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Lab on a Chip
Volumn 17, Issue 13, 2017, Pages 2264-2271
Organs-on-chips with integrated electrodes for trans-epithelial electrical resistance (TEER) measurements of human epithelial barrier function
Author keywords

[No Author keywords available]
Indexed keywords

AIRWAY EPITHELIUM CELL; AQUEOUS SOLUTION; ARTICLE; BIOCOMPATIBILITY; CELL ADHESION; CELL DIFFERENTIATION; CELL FUNCTION; CELL GROWTH; CONTROLLED STUDY; ELECTRIC RESISTANCE; ELECTRODE; HUMAN; HUMAN CELL; IMPEDANCE; IN VITRO STUDY; INTESTINE EPITHELIUM CELL; LABORATORY DEVICE; MICROFLUIDICS; MICROSCOPY; ORGAN ON A CHIP; PRIORITY JOURNAL; QUALITY CONTROL; RESPIRATORY EPITHELIUM; SURFACE AREA; TRANS EPITHELIAL ELECTRICAL RESISTANCE; BIOLOGICAL MODEL; CELL CULTURE; CYTOLOGY; DEVICES; EPITHELIUM; EPITHELIUM CELL; EQUIPMENT DESIGN; LAB ON A CHIP; ORGAN CULTURE TECHNIQUE; PHYSIOLOGY;
EID: 85021776357     PISSN: 14730197     EISSN: 14730189     Source Type: Journal    
DOI: 10.1039/c7lc00155j     Document Type: Article
Times cited : (303)
References (30)
  • 1
    • 84905754409 scopus 로고    scopus 로고
    • Microfluidic organs-on-chips
    • S. N. Bhatia D. E. Ingber Microfluidic organs-on-chips Nat. Biotechnol. 2014 32 8 760 772
    • (2014) Nat. Biotechnol. , vol.32 , Issue.8 , pp. 760-772
    • Bhatia, S.N.1    Ingber, D.E.2
  • 2
    • 81355146382 scopus 로고    scopus 로고
    • From 3D cell culture to organs-on-chips
    • D. Huh G. A. Hamilton D. E. Ingber From 3D cell culture to organs-on-chips Trends Cell Biol. 2011 21 12 745 754
    • (2011) Trends Cell Biol. , vol.21 , Issue.12 , pp. 745-754
    • Huh, D.1    Hamilton, G.A.2    Ingber, D.E.3
  • 4
    • 84901910941 scopus 로고    scopus 로고
    • Microfluidic approaches for epithelial cell layer culture and characterisation
    • R. Thuenauer E. Rodriguez-Boulan W. Romer Microfluidic approaches for epithelial cell layer culture and characterisation Analyst 2014 139 13 3206 3218
    • (2014) Analyst , vol.139 , Issue.13 , pp. 3206-3218
    • Thuenauer, R.1    Rodriguez-Boulan, E.2    Romer, W.3
  • 5
    • 84930710029 scopus 로고    scopus 로고
    • TEER measurement techniques for in vitro barrier model systems
    • B. Srinivasan et al., TEER measurement techniques for in vitro barrier model systems J. Lab. Autom. 2015 20 2 107 126
    • (2015) J. Lab. Autom. , vol.20 , Issue.2 , pp. 107-126
    • Srinivasan, B.1
  • 6
    • 1242351491 scopus 로고    scopus 로고
    • Integrated microfluidic devices
    • D. Erickson D. Li Integrated microfluidic devices Anal. Chim. Acta 2004 507 1 11 26
    • (2004) Anal. Chim. Acta , vol.507 , Issue.1 , pp. 11-26
    • Erickson, D.1    Li, D.2
  • 7
    • 77949830370 scopus 로고    scopus 로고
    • Fabrication of Two-Layered Channel System with Embedded Electrodes to Measure Resistance Across Epithelial and Endothelial Barriers
    • N. J. Douville et al., Fabrication of Two-Layered Channel System with Embedded Electrodes to Measure Resistance Across Epithelial and Endothelial Barriers Anal. Chem. 2010 82 6 2505 2511
    • (2010) Anal. Chem. , vol.82 , Issue.6 , pp. 2505-2511
    • Douville, N.J.1
  • 8
    • 84908406100 scopus 로고    scopus 로고
    • Microfluidic chip for monitoring Ca2+ transport through a confluent layer of intestinal cells
    • C. Huang et al., Microfluidic chip for monitoring Ca2+ transport through a confluent layer of intestinal cells RSC Adv. 2014 4 95 52887 52891
    • (2014) RSC Adv. , vol.4 , Issue.95 , pp. 52887-52891
    • Huang, C.1
  • 9
    • 84970948428 scopus 로고    scopus 로고
    • In vitro micro-physiological immune-competent model of the human skin
    • Q. Ramadan F. C. W. Ting In vitro micro-physiological immune-competent model of the human skin Lab Chip 2016 16 10 1899 1908
    • (2016) Lab Chip , vol.16 , Issue.10 , pp. 1899-1908
    • Ramadan, Q.1    Ting, F.C.W.2
  • 10
    • 84978785813 scopus 로고    scopus 로고
    • Microfluidic blood-brain barrier model provides in vivo-like barrier properties for drug permeability screening
    • Y. I. Wang H. E. Abaci M. L. Shuler Microfluidic blood-brain barrier model provides in vivo-like barrier properties for drug permeability screening Biotechnol. Bioeng. 2017 114 1 184 194
