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Comparative materials differences revealed in engineered bone as a function of cell-specific differentiation

Comparative materials differences revealed in engineered bone as a function of cell-specific differentiation
Comparative materials differences revealed in engineered bone as a function of cell-specific differentiation
An important aim of regenerative medicine is to restore tissue function with implantable, laboratory-grown constructs that contain tissue-specific cells that replicate the function of their counterparts in the healthy native tissue. It remains unclear, however, whether cells used in bone regeneration applications produce a material that mimics the structural and compositional complexity of native bone. By applying multivariate analysis techniques to micro-Raman spectra of mineralized nodules formed in vitro, we reveal cell-source-dependent differences in interactions between multiple bone-like mineral environments. Although osteoblasts and adult stem cells exhibited bone-specific biological activities and created a material with many of the hallmarks of native bone, the 'bone nodules' formed from embryonic stem cells were an order of magnitude less stiff, and lacked the distinctive nanolevel architecture and complex biomolecular and mineral composition noted in the native tissue. Understanding the biological mechanisms of bone formation in vitro that contribute to cell-source-specific materials differences may facilitate the development of clinically successful engineered bone.
1476-1122
763-770
Gentleman, Eileen
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Swain, Robin J.
381ba57e-b93a-408b-8cb3-556543a9dfc9
Evans, Nicholas D.
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Boonrungsiman, Suwimon
265be035-5f1c-478d-af1b-19a01a9bc069
Jell, Gavin
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Ball, Michael D.
c269da5d-0980-41ff-8769-8f3551791453
Shean, Tamaryn A. V.
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Oyen, Michelle L.
6568aef2-033f-46a4-b0eb-8e62a53e3ee9
Porter, Alexandra
79ecf94d-06a6-4dc5-ba95-8853e5d67b3e
Stevens, Molly M.
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Gentleman, Eileen
a0b4959e-7b65-46b7-9ea8-1d0f5857c22f
Swain, Robin J.
381ba57e-b93a-408b-8cb3-556543a9dfc9
Evans, Nicholas D.
06a05c97-bfed-4abb-9244-34ec9f4b4b95
Boonrungsiman, Suwimon
265be035-5f1c-478d-af1b-19a01a9bc069
Jell, Gavin
8e01cbee-a745-4a05-8d54-1eaa6d9f9363
Ball, Michael D.
c269da5d-0980-41ff-8769-8f3551791453
Shean, Tamaryn A. V.
7ab1caa6-8515-4497-bc24-11a94b3d7cfa
Oyen, Michelle L.
6568aef2-033f-46a4-b0eb-8e62a53e3ee9
Porter, Alexandra
79ecf94d-06a6-4dc5-ba95-8853e5d67b3e
Stevens, Molly M.
f0c6dded-e31c-4e40-bfc4-2a70fad118a6

Gentleman, Eileen, Swain, Robin J., Evans, Nicholas D., Boonrungsiman, Suwimon, Jell, Gavin, Ball, Michael D., Shean, Tamaryn A. V., Oyen, Michelle L., Porter, Alexandra and Stevens, Molly M. (2009) Comparative materials differences revealed in engineered bone as a function of cell-specific differentiation. Nature Materials, 8 (9), 763-770. (doi:10.1038/nmat2505). (PMID:19633661)

Record type: Article

Abstract

An important aim of regenerative medicine is to restore tissue function with implantable, laboratory-grown constructs that contain tissue-specific cells that replicate the function of their counterparts in the healthy native tissue. It remains unclear, however, whether cells used in bone regeneration applications produce a material that mimics the structural and compositional complexity of native bone. By applying multivariate analysis techniques to micro-Raman spectra of mineralized nodules formed in vitro, we reveal cell-source-dependent differences in interactions between multiple bone-like mineral environments. Although osteoblasts and adult stem cells exhibited bone-specific biological activities and created a material with many of the hallmarks of native bone, the 'bone nodules' formed from embryonic stem cells were an order of magnitude less stiff, and lacked the distinctive nanolevel architecture and complex biomolecular and mineral composition noted in the native tissue. Understanding the biological mechanisms of bone formation in vitro that contribute to cell-source-specific materials differences may facilitate the development of clinically successful engineered bone.

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Published date: September 2009
Related URLs:
Organisations: Dev Origins of Health & Disease, Bioengineering Sciences
Learn more about Institute for Life Sciences research Learn more about Institute for Life Sciences research

Identifiers

Local EPrints ID: 176175
URI: http://eprints.soton.ac.uk/id/eprint/176175
DOI: doi:10.1038/nmat2505
ISSN: 1476-1122
PURE UUID: 70ff7a9b-a8e4-44c7-8aa4-8f1cb054ba2d
ORCID for Nicholas D. Evans: ORCID iD orcid.org/0000-0002-3255-4388

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Date deposited: 04 Mar 2011 11:16
Last modified: 14 Mar 2024 02:56

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Author: Eileen Gentleman
Author: Robin J. Swain
Author: Nicholas D. Evans ORCID iD
Author: Suwimon Boonrungsiman
Author: Gavin Jell
Author: Michael D. Ball
Author: Tamaryn A. V. Shean
Author: Michelle L. Oyen
Author: Alexandra Porter
Author: Molly M. Stevens

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