A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies

10.1371/journal.pone.0197101

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Main Authors:	Tan H.-Y., Trier S., Rahbek U.L., Dufva M., Kutter J.P., Andresen T.L.
Other Authors:	BIOMED INST FOR GLOBAL HEALTH RES & TECH
Format:	Article
Published:	2019
Subjects:	aminopeptidase dextran insulin mannitol multidrug resistance protein 1 politef rhodamine 123 tight junction protein ABC transporter subfamily B ABCB1 protein, human maltose tetradecyl maltoside Article biocompatibility biological model Caco-2 cell line cell differentiation cell growth controlled study drug transport electric resistance enzyme activity human human cell hydrophilicity immunocytochemistry intestine melting point microfluidics monolayer culture mucus permeability barrier analogs and derivatives cytology devices drug effect intestine absorption intestine mucosa lab on a chip metabolism microfluidic analysis procedures ATP Binding Cassette Transporter, Sub-Family B Caco-2 Cells Dextrans Humans Insulin Intestinal Absorption Intestinal Mucosa Lab-On-A-Chip Devices Maltose Mannitol Microfluidic Analytical Techniques Rhodamine 123
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/161229
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Institution:	National University of Singapore

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spelling	sg-nus-scholar.10635-1612292024-11-12T16:35:51Z A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies Tan H.-Y. Trier S. Rahbek U.L. Dufva M. Kutter J.P. Andresen T.L. BIOMED INST FOR GLOBAL HEALTH RES & TECH aminopeptidase dextran insulin mannitol multidrug resistance protein 1 politef rhodamine 123 tight junction protein ABC transporter subfamily B ABCB1 protein, human dextran insulin maltose mannitol rhodamine 123 tetradecyl maltoside Article biocompatibility biological model Caco-2 cell line cell differentiation cell growth controlled study drug transport electric resistance enzyme activity human human cell hydrophilicity immunocytochemistry intestine melting point microfluidics monolayer culture mucus permeability barrier analogs and derivatives Caco-2 cell line cytology devices drug effect intestine absorption intestine mucosa lab on a chip metabolism microfluidic analysis procedures ATP Binding Cassette Transporter, Sub-Family B Caco-2 Cells Dextrans Humans Insulin Intestinal Absorption Intestinal Mucosa Lab-On-A-Chip Devices Maltose Mannitol Microfluidic Analytical Techniques Rhodamine 123 10.1371/journal.pone.0197101 PLoS ONE 13 5 e0197101 2019-11-01T08:15:25Z 2019-11-01T08:15:25Z 2018 Article Tan H.-Y., Trier S., Rahbek U.L., Dufva M., Kutter J.P., Andresen T.L. (2018). A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies. PLoS ONE 13 (5) : e0197101. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0197101 19326203 https://scholarbank.nus.edu.sg/handle/10635/161229 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20191101
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	aminopeptidase dextran insulin mannitol multidrug resistance protein 1 politef rhodamine 123 tight junction protein ABC transporter subfamily B ABCB1 protein, human dextran insulin maltose mannitol rhodamine 123 tetradecyl maltoside Article biocompatibility biological model Caco-2 cell line cell differentiation cell growth controlled study drug transport electric resistance enzyme activity human human cell hydrophilicity immunocytochemistry intestine melting point microfluidics monolayer culture mucus permeability barrier analogs and derivatives Caco-2 cell line cytology devices drug effect intestine absorption intestine mucosa lab on a chip metabolism microfluidic analysis procedures ATP Binding Cassette Transporter, Sub-Family B Caco-2 Cells Dextrans Humans Insulin Intestinal Absorption Intestinal Mucosa Lab-On-A-Chip Devices Maltose Mannitol Microfluidic Analytical Techniques Rhodamine 123
spellingShingle	aminopeptidase dextran insulin mannitol multidrug resistance protein 1 politef rhodamine 123 tight junction protein ABC transporter subfamily B ABCB1 protein, human dextran insulin maltose mannitol rhodamine 123 tetradecyl maltoside Article biocompatibility biological model Caco-2 cell line cell differentiation cell growth controlled study drug transport electric resistance enzyme activity human human cell hydrophilicity immunocytochemistry intestine melting point microfluidics monolayer culture mucus permeability barrier analogs and derivatives Caco-2 cell line cytology devices drug effect intestine absorption intestine mucosa lab on a chip metabolism microfluidic analysis procedures ATP Binding Cassette Transporter, Sub-Family B Caco-2 Cells Dextrans Humans Insulin Intestinal Absorption Intestinal Mucosa Lab-On-A-Chip Devices Maltose Mannitol Microfluidic Analytical Techniques Rhodamine 123 Tan H.-Y. Trier S. Rahbek U.L. Dufva M. Kutter J.P. Andresen T.L. A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies
description	10.1371/journal.pone.0197101
author2	BIOMED INST FOR GLOBAL HEALTH RES & TECH
author_facet	BIOMED INST FOR GLOBAL HEALTH RES & TECH Tan H.-Y. Trier S. Rahbek U.L. Dufva M. Kutter J.P. Andresen T.L.
format	Article
author	Tan H.-Y. Trier S. Rahbek U.L. Dufva M. Kutter J.P. Andresen T.L.
author_sort	Tan H.-Y.
title	A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies
title_short	A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies
title_full	A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies
title_fullStr	A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies
title_full_unstemmed	A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies
title_sort	multi-chamber microfluidic intestinal barrier model using caco-2 cells for drug transport studies
publishDate	2019
url	https://scholarbank.nus.edu.sg/handle/10635/161229
_version_	1821224888815321088

A multi-chamber microfluidic intestinal barrier model using Caco-2 cells for drug transport studies

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