Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells

Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells

Collagen-based hydrogels are widely used for three-dimensional (3D) culture of mammalian cells because of their high cell-activating characteristis. However, techniques for preparing of cell-embedding collagen hydrogels with micrometer-size precision in perfusable, microfluidic devices have not been...

Full description

Bibliographic Details
Main Authors: Kato Misaki, Fukushi Mayu, Yamada Masumi, Utoh Rie, Seki Minoru
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2021/02/matecconf_apcche21_07006.pdf
id doaj-7b18e9ab7ed84fb4a5555370b6028ae6
record_format Article
spelling doaj-7b18e9ab7ed84fb4a5555370b6028ae62021-01-15T10:19:30ZengEDP SciencesMATEC Web of Conferences2261-236X2021-01-013330700610.1051/matecconf/202133307006matecconf_apcche21_07006Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian CellsKato MisakiFukushi MayuYamada MasumiUtoh RieSeki MinoruCollagen-based hydrogels are widely used for three-dimensional (3D) culture of mammalian cells because of their high cell-activating characteristis. However, techniques for preparing of cell-embedding collagen hydrogels with micrometer-size precision in perfusable, microfluidic devices have not been fully developed. In this study, we propose a facile strategy enabling microfabrication of collagen hydrogels in microfluidic devices. We used phosphate particle-embedding polydimethylsiloxane (PP-PDMS) as a gelation agent, which neutralizes the acidic collagen soltuion. The collagen solution near the surface of the PP-PDMS is selectively gelled. We fabricated micropatterns and tubular structures made of collagen hydrogel, both of which were used for perfusion culture of mammalian cells encapsulated in the hydrogel matrix. The presented approach would be applicable to various types of cell culture experiments.https://www.matec-conferences.org/articles/matecconf/pdf/2021/02/matecconf_apcche21_07006.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Kato Misaki
Fukushi Mayu
Yamada Masumi
Utoh Rie
Seki Minoru
spellingShingle Kato Misaki
Fukushi Mayu
Yamada Masumi
Utoh Rie
Seki Minoru
Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells
MATEC Web of Conferences
author_facet Kato Misaki
Fukushi Mayu
Yamada Masumi
Utoh Rie
Seki Minoru
author_sort Kato Misaki
title Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells
title_short Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells
title_full Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells
title_fullStr Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells
title_full_unstemmed Microengineering of Collagen Hydrogels Integrated into Microfluidic Devices for Perfusion Culture of Mammalian Cells
title_sort microengineering of collagen hydrogels integrated into microfluidic devices for perfusion culture of mammalian cells
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2021-01-01
description Collagen-based hydrogels are widely used for three-dimensional (3D) culture of mammalian cells because of their high cell-activating characteristis. However, techniques for preparing of cell-embedding collagen hydrogels with micrometer-size precision in perfusable, microfluidic devices have not been fully developed. In this study, we propose a facile strategy enabling microfabrication of collagen hydrogels in microfluidic devices. We used phosphate particle-embedding polydimethylsiloxane (PP-PDMS) as a gelation agent, which neutralizes the acidic collagen soltuion. The collagen solution near the surface of the PP-PDMS is selectively gelled. We fabricated micropatterns and tubular structures made of collagen hydrogel, both of which were used for perfusion culture of mammalian cells encapsulated in the hydrogel matrix. The presented approach would be applicable to various types of cell culture experiments.
url https://www.matec-conferences.org/articles/matecconf/pdf/2021/02/matecconf_apcche21_07006.pdf
work_keys_str_mv AT katomisaki microengineeringofcollagenhydrogelsintegratedintomicrofluidicdevicesforperfusioncultureofmammaliancells
AT fukushimayu microengineeringofcollagenhydrogelsintegratedintomicrofluidicdevicesforperfusioncultureofmammaliancells
AT yamadamasumi microengineeringofcollagenhydrogelsintegratedintomicrofluidicdevicesforperfusioncultureofmammaliancells
AT utohrie microengineeringofcollagenhydrogelsintegratedintomicrofluidicdevicesforperfusioncultureofmammaliancells
AT sekiminoru microengineeringofcollagenhydrogelsintegratedintomicrofluidicdevicesforperfusioncultureofmammaliancells
_version_ 1724337401824804864

Similar Items