    • (2017) Biotechnol. Bioeng. , vol.114 , Issue.1 , pp. 184-194
    • Wang, Y.I.1    Abaci, H.E.2    Shuler, M.L.3
  • 11
    • 84977126724 scopus 로고    scopus 로고
    • Direct quantification of transendothelial electrical resistance in organs-on-chips
    • M. W. van der Helm et al., Direct quantification of transendothelial electrical resistance in organs-on-chips Biosens. Bioelectron. 2016 85 924 929
    • (2016) Biosens. Bioelectron. , vol.85 , pp. 924-929
    • Van Der Helm, M.W.1
  • 12
    • 84862207235 scopus 로고    scopus 로고
    • Human gut-on-A-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow
    • H. J. Kim et al., Human gut-on-a-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow Lab Chip 2012 12 12 2165 2174
    • (2012) Lab Chip , vol.12 , Issue.12 , pp. 2165-2174
    • Kim, H.J.1
  • 13
    • 84898814912 scopus 로고    scopus 로고
    • A microdevice for parallelized pulmonary permeability studies
    • L. Bol et al., A microdevice for parallelized pulmonary permeability studies Biomed. Microdevices 2014 16 2 277 285
    • (2014) Biomed. Microdevices , vol.16 , Issue.2 , pp. 277-285
    • Bol, L.1
  • 14
    • 79957953241 scopus 로고    scopus 로고
    • Microfluidic Transendothelial Electrical Resistance Measurement Device that Enables Blood Flow and Postgrowth Experiments
    • P. A. Vogel et al., Microfluidic Transendothelial Electrical Resistance Measurement Device that Enables Blood Flow and Postgrowth Experiments Anal. Chem. 2011 83 11 4296 4301
    • (2011) Anal. Chem. , vol.83 , Issue.11 , pp. 4296-4301
    • Vogel, P.A.1
  • 15
    • 84860366574 scopus 로고    scopus 로고
    • Characterization of a microfluidic in vitro model of the blood-brain barrier ([small mu] BBB)
    • R. Booth H. Kim Characterization of a microfluidic in vitro model of the blood-brain barrier ([small mu] BBB) Lab Chip 2012 12 10 1784 1792
    • (2012) Lab Chip , vol.12 , Issue.10 , pp. 1784-1792
    • Booth, R.1    Kim, H.2
  • 16
    • 84899892015 scopus 로고    scopus 로고
    • A multiple-channel, multiple-assay platform for characterization of full-range shear stress effects on vascular endothelial cells
    • R. Booth S. Noh H. Kim A multiple-channel, multiple-assay platform for characterization of full-range shear stress effects on vascular endothelial cells Lab Chip 2014 14 11 1880 1890
    • (2014) Lab Chip , vol.14 , Issue.11 , pp. 1880-1890
    • Booth, R.1    Noh, S.2    Kim, H.3
  • 17
    • 84988964681 scopus 로고    scopus 로고
    • Geometric correction factor for transepithelial electrical resistance measurements in transwell and microfluidic cell cultures
    • J. Yeste et al., Geometric correction factor for transepithelial electrical resistance measurements in transwell and microfluidic cell cultures J. Phys. D: Appl. Phys. 2016 49 37 375401
    • (2016) J. Phys. D: Appl. Phys. , vol.49 , Issue.37 , pp. 375401
    • Yeste, J.1
  • 18
    • 84921655142 scopus 로고    scopus 로고
    • Measuring direct current trans-epithelial electrical resistance in organ-on-A-chip microsystems
    • M. Odijk et al., Measuring direct current trans-epithelial electrical resistance in organ-on-a-chip microsystems Lab Chip 2015 15 3 745 752
    • (2015) Lab Chip , vol.15 , Issue.3 , pp. 745-752
    • Odijk, M.1
  • 19
    • 84956654664 scopus 로고    scopus 로고
    • Small airway-on-A-chip enables analysis of human lung inflammation and drug responses in vitro
    • K. H. Benam et al., Small airway-on-a-chip enables analysis of human lung inflammation and drug responses in vitro Nat. Methods 2016 13 151 157
    • (2016) Nat. Methods , vol.13 , pp. 151-157
    • Benam, K.H.1
  • 20
    • 0008015408 scopus 로고    scopus 로고
    • The Mechanism for 3-Aminopropyltriethoxysilane to Strengthen the Interface of Polycarbonate Substrates with Hybrid Organic-Inorganic Sol-Gel Coatings
    • C. Li G. Wilkes The Mechanism for 3-Aminopropyltriethoxysilane to Strengthen the Interface of Polycarbonate Substrates with Hybrid Organic-Inorganic Sol-Gel Coatings J. Inorg. Organomet. Polym. 1998 8 1 33 45
    • (1998) J. Inorg. Organomet. Polym. , vol.8 , Issue.1 , pp. 33-45
