Microtomography of the human middle and inner ear

Proceedings of SPIE - The International Society for Optical Engineering

Volumn 4503, Issue , 2001, Pages 146-155

  Vogel, Uwe ^a   Beckmann, Felix ^b   Zahnert, Thomas ^c   Bonse, Ulrich ^d  

^a Fraunhofea Institute of Microelectronic Circuits and Systems IMS Dresden   (Germany)

^b DESY   (Germany)

^c UNIVERSITY HOSPITAL CARL GUSTAV CARUS   (Germany)

^d TU DORTMUND UNIVERSITY   (Germany)

Author keywords

3D visualization; Absorption contrast; Geometry model; Inner ear; Microtomography; Middle ear; Synchrotron radiation; Temporal bone; X rays

Indexed keywords

ABSORPTION; IMAGE PROCESSING; MEDICAL IMAGING; OPTICAL RESOLVING POWER; PATHOLOGY; PHYSIOLOGY; SYNCHROTRON RADIATION; X RAYS;

MICROTOMOGRAPHY; OTOLOGY;

TOMOGRAPHY;

EID: 0035764653     PISSN: 0277786X     EISSN: None     Source Type: Journal    
DOI: 10.1117/12.452838     Document Type: Article

References (12)

1. H. Wada, T. Metoki, T. Kobayashi, "Analysis of dynamic behaviour of human middle ear using a finite-element method", J. Acoust. Soc. Am. 92 (6), pp. 3157-3168, 1992.
2. W.R. Funnell, W.F. Decraemer, S.M. Khanna: On the damped frequency response of a finite-element model of the cat eardrum J Acoust Soc Am, 1987, 81, 1851-9.
3. H.-J. Beer, M. Bornitz, H.-J. Hardtke, R. Schmidt, G. Hofmann, U. Vogel, T. Zahnert, and K.-B. Hüttenbrink, "Modelling of components of the human middle ear and simulation of their dynamic behaviour". Audiology & Neuro-Otology 4 (1999) 3-4, pp. 156-162.
4. T. Zahnert, R. Schmidt, U. Vogel, and K.-B. Hüttenbrink, "Experiments and finite element calculations on the acoustic transfer characteristics of gold and titanium middle ear prostheses", Europ. Arch. of ORL 256 (1999), p. 53.
5. U. Vogel, Strukturdatengewinnung und 3D-Visualisierung des menschlichen Hörorgans, Dissertation, Technische Universität Dresden, Fakultät Elektrotechnik, 1999.
6. U. Vogel, and T. Schmitt, "3D-Visualization of Middle Ear Structures", Proc. SPIE 3335 (Medical Imaging '98/San Diego), 1998, pp. 141-151.
7. H. Riesemeier, J. Goebbels, B. Illerhaus, Y. Onel, P. Reimers, "3-D Microcomputertomograph für die Werkstoffentwicklung und Bauteilprüfung", Deutsche Gesellschaft für Zerstörungsfreie Prüfung eV/Jubiläumstagung 60 Jahre DGZfP, 17-19 Mai 1993 Garmisch-Partenkirchen, 1993, 280-285.
8. U. Bonse, F. Busch: X-Ray computed microtomography (μCT) using synchrotron radiation (SR). Prog Biophys Molec Biol, 1996, 65, 133-169.
9. U. Vogel, F. Beckmann, T. Zahnert, and U. Bonse, "SR Absorption Microtomography of Human Ossicles and Cochlea" HASYLAB/DESY Annual Report 1999.
10. U. Vogel, T. Zahnert, G. Hofmann, and K.-B. Hüttenbrink, "3D-Imaging of Internal Temporal Bone Structures for Geometric Modeling of the Human Hearing Organ", Recent Developments in Auditory Mechanics (July 1999, Sendai/Japan), 1999, pp. 44-50.
11. U. Vogel, "New Approach for 3D Imaging and Geometry Modeling of the Human Inner Ear", ORL 61 (1999) 5, pp. 259-267.
12. U. Bonse, F. Beckmann, F. Busch, O. Günnewig: X-ray microtomography using interferometric phase-contrast. In: X-Ray Microscopy and Spectromicroscopy (Eds.: Thieme J., Schmahl E., Umbach E., Rudolph D.), Springer, Heidelberg, 1996.