The effect of oxygen tension on human articular chondrocyte matrix synthesis: integration of experimental and computational approaches
The effect of oxygen tension on human articular chondrocyte matrix synthesis: integration of experimental and computational approaches
Significant oxygen gradients occur within tissue engineered cartilaginous constructs. Although oxygen tension is an important limiting parameter in the development of new cartilage matrix, its precise role in matrix formation by chondrocytes remains controversial, primarily due to discrepancies in the experimental setup applied in different studies. In this study, the specific effects of oxygen tension on the synthesis of cartilaginous matrix by human articular chondrocytes were studied using a combined experimental-computational approach in a "scaffold-free" 3D pellet culture model. Key parameters including cellular oxygen uptake rate were determined experimentally and used in conjunction with a mathematical model to estimate oxygen tension profiles in 21-day cartilaginous pellets. A threshold oxygen tension (pO2 ???8% atmospheric pressure) for human articular chondrocytes was estimated from these inferred oxygen profiles and histological analysis of pellet sections. Human articular chondrocytes that experienced oxygen tension below this threshold demonstrated enhanced proteoglycan deposition. Conversely, oxygen tension higher than the threshold favored collagen synthesis. This study has demonstrated a close relationship between oxygen tension and matrix synthesis by human articular chondrocytes in a "scaffold-free" 3D pellet culture model, providing valuable insight into the understanding and optimization of cartilage bioengineering approaches
cartilage tissue engineering, human articular chondrocytes, pellet culture, oxygen tension, mathematical modeling, image analysis
1876-1885
Li, Siwei
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Oreffo, Richard O.C.
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Sengers, Bram G.
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Tare, Rahul S.
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September 2014
Li, Siwei
7c1afb74-246f-4596-8a7d-30cd5bb4747b
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Sengers, Bram G.
d6b771b1-4ede-48c5-9644-fa86503941aa
Tare, Rahul S.
587c9db4-e409-4e7c-a02a-677547ab724a
Li, Siwei, Oreffo, Richard O.C., Sengers, Bram G. and Tare, Rahul S.
(2014)
The effect of oxygen tension on human articular chondrocyte matrix synthesis: integration of experimental and computational approaches.
Biotechnology and Bioengineering, 111 (9), .
(doi:10.1002/bit.25241).
(PMID:24668194)
Abstract
Significant oxygen gradients occur within tissue engineered cartilaginous constructs. Although oxygen tension is an important limiting parameter in the development of new cartilage matrix, its precise role in matrix formation by chondrocytes remains controversial, primarily due to discrepancies in the experimental setup applied in different studies. In this study, the specific effects of oxygen tension on the synthesis of cartilaginous matrix by human articular chondrocytes were studied using a combined experimental-computational approach in a "scaffold-free" 3D pellet culture model. Key parameters including cellular oxygen uptake rate were determined experimentally and used in conjunction with a mathematical model to estimate oxygen tension profiles in 21-day cartilaginous pellets. A threshold oxygen tension (pO2 ???8% atmospheric pressure) for human articular chondrocytes was estimated from these inferred oxygen profiles and histological analysis of pellet sections. Human articular chondrocytes that experienced oxygen tension below this threshold demonstrated enhanced proteoglycan deposition. Conversely, oxygen tension higher than the threshold favored collagen synthesis. This study has demonstrated a close relationship between oxygen tension and matrix synthesis by human articular chondrocytes in a "scaffold-free" 3D pellet culture model, providing valuable insight into the understanding and optimization of cartilage bioengineering approaches
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Li_et_al-2014-Biotechnology_and_Bioengineering.pdf
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Accepted/In Press date: 25 March 2014
e-pub ahead of print date: 5 May 2014
Published date: September 2014
Keywords:
cartilage tissue engineering, human articular chondrocytes, pellet culture, oxygen tension, mathematical modeling, image analysis
Organisations:
Human Development & Health
Identifiers
Local EPrints ID: 364754
URI: http://eprints.soton.ac.uk/id/eprint/364754
ISSN: 0006-3592
PURE UUID: 017d19e3-b543-4a56-aa2c-481f4cc8ec77
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Date deposited: 12 May 2014 12:41
Last modified: 15 Mar 2024 03:26
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Author:
Siwei Li
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