    • Li, C.1    Wilkes, G.2
  • 21
    • 0032162963 scopus 로고    scopus 로고
    • Surface Modification of Poly(ethylene terephthalate) to Prepare Surfaces with Silica-Like Reactivity
    • A. Y. Fadeev T. J. McCarthy Surface Modification of Poly(ethylene terephthalate) To Prepare Surfaces with Silica-Like Reactivity Langmuir 1998 14 19 5586 5593
    • (1998) Langmuir , vol.14 , Issue.19 , pp. 5586-5593
    • Fadeev, A.Y.1    McCarthy, T.J.2
  • 22
    • 79952253775 scopus 로고    scopus 로고
    • Simple room temperature bonding of thermoplastics and poly(dimethylsiloxane)
    • V. Sunkara et al., Simple room temperature bonding of thermoplastics and poly(dimethylsiloxane) Lab Chip 2011 11 5 962 965
    • (2011) Lab Chip , vol.11 , Issue.5 , pp. 962-965
    • Sunkara, V.1
  • 23
    • 66149129855 scopus 로고    scopus 로고
    • Plastic-PDMS bonding for high pressure hydrolytically stable active microfluidics
    • K. S. Lee R. J. Ram Plastic-PDMS bonding for high pressure hydrolytically stable active microfluidics Lab Chip 2009 9 11 1618 1624
    • (2009) Lab Chip , vol.9 , Issue.11 , pp. 1618-1624
    • Lee, K.S.1    Ram, R.J.2
  • 24
    • 65249142345 scopus 로고    scopus 로고
    • Novel Poly(dimethylsiloxane) Bonding Strategy via Room Temperature Chemical Gluing
    • N. Y. Lee B. H. Chung Novel Poly(dimethylsiloxane) Bonding Strategy via Room Temperature "Chemical Gluing" Langmuir 2009 25 6 3861 3866
    • (2009) Langmuir , vol.25 , Issue.6 , pp. 3861-3866
    • Lee, N.Y.1    Chung, B.H.2
  • 25
    • 77951891808 scopus 로고    scopus 로고
    • A facile route for irreversible bonding of plastic-PDMS hybrid microdevices at room temperature
    • L. Tang N. Y. Lee A facile route for irreversible bonding of plastic-PDMS hybrid microdevices at room temperature Lab Chip 2010 10 10 1274 1280
    • (2010) Lab Chip , vol.10 , Issue.10 , pp. 1274-1280
    • Tang, L.1    Lee, N.Y.2
  • 26
    • 70350317593 scopus 로고    scopus 로고
    • Membrane Capacitance Measurements Revisited: Dependence of Capacitance Value on Measurement Method in Nonisopotential Neurons
    • J. Golowasch et al., Membrane Capacitance Measurements Revisited: Dependence of Capacitance Value on Measurement Method in Nonisopotential Neurons J. Neurophysiol. 2009 102 4 2161 2175
    • (2009) J. Neurophysiol. , vol.102 , Issue.4 , pp. 2161-2175
    • Golowasch, J.1
  • 27
    • 84867135276 scopus 로고    scopus 로고
    • Quantification of the specific membrane capacitance of single cells using a microfluidic device and impedance spectroscopy measurement
    • Q. Tan et al., Quantification of the specific membrane capacitance of single cells using a microfluidic device and impedance spectroscopy measurement Biomicrofluidics 2012 6 3 034112
    • (2012) Biomicrofluidics , vol.6 , Issue.3 , pp. 034112
    • Tan, Q.1
  • 28
    • 0033747755 scopus 로고    scopus 로고
    • Enhanced epithelial gene transfer by modulation of tight junctions with sodium caprate
    • C. B. Coyne et al., Enhanced epithelial gene transfer by modulation of tight junctions with sodium caprate Am. J. Respir. Cell Mol. Biol. 2000 23 5 602 609
    • (2000) Am. J. Respir. Cell Mol. Biol. , vol.23 , Issue.5 , pp. 602-609
    • Coyne, C.B.1
  • 29
    • 83655190177 scopus 로고    scopus 로고
    • Cigarette smoke impairs airway epithelial barrier function and cell-cell contact recovery
    • I. H. Heijink et al., Cigarette smoke impairs airway epithelial barrier function and cell-cell contact recovery Eur. Respir. J. 2012 39 2 419 428
    • (2012) Eur. Respir. J. , vol.39 , Issue.2 , pp. 419-428
    • Heijink, I.H.1
  • 30
    • 0034714440 scopus 로고    scopus 로고
    • Electric cell-substrate impedance sensing (ECIS) as a noninvasive means to monitor the kinetics of cell spreading to artificial surfaces
    • J. Wegener C. R. Keese I. Giaever Electric cell-substrate impedance sensing (ECIS) as a noninvasive means to monitor the kinetics of cell spreading to artificial surfaces Exp. Cell Res. 2000 259 1 158 166
    • (2000) Exp. Cell Res. , vol.259 , Issue.1 , pp. 158-166
    • Wegener, J.1    Keese, C.R.2    Giaever, I.3

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.