Design, additive manufacturing, and characterization of an organ-on-chip microfluidic device for oral mucosa analogue growth
Design, additive manufacturing, and characterization of an organ-on-chip microfluidic device for oral mucosa analogue growth
Introduction: a customized organ-on-a-chip microfluidic device was developed for dynamic culture of oral mucosa equivalents (Oral_mucosa_chip-OMC).
Materials and methods: additive Manufacturing (AM) was performed via stereolithography (SLA) printing. The dimensional accuracy was evaluated via microfocus computed tomography (mCT), the surface characteristics via scanning electron microscopy (SEM), while the mechanical properties via nanoindentation and compression tests. Computational fluid dynamics (CFD) optimized net forces towards the culture area. An oral mucosa equivalent comprising a multilayered epithelium derived by culture of TR146 cells at the air-liquid interface (ALI) and a lamina propria-analogue based on a collagen-I/fibrin hydrogel was maintained under ultra-precise flow conditions.
Results: an open-type device concept encompassing two interconnected chambers for long-term dynamic culture was developed and characterized for AM parameters, mechanical and biological properties. The split-inlet flow channel architecture allowed even distribution and symmetric flow velocity to the culture area. Cell viability exceeded 90%, while mCT and SEM indicated the 0° building angle as the most accurate SLA condition. CFD further showed that the 0° and 30° building angles most accurately reproduced the channel flow velocity predicted by the initial CAD model.
Conclusion: this study developed a customized, easy-to-produce, and cell-friendly OMC device, providing a 3D tool for biocompatibility assessment of biomaterials.
organ-on-chip, 3D printing, stereolithography, oral mucosa, microfluidics
Machla, Foteini
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Kyriaki Monou, Parashkevi
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Artemiou, Panagiotis
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Angelopoulos, Ioannis
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Zisis, Vasileios
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Panteris, Emmanuel
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Katsamenis, Orestis L.
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Williams, Eric
846e65d4-4404-43d0-ba75-176422bcd7cc
Tzimtzimis, Emmanouil
3a10a9d2-643e-4ebc-b9e2-f5c8992f5601
Tztezis, Dimitrios
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Andreadis, Dimitrios
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Tsouknidas, Alexander
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Fatouros, Dimitrios
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Bakopoulou, Athina
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26 December 2024
Machla, Foteini
b4a45b58-46b0-4265-b7c4-64fc42db7d23
Kyriaki Monou, Parashkevi
05fb2031-e44e-441f-982d-055cf8bc3b1f
Artemiou, Panagiotis
2ccf7082-781f-465b-af7d-06c15009cdd8
Angelopoulos, Ioannis
1eebe751-5161-4af2-ae66-fd4f1fd50151
Zisis, Vasileios
16e29c72-416e-4a54-8461-f95753ce6d29
Panteris, Emmanuel
41e24e2a-280d-4a2e-bc1b-680e1f1f176b
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Williams, Eric
846e65d4-4404-43d0-ba75-176422bcd7cc
Tzimtzimis, Emmanouil
3a10a9d2-643e-4ebc-b9e2-f5c8992f5601
Tztezis, Dimitrios
310c5dcc-bd1a-4407-91fd-9cd4135c42a7
Andreadis, Dimitrios
23c51d7b-3bc1-4ca0-8973-5dc2edd827ef
Tsouknidas, Alexander
bce1f880-a334-4544-aa0c-c24b83c52ec5
Fatouros, Dimitrios
46f09141-45ef-446b-b790-2e374ee4e3f0
Bakopoulou, Athina
2fd8c625-ccb3-4801-87bc-9c983049f463
Machla, Foteini, Kyriaki Monou, Parashkevi, Artemiou, Panagiotis, Angelopoulos, Ioannis, Zisis, Vasileios, Panteris, Emmanuel, Katsamenis, Orestis L., Williams, Eric, Tzimtzimis, Emmanouil, Tztezis, Dimitrios, Andreadis, Dimitrios, Tsouknidas, Alexander, Fatouros, Dimitrios and Bakopoulou, Athina
(2024)
Design, additive manufacturing, and characterization of an organ-on-chip microfluidic device for oral mucosa analogue growth.
Journal of the Mechanical Behavior of Biomedical Materials, 163, [106877].
(doi:10.1016/j.jmbbm.2024.106877).
Abstract
Introduction: a customized organ-on-a-chip microfluidic device was developed for dynamic culture of oral mucosa equivalents (Oral_mucosa_chip-OMC).
Materials and methods: additive Manufacturing (AM) was performed via stereolithography (SLA) printing. The dimensional accuracy was evaluated via microfocus computed tomography (mCT), the surface characteristics via scanning electron microscopy (SEM), while the mechanical properties via nanoindentation and compression tests. Computational fluid dynamics (CFD) optimized net forces towards the culture area. An oral mucosa equivalent comprising a multilayered epithelium derived by culture of TR146 cells at the air-liquid interface (ALI) and a lamina propria-analogue based on a collagen-I/fibrin hydrogel was maintained under ultra-precise flow conditions.
Results: an open-type device concept encompassing two interconnected chambers for long-term dynamic culture was developed and characterized for AM parameters, mechanical and biological properties. The split-inlet flow channel architecture allowed even distribution and symmetric flow velocity to the culture area. Cell viability exceeded 90%, while mCT and SEM indicated the 0° building angle as the most accurate SLA condition. CFD further showed that the 0° and 30° building angles most accurately reproduced the channel flow velocity predicted by the initial CAD model.
Conclusion: this study developed a customized, easy-to-produce, and cell-friendly OMC device, providing a 3D tool for biocompatibility assessment of biomaterials.
Text
JMBBM-D-24-01883_R2_Clean
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Restricted to Repository staff only until 26 December 2026.
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Accepted/In Press date: 17 December 2024
e-pub ahead of print date: 19 December 2024
Published date: 26 December 2024
Keywords:
organ-on-chip, 3D printing, stereolithography, oral mucosa, microfluidics
Identifiers
Local EPrints ID: 498104
URI: http://eprints.soton.ac.uk/id/eprint/498104
ISSN: 1751-6161
PURE UUID: 0743a0bd-06f2-45d3-acaf-7d8c66cad3a6
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Date deposited: 10 Feb 2025 17:33
Last modified: 11 Feb 2025 02:45
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Contributors
Author:
Foteini Machla
Author:
Parashkevi Kyriaki Monou
Author:
Panagiotis Artemiou
Author:
Ioannis Angelopoulos
Author:
Vasileios Zisis
Author:
Emmanuel Panteris
Author:
Eric Williams
Author:
Emmanouil Tzimtzimis
Author:
Dimitrios Tztezis
Author:
Dimitrios Andreadis
Author:
Alexander Tsouknidas
Author:
Dimitrios Fatouros
Author:
Athina Bakopoulou
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