Parametrical modeling of human hip joint bone system

• Autorzy: Domański J. , Dąbrowska-Tkaczyk A. , Skalski K.
• Konferencja: Biomechanika'06 / Międzynarodowa Konferencja (06-08.09.2006 ; Zakopane, Polska)
• Języki publikacji: EN

Abstrakty

EN

Parametric (geometrical and numerical) models creation for the bone systems require recognition precisely of their anatomical features (bones and joints), especially those which have influence on accuracy of reconstruction geometry of bone and properties of endoprosthesis. Those features must be unique and easy to defined basing on CT or MRI data. Parametrical models take into consideration adequate scope of variation of shape and dimensions of bones and endoprostheses, assuming relatively small number of parameters. The shape and dimensions of models are dependent on defined parameters, hence changes of that parameters cause model adaptation procedure and creation corresponding type of model. The parametrical model of human hip joint bones is presented in this paper. Parametrical model of pelvic bone was generated on the basis of selected characteristic anatomical points and dimensions between them, but for femur parametrical model creation were applied characteristics dimensions and angles.

Słowa kluczowe

EN

bone; hip; endoprosthese; anatomy

PL

endoproteza; anatomia; biodro; kość

• Wydawca: Wydawnictwo Katedry Mechaniki Stosowanej
• Czasopismo: Zeszyty Naukowe Katedry Mechaniki Stosowanej / Politechnika Śląska
• Rocznik: 2006
• Tom: z. 26
• Strony: 81--86
• Opis fizyczny: Bibliogr. 15 poz.

Twórcy

autor

Domański J.

autor

Dąbrowska-Tkaczyk A.

autor

Skalski K.

• Institute of Mechanics and Design, Warsaw University of Technology

Bibliografia

• [1] Bochenek, M. Reicher. Anatomia człowieka. t.I, Wyd. Lekarskie, PZWL, (1997).
• [2] Dai K. R., An K. N., Hein T. J., Nakajima L, Chao E. Y.: Geometrie and biomechanical analysis of the human femur. Orthop. Trans. 10,1988, pp. 256.
• [3] Domański I, Skalski K.: Metoda detekcji krawędzi tkanek kostnych w obrazach tomograficznych i ich rekonstrukcji dla potrzeb inżynierii ortopedycznej. Przegląd Lekarski 2004/61, Wydanie Specjalne - Inżynieria Medyczna, pp. 36-39.
• [4] Husmann O., Rubin P. J., Leyvraz P. F., Roguin B., Argenson J. N., Three dimensional Morphology of the Proximal Femur., J. Arthroplasty, Vol. 12, 1997, pp. 444-450.
• [5] Internet data: www.hip98.de.
• [6] Krogman W. M.: The human skeleton in forensic medicine, 1986, pp. 201-231.
• [7] Malinowski A.. Bożiłow W.: Podstawy antropometrii. Metody, techniki, normy. Wydawnictwo Naukowe PWN, Warszawa-Łódź, 1997.
• [8] Massin P., Geais L., Astoin E., Simondi M., Lavaste F.: The anatomie basis for the concept of lateralized femoral stems. A frontal plane radiographic study of proximal femur. J. Arthroplasty 15, 2000, pp. 93-101.
• [9] Morecki A.. Ekiel J., Fidelus K. Bionika ruchu, PWN, Warszawa, 1971.
• [10] Mulier M.: A system for intra-operative manufacturing of stems of total hip replacements. In: Computer Technology in Biomaterials Science and Engineering. Edited by IS. Sloten, John Wiley & Sons, Ltd. 2000, pp. 262-299.
• [11] Noble P. C, Alexander J. W., Lindahl L. J., Yew D. T., Granberry W. M., Tullos H. S.: The Anatomic Basis of Femoral Component Design, Clin. Orthop. and Related Research, no. 235,1938, pp. 148-164.
• [12] Reynolds R, Snow C, Young J.: Spatial geometry of the human pelvis, FAA Civil Aeremedical Institute. Oklahoma City. ;
• [13] Robertson D. D., Essinger J. R., Imura S., Kuroki Y., Sakamaki T., Shimizu T., Tanaka S Femoral deformity in adults with development hip dysplasia, Clin. Orthop 327: 1996 pp. 19b-206.
• [14] Rubin P.J., Leyvraz P. F., Aubaniac J. M., Argenson J. N., Esteve P., de Roguin B The morphology of the proximal femur, 1 Bone Joint Surg 74-B, 1992, pp. 28-32.
• [15] Sawbones catalogue, internet, www.sawbones.se.