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Department of Applied Mathematics Research School of Physical Sciences and Engineering The Australian National University, Canberra, AUSTRALIA
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For more information on how these movies are rendered, click
here.
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| A tissue engineered construct consisting of
mineralised ingrowth (red) into a polymer scaffolding (white lattice). This specimen was used to evaluate bone regeneration in a pig orbit reconstruction. Movie: MPEG, 11 Mbytes, 4 Mbytes "Analysis of 3D Bone Ingrowth
into Polymer Scaffolds via Micro-computed
Tomography Imaging", AC Jones, B Milthorpe, H Averdunk, A Limaye, TJ
Senden, A Sakellariou, AP Sheppard, RM Sok, MA Knackstedt, A Brandwood,
D Rohner, DW Hutmacher, Biomaterials, 25,
p4947-4954, 2004.
"Investigation of Microstructural Features in Regenerating Bone using Micro Computed Tomography", AC Jones, A Sakellariou, A Limaye, CH Arns, TJ Senden, TS Sawkins, MA Knackstedt, D Rohner, DW Hutmacher, A Brandwood, BK Milthorpe, Journal of Materials Science - Materials in Medicine, 15, p529-532, 2004. |
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| Tissue engineered bone from a pig orbit
reconstruction. A PCL polymer scaffold has provided the template for
bone growth, which is not visualised in the movies. The neovascular
network is visible using transparent surfaces to view the internal
pores. Movie: MPEG, 22 Mbytes, 7 Mbytes "An x-ray tomography facility
for quantitative prediction of mechanical and transport properties in
geological, biological and synthetic systems", A Sakellariou, TJ
Senden, TJ Sawkins, MA Knackstedt, ML Turner,
AC Jones, M Saadatfar, RJ Roberts, A Limaye, CH Arns,
AP Sheppard and RM Sok, in Development
in X-Ray Tomography IV, edited by Ulrich Bonse, Proceedings of
SPIE Vol. 5535 (SPIE, Bellingham, WA, 2004) 473-484.
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