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Computer simulation of human tympanic membrane

Published online by Cambridge University Press:  29 June 2007

Avinash Bhide
Avinash Bhide*
Affiliation:
Pune, India
*
Dr. Avinash Bhide, ‘Ashwini’, Vijayanagar, 2108, Sadashiv Peth, Sane Guruji Road, Pune 411030, India Fax: 212-44 4253
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Abstract

Because of the difficulties in studying the mechanical properties of the human tympanic membrane in situ, structural data from the cadaveric tympanic membrane samples is used for simulation of the surface structure of the tympanic membrane with the help of a computer. The hitherto poorly understood contour of the tympanic membrane is available for the development of a tympanic membrane and middle ear model.

Keywords

Tympanic membraneComputer simulation
Type
Main Articles
Information
The Journal of Laryngology & Otology , Volume 106 , Issue 10 , October 1992 , pp. 878 - 881
Copyright
Copyright © JLO (1984) Limited 1992

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References

Békésy, G.von Rosenblith, W. A. (1951) The mechanical properties of the ear. In: Handbook of experimental psychology. Chapter 27, New York.Google Scholar
Bhide, A. (1977) Etiology of the retraction pocket in the posterosuperior quadrant of the eardrum. Archives of Otolaryngology, 103: 707711.CrossRefGoogle ScholarPubMed
Chalat, N. I. (1980) The structure of the tympanic membrane: a new concept or some thoughts on structure of the tympanic membrane and its presentation as a dynamic organ. American Journal of Otology, 2(2): 112117.Google ScholarPubMed
Dirckx, J. J. J., Decraener, W. F., Dielis, G. (1988) Phase shift method based on object translation for full field automatic 3-D surface reconstruction from moir topograms. Applied Optics, 27(6): 1164–69.CrossRefGoogle Scholar
Funnell, W. R., Laszlo, C. A. (1982) A critical review of experimental observations on ear drum structure and function. ORL Journal of Otorhinolaryngology and its Related Specifics, 44(4): 181205.Google ScholarPubMed
Helmholtz, H. (1868) Die Mechanik der Gehoerknochelchen und des Trommelfells. Pflueger Archiv 1: 160. (Translated as: The mechanism of the ossicles of the ear and membrane tympani. William Wood and Co., New York, 1873).Google Scholar
Hopwood, D. (1973) Theoretical and practical aspects of Glutanaldehyde fixation. In Fixation Histochemistry (Storwood, P. S., ed). Chapmand and Hall: London, p. 4783.CrossRefGoogle Scholar
Kirikae, I. (1960) The structure and function of the middle ear. Tokyo, University of Tokyo Press.Google Scholar
Konradsson, K. S., Ivarsson, A., Bank, G. (1987) Computerizedlaser doppler interferometric scanning of the vibrating tympanic membrane. Scandinavian Audiology, 16: 159166.CrossRefGoogle ScholarPubMed
Tondorf, J., Khanna, S. M. (1970) The role of the tympanic membrane in middle ear transmission. Annals of Otology, Rhinology, and laryngology, 79: 743753.CrossRefGoogle Scholar