Acoustic emission diagnosis for human joint cartilage diseases

• Autorzy: Wierzcholski K.

Identyfikatory

DOI

10.5277/ABB-00256-2014-03

• Języki publikacji: EN

Abstrakty

EN

Purpose: The topic of the presented paper concerns the diagnosis of the wear and diseases of human joint cartilage performed by the acoustic waves emission. The aim of this paper is the determining of the necessary parameters for the diagnosis about the wear and diseases of human joint cartilage. Material And Method: To the research methods used in this paper belong the evaluation of measurement results of the cartilage surface samples obtained by means of laser and mechanical sensor and acoustic emission wave might or voltage gained from the AE apparatus during the treatments performed for normal and pathological used and not used human knee and hip joints. Results: The results concern with the corollaries which are implied from reading values gained by virtue