Tissue-engineered oral epithelium for dental material testing: toward in vitro biomimetic models
Tissue-engineered oral epithelium for dental material testing: toward in vitro biomimetic models
Tissue-engineered oral epithelium (ΤΕΟΕ) was developed after comparing various culture conditions, including submerged (SUB) and air-liquid interface (ALI) human cell expansion options. Barrier formation was evaluated via transepithelial electrical resistance (TEER) and calcein permeation via spectrofluorometry. TEOE was further assessed for long-term viability via live/dead staining and development of intercellular connections via transmission electron microscopy. Tissue architecture was evaluated via histochemistry and the expression of pancytokeratin (pCK) via immunohistochemistry. The effect of two commonly used dental resinous monomers on TEOE was evaluated for alterations in cell viability and barrier permeability. ALI/keratinocyte growth factor-supplemented (ALI-KGS) culture conditions led to the formation of an 8-20-layer thick, intercellularly connected epithelial barrier. TEER values of ALI-KGS-developed TEOE decreased compared with all other tested conditions, and the established epithelium intensively expressed pCK. Exposure to dental monomers affected the integrity and architecture of TEOE and induced cellular vacuolation, implicating hydropic degeneration. Despite structural modifications, the permeability of TEOE was not substantially affected after exposure to the monomers. In conclusion, the biological properties of the TEOE mimicking the physiological functional conditions and its value as biocompatibility assessment tool for dental materials were characterized.
biocompatibility assessment tool, epithelial barrier, in vitro-in vivo extrapolation, oral mucosa, permeability, tissue engineering
555-568
Machla, Foteini
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Monou, Paraskevi Kyriaki
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Bekiari, Chrysanthi
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Andreadis, Dimitrios
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Kofidou, Evangelia
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Panteris, Emmanuel
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Katsamenis, Orestis L.
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Kokoti, Maria
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Koidis, Petros
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About, Imad
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Fatouros, Dimitrios
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Bakopoulou, Athina
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1 December 2024
Machla, Foteini
0eedc170-fb20-4997-9fa6-73a738162d80
Monou, Paraskevi Kyriaki
5104c7e1-cb4c-4520-8ea4-863a9269c62d
Bekiari, Chrysanthi
deef8f28-f4fd-44b2-893f-cc5506f83e49
Andreadis, Dimitrios
23c51d7b-3bc1-4ca0-8973-5dc2edd827ef
Kofidou, Evangelia
2bf8b378-6eeb-474d-a164-3f503f1337eb
Panteris, Emmanuel
672299e6-fb14-4c90-acc9-83809c20c639
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Kokoti, Maria
78d7b21f-d69c-4f9a-8b4c-2651b65cf767
Koidis, Petros
9d576c31-7525-4f51-80de-bd14acdebb8c
About, Imad
0432d473-e9fb-4b3d-a0ca-307b5d864c9d
Fatouros, Dimitrios
c7a4f13c-3e06-4143-ae1b-8a1c0eb186cc
Bakopoulou, Athina
c0e871af-bc82-4232-ae1d-18429e80c737
Machla, Foteini, Monou, Paraskevi Kyriaki, Bekiari, Chrysanthi, Andreadis, Dimitrios, Kofidou, Evangelia, Panteris, Emmanuel, Katsamenis, Orestis L., Kokoti, Maria, Koidis, Petros, About, Imad, Fatouros, Dimitrios and Bakopoulou, Athina
(2024)
Tissue-engineered oral epithelium for dental material testing: toward in vitro biomimetic models.
Tissue Engineering Part C Methods, 30 (12), .
(doi:10.1089/ten.TEC.2024.0154).
Abstract
Tissue-engineered oral epithelium (ΤΕΟΕ) was developed after comparing various culture conditions, including submerged (SUB) and air-liquid interface (ALI) human cell expansion options. Barrier formation was evaluated via transepithelial electrical resistance (TEER) and calcein permeation via spectrofluorometry. TEOE was further assessed for long-term viability via live/dead staining and development of intercellular connections via transmission electron microscopy. Tissue architecture was evaluated via histochemistry and the expression of pancytokeratin (pCK) via immunohistochemistry. The effect of two commonly used dental resinous monomers on TEOE was evaluated for alterations in cell viability and barrier permeability. ALI/keratinocyte growth factor-supplemented (ALI-KGS) culture conditions led to the formation of an 8-20-layer thick, intercellularly connected epithelial barrier. TEER values of ALI-KGS-developed TEOE decreased compared with all other tested conditions, and the established epithelium intensively expressed pCK. Exposure to dental monomers affected the integrity and architecture of TEOE and induced cellular vacuolation, implicating hydropic degeneration. Despite structural modifications, the permeability of TEOE was not substantially affected after exposure to the monomers. In conclusion, the biological properties of the TEOE mimicking the physiological functional conditions and its value as biocompatibility assessment tool for dental materials were characterized.
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bioengineering-3236265
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ΤΕΟΕ for dental material testing toward in vitro biomimetic models
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Accepted/In Press date: 10 September 2024
e-pub ahead of print date: 9 October 2024
Published date: 1 December 2024
Keywords:
biocompatibility assessment tool, epithelial barrier, in vitro-in vivo extrapolation, oral mucosa, permeability, tissue engineering
Identifiers
Local EPrints ID: 495836
URI: http://eprints.soton.ac.uk/id/eprint/495836
ISSN: 1937-3384
PURE UUID: 41b0fb78-20c0-4bdf-88ee-e5062773c305
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Date deposited: 25 Nov 2024 17:43
Last modified: 30 Jan 2025 02:49
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Contributors
Author:
Foteini Machla
Author:
Paraskevi Kyriaki Monou
Author:
Chrysanthi Bekiari
Author:
Dimitrios Andreadis
Author:
Evangelia Kofidou
Author:
Emmanuel Panteris
Author:
Maria Kokoti
Author:
Petros Koidis
Author:
Imad About
Author:
Dimitrios Fatouros
Author:
Athina Bakopoulou
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