Development of an oral epithelial ex vivo organ culture model for biocompatibility and permeability assessment of biomaterials
Development of an oral epithelial ex vivo organ culture model for biocompatibility and permeability assessment of biomaterials
In the present study, a customized device (Epi-ExPer) was designed and fabricated to facilitate an epithelial organ culture, allowing for controlled exposure to exogenous chemical stimuli and accommodating the evaluation of permeation of the tissue after treatment. The Epi-ExPer system was fabricated using a stereolithography (SLA)-based additive manufacturing (AM) method. Human and porcine oral epithelial mucosa tissues were inserted into the device and exposed to resinous monomers commonly released by dental restorative materials. The effect of these xenobiotics on the morphology, viability, permeability, and expression of relevant markers of the oral epithelium was evaluated. Tissue culture could be performed with the desired orientation of air-liquid interface (ALI) conditions, and exposure to xenobiotics was undertaken in a spatially guarded and reproducible manner. Among the selected monomers, HEMA and TEGDMA reduced tissue viability at high concentrations, while tissue permeability was increased by the latter. Xenobiotics affected the histological image by introducing the vacuolar degeneration of epithelial cells and increasing the expression of panCytokeratin (pCK). Epi-ExPer device offers a simple, precise, and reproducible study system to evaluate interactions of oral mucosa with external stimuli, providing a biocompatibility and permeability assessment tool aiming to an enhanced in vitro/ex vivo-to-in vivo extrapolation (IVIVE) that complies with European Union (EU) and Food and Durg Administration (FDI) policies.
epithelial barrier, oral mucosa ex vivo analog, organ/tissue culture model, permeability device
Machla, Foteini
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Bekiari, Chrysanthi
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Monou, Paraskevi Kyriaki
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Kofidou, Evangelia
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Theodosaki, Astero Maria
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Katsamenis, Orestis L.
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Zisis, Vasileios
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Kokoti, Maria
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Bakopoulou, Athina
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Fatouros, Dimitrios
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Andreadis, Dimitrios
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17 October 2024
Machla, Foteini
0eedc170-fb20-4997-9fa6-73a738162d80
Bekiari, Chrysanthi
deef8f28-f4fd-44b2-893f-cc5506f83e49
Monou, Paraskevi Kyriaki
5104c7e1-cb4c-4520-8ea4-863a9269c62d
Kofidou, Evangelia
2bf8b378-6eeb-474d-a164-3f503f1337eb
Theodosaki, Astero Maria
75add944-75bd-4162-8e76-edad8a41b0ed
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Zisis, Vasileios
f78f74eb-bb3f-48e1-8126-895ee39d437a
Kokoti, Maria
78d7b21f-d69c-4f9a-8b4c-2651b65cf767
Bakopoulou, Athina
c0e871af-bc82-4232-ae1d-18429e80c737
Fatouros, Dimitrios
4a716c96-a8ba-4fbf-b3db-3b2a3a2794c4
Andreadis, Dimitrios
f072f08a-3f54-4fbc-a59e-f7a5f2630d99
Machla, Foteini, Bekiari, Chrysanthi, Monou, Paraskevi Kyriaki, Kofidou, Evangelia, Theodosaki, Astero Maria, Katsamenis, Orestis L., Zisis, Vasileios, Kokoti, Maria, Bakopoulou, Athina, Fatouros, Dimitrios and Andreadis, Dimitrios
(2024)
Development of an oral epithelial ex vivo organ culture model for biocompatibility and permeability assessment of biomaterials.
Bioengineering, 11 (10), [1035].
(doi:10.3390/bioengineering11101035).
Abstract
In the present study, a customized device (Epi-ExPer) was designed and fabricated to facilitate an epithelial organ culture, allowing for controlled exposure to exogenous chemical stimuli and accommodating the evaluation of permeation of the tissue after treatment. The Epi-ExPer system was fabricated using a stereolithography (SLA)-based additive manufacturing (AM) method. Human and porcine oral epithelial mucosa tissues were inserted into the device and exposed to resinous monomers commonly released by dental restorative materials. The effect of these xenobiotics on the morphology, viability, permeability, and expression of relevant markers of the oral epithelium was evaluated. Tissue culture could be performed with the desired orientation of air-liquid interface (ALI) conditions, and exposure to xenobiotics was undertaken in a spatially guarded and reproducible manner. Among the selected monomers, HEMA and TEGDMA reduced tissue viability at high concentrations, while tissue permeability was increased by the latter. Xenobiotics affected the histological image by introducing the vacuolar degeneration of epithelial cells and increasing the expression of panCytokeratin (pCK). Epi-ExPer device offers a simple, precise, and reproducible study system to evaluate interactions of oral mucosa with external stimuli, providing a biocompatibility and permeability assessment tool aiming to an enhanced in vitro/ex vivo-to-in vivo extrapolation (IVIVE) that complies with European Union (EU) and Food and Durg Administration (FDI) policies.
Text
bioengineering-3236265
- Accepted Manuscript
Text
bioengineering-11-01035
- Version of Record
More information
Accepted/In Press date: 15 October 2024
Published date: 17 October 2024
Keywords:
epithelial barrier, oral mucosa ex vivo analog, organ/tissue culture model, permeability device
Identifiers
Local EPrints ID: 495879
URI: http://eprints.soton.ac.uk/id/eprint/495879
ISSN: 2306-5354
PURE UUID: 6898b7dd-21c0-48d6-be7d-08c7b618a817
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Date deposited: 26 Nov 2024 17:45
Last modified: 27 Nov 2024 02:43
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Contributors
Author:
Foteini Machla
Author:
Chrysanthi Bekiari
Author:
Paraskevi Kyriaki Monou
Author:
Evangelia Kofidou
Author:
Astero Maria Theodosaki
Author:
Vasileios Zisis
Author:
Maria Kokoti
Author:
Athina Bakopoulou
Author:
Dimitrios Fatouros
Author:
Dimitrios Andreadis
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