Wang MH.

Biomed Microdevices. 2007 Oct;9(5):737-43.

PMID:
17508285
14.

Impedance analysis of different cell monolayers grown on gold-film electrodes.

Reiss B, Wegener J.

Conf Proc IEEE Eng Med Biol Soc. 2015;2015:7079-82. doi: 10.1109/EMBC.2015.7320023.

PMID:
26737923
15.

A detailed model for high-frequency impedance characterization of ovarian cancer epithelial cell layer using ECIS electrodes.

Rahman AR, Lo CM, Bhansali S.

IEEE Trans Biomed Eng. 2009 Feb;56(2):485-92. doi: 10.1109/TBME.2008.2008488. Epub 2008 Oct 31.

PMID:
19272881
16.
17.

Chronic neural stimulation with thin-film, iridium oxide electrodes.

Weiland JD, Anderson DJ.

IEEE Trans Biomed Eng. 2000 Jul;47(7):911-8.

PMID:
10916262
18.

Comparison of gold nanoparticle mediated photoporation: vapor nanobubbles outperform direct heating for delivering macromolecules in live cells.

Xiong R, Raemdonck K, Peynshaert K, Lentacker I, De Cock I, Demeester J, De Smedt SC, Skirtach AG, Braeckmans K.

ACS Nano. 2014 Jun 24;8(6):6288-96. doi: 10.1021/nn5017742. Epub 2014 Jun 2.

PMID:
24870061
19.

Effect of Electrode Shape on Impedance of Single HeLa Cell: A COMSOL Simulation.

Wang MH, Chang WH.

Biomed Res Int. 2015;2015:871603. doi: 10.1155/2015/871603. Epub 2015 Apr 16.

20.

Noninvasive electrical impedance sensor for in vivo tissue discrimination at radio frequencies.

Dai Y, Du J, Yang Q, Zhang J.

Bioelectromagnetics. 2014 Sep;35(6):385-95. doi: 10.1002/bem.21854. Epub 2014 Apr 24.

PMID:
24764269

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