Does scaffold architecture influence oxygen gradients in cartilaginous tissue engineered constructs?

J. Malda; T. Woodfield; F. van der Vloodt; F. Kooy; D.E. Martens; J. Tramper; C.A. van Blitterswijk; J. Riesle

Does scaffold architecture influence oxygen gradients in cartilaginous tissue engineered constructs?

J. Malda^*, T. Woodfield, F. van der Vloodt, F. Kooy, D.E. Martens, J. Tramper, C.A. van Blitterswijk, J. Riesle

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

The oxygen gradients in cartilaginous tissue engineering constructs were evaluated. Spatial distributions of cells within constructs were determined from DAPI stained histological sections using image analysis. The scaffolds were produced using either a compression molding (CM)/salt leaching or 3D fiber deposition (3DF) techniques. The results show that 3DF constructs contain significantly more cartilaginous tissue and cells in the center.

Original language	English
Title of host publication	7th World Biomaterials Congress 2004
Subtitle of host publication	May 17-21, 2004, Sydney, Australia
Place of Publication	Red Hook, NY
Publisher	Curran Associates Inc.
Pages	747-747
Number of pages	1
Volume	1
ISBN (Print)	978-1-60423-461-9
Publication status	Published - 1 Dec 2004
Event	7th World Biomaterials Congress, WBC 2004 - Sydney, Australia Duration: 17 May 2004 → 21 May 2004 Conference number: 7

Conference

Conference	7th World Biomaterials Congress, WBC 2004
Abbreviated title	WBC
Country	Australia
City	Sydney
Period	17/05/04 → 21/05/04

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@inproceedings{a09729e059d04f8782228e555a3f5a02,

title = "Does scaffold architecture influence oxygen gradients in cartilaginous tissue engineered constructs?",

abstract = "The oxygen gradients in cartilaginous tissue engineering constructs were evaluated. Spatial distributions of cells within constructs were determined from DAPI stained histological sections using image analysis. The scaffolds were produced using either a compression molding (CM)/salt leaching or 3D fiber deposition (3DF) techniques. The results show that 3DF constructs contain significantly more cartilaginous tissue and cells in the center.",

author = "J. Malda and T. Woodfield and {van der Vloodt}, F. and F. Kooy and D.E. Martens and J. Tramper and {van Blitterswijk}, C.A. and J. Riesle",

year = "2004",

month = "12",

day = "1",

language = "English",

isbn = "978-1-60423-461-9",

volume = "1",

pages = "747--747",

booktitle = "7th World Biomaterials Congress 2004",

publisher = "Curran Associates Inc.",

}

Malda, J, Woodfield, T, van der Vloodt, F, Kooy, F, Martens, DE, Tramper, J, van Blitterswijk, CA & Riesle, J 2004, Does scaffold architecture influence oxygen gradients in cartilaginous tissue engineered constructs? in 7th World Biomaterials Congress 2004: May 17-21, 2004, Sydney, Australia. vol. 1, Curran Associates Inc., Red Hook, NY, pp. 747-747, 7th World Biomaterials Congress, WBC 2004, Sydney, Australia, 17/05/04.

Does scaffold architecture influence oxygen gradients in cartilaginous tissue engineered constructs? / Malda, J.; Woodfield, T.; van der Vloodt, F.; Kooy, F.; Martens, D.E.; Tramper, J.; van Blitterswijk, C.A.; Riesle, J.

7th World Biomaterials Congress 2004: May 17-21, 2004, Sydney, Australia. Vol. 1 Red Hook, NY : Curran Associates Inc., 2004. p. 747-747.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review