PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Ultrasonic transducer for the reception of acoustic emission signals of the temporomandibular joint

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Auscultation and analysis of acoustic signals emitted by the human body are widely used in medical diagnosing. Acoustic signals are also emitted by joints, including the temporomandibular joint, which is the subject of this paper. A system was developed to receive, record, process and display the signals emitted by this particular joint. The article presents an essential fragment of the system, namely a special ultrasonic transducer designed to receive acoustic signals emitted by the temporomandibular joint. At first, the particular requirements were established in the area of the parameters and functions of the transducer. Following that, a technological solution was proposed. Next, a model of the transducer was analysed using the difference equation method with continuous time. The solution of these equations is the pulse response of the transducer and in the frequency domain, it is the shift function. These functions were used for an in-depth analysis of the effects of the transducer's construction on its parameters and values. Based on these findings, a methodology of the design of the transducer was developed. The transducer was designed and built according to the methodology. It was subsequently studied in detail. The results of the study have confirmed that the method of the analysis and the design were correct. Finally, the article presents some examples of real signals of acoustic emission of the temporomandibular joint as they were received by the ultrasonic transducer built in the course of the work.
Słowa kluczowe
Rocznik
Strony
331--364
Opis fizyczny
Bibliogr. 22 poz., rys., wykr.
Twórcy
autor
autor
  • Department of Acoustics, Technical University of Gdańsk, 80-052 Gdańsk, ul. G. Narutowicza 11/12, Poland, wall@eti.pg.gda.pl
Bibliografia
  • [1] R. Badwal, The application of fractal dimension to emporomandibular joint sounds, Comput. Biol. Med., 23, 1, 1-14 (1993).
  • [2] L.V. Christensen, Physics and the sounds produced by the temporomandibular joints, Journal of Oral Rehabilitation, 19, P art I. 471-483, Pa rt II. 615-627 (1992).
  • [3] R. Dove, R. Fright, B. Price, K. Scally and R. Tremewan, Tracking jaw m ovement, Medical & Biological Engineeering & Computing, September 32, 584-588 (1994).
  • [4] R. Drum and M. Litt, Spectral analysis of temporomandibular joint sounds, The Journal of Prosthetic Dentistry, 58, 4, 485-494 (1987).
  • [5] L. Filipczyński, Transients and the equivalent electrical circuit of piezoelectric transducer, Acustica, 10, 149-154 (1960). [6] T. Gay and C.N. Bertolami, The spectral properties of temporomandibular sounds, J. Dent., Res., 66, 6, 1189-1194 (1987).
  • [7] L. Heffez and D. Blaustein, Advances in sonography of the temporomandibular join t, Oral Surg. Oral Med. Oral Pathol., 62, 486-495 (1986).
  • [8] H.W. Katz, Solid state magnetic and dielectric devices, John Wiley & Sons, Inc., New York 1959, 120.
  • [9] J. Kraszewski and Z. Kraszewska, Phonoarthographic diagnostics of temporomandibular joint [in Polish], Czas. Stomat., 28, 3, 279-285 (1975).
  • [10] J. Kraszewski and Z. Kraszewska, Phonoarthographic diagnostic in certain temporomandibular joint dysfunction [in Polish], Czas. Stom at., 28, 4, 387-396 (1975).
  • [11] W. Lis, J. ZIENKIEWICZ and R. Salamon, Parameters of acoustic signal emitted by the temporomandibular joint [in Polish], Proceedings XLIII OSA, Gliwice - Ustroń, 457-462 (1996).
  • [12] W. Lis and J. Zienkiewicz, The wavelet transform analysis of the temporomandibular joint acoustic emission [in Polish], Proceedings XLIV OSA, Gdańsk - Jastrzębia Góra, 423-428 (1997).
  • [13] G. Lypacewicz and E. Duriasz, Compensating circuit of ultrasonic probe [in Polish], Proceedings X Symposium on Hydroacoustics, Ju rata May, 139-144 (1993).
  • [14] G. Lypacewicz, Design of ultrasonic probes for medical diagnostics [in Polish], Proceedings IX Symposium on Hydroacoustics, Gdynia - Jurata, 11-30 (1992).
  • [15] A. Markiewicz and G. Lypacewicz, Application of matching layers of ultrasonic probes to biological structures [in Polish], Prace OSA XXI, Rzeszów, 139-141 (1974).
  • [16] C. Oster, R.W. Katzberg, R.H. Tallents, T.W. Morris, J. Bartholomew, T.L. Miller and K. Hayakawa, Characterization of temporomondibular joint sounds, Oral Surg., 58 ,10-16 (1984).
  • [17] R. Salamon, Wellenmodell des Beschleunigunsmessers, Fortschritte der Akustik Duisburg DAGA, 275-278 (1989).
  • [18] R. Salamon and F. Chinchurreta, Signalmodell des piezoelektrischen Schwingers, Acustica, 66, 247-257 (1988).
  • [19] R. Salamon and F. Chinchurreta, Analyse piezoelektrischer Breitbandschwinger mit Differen-zengleichung, Acustica, 67, 19-29 (1988).
  • [20] D.M. Watt, Clinical applications of gnathosonics, Prosthetic Departm ent, School of Dental Surgery, University of Edinburgh, Scotland, I-II, 16, 83-95 (1966).
  • [21] R.M. Wilk and S.E. Harms, Temporomandibular joint: Multislab, threee-dimensional Fourier transformation MR imaging, Radiology, 167, 3, 861-863 (1988).
  • [22] I. Yavelow and G.S. Arnold, Temporomondibular joint clicking, Oral Surg., 32, 708-714 (1971).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT3-0007-0088
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.