Ballistic and 3-D holographic imaging of bone

Details Ballistic and 3-D holographic imaging of bone Ballistic and 3-D holographic imaging of bone

Oct 2005

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005esasp1290..338h&link_type=abstract

In: Microgravity applications programme: Successful teaming of science and industry. Edited by Andrew Wilson, coordination: Benn

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Life Sciences, Bone Structure

Scientific paper

This MAP project is investigating and realising an alternative technology to provide 3-D bone images at very high (μm) resolutions, without ionising radiation, and potentially much more cost effective than μCT. This new method uses time-resolved or coherence-gating imaging schemes with near-IR light sources, preferably compact solid-state lasers, cost-effective semiconductor lasers or light-emitting diodes. This system has the potential to resolve single osteoclast resorption pits and to allow 3-D biomedical imaging in significantly reduced time compared with μCT.

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