High-resolution X-ray tomography of the human inner ear: synchrotron radiation-based study of nerve fibre bundles, membranes and ganglion cells

Lareida, A.; Beckmann, F.; Schrott-Fischer, A.; Glueckert, R.; Freysinger, W.; Mueller, B.

Journalpaper

High-resolution X-ray tomography of the human inner ear: synchrotron radiation-based study of nerve fibre bundles, membranes and ganglion cells

Abstract

The combination of osmium tetroxide staining and high-resolution tomographic imaging using monochromatic X rays allows visualizing cellular structures of the human inner ear, that is, the organ of Corti, the stria vascularis and further soft tissues of the membranous labyrinth, in three-dimensional space with isotropic micrometre resolution. This approach permits to follow the course of nerve fibre bundles in a major part of the specimen and reveals the detailed three-dimensional arrangement of individual ganglion cells with distinct nuclei by means of X-ray tomography for the first time. The non-destructive neuron cell counting in a selected volume of 125 μm × 800 μm × 600 μm = 0.06 mm3 gives rise to the estimate that 2000 ganglion cells are present along 1 mm organ of Corti.

DOI Link to Publication

URL: https://publications.hereon.de/id/27151/
Authors:Lareida, A., Beckmann, F., Schrott-Fischer, A., Glueckert, R., Freysinger, W., Mueller, B.
Year:2009
In: Journal of Microscopy (Oxford)
Volume:234
Issue:1
Pages:95 - 102
Publisher:Blackwell, Oxford
Type:Journalpaper
ISSN: 0022-2720
Cite as: Lareida, A.; Beckmann, F.; Schrott-Fischer, A.; Glueckert, R.; Freysinger, W.; Mueller, B.: High-resolution X-ray tomography of the human inner ear: synchrotron radiation-based study of nerve fibre bundles, membranes and ganglion cells. In: Journal of Microscopy (Oxford). Vol. 234 (2009) 1, 95 - 102. (DOI: 10.1111/j.1365-2818.2009.03143.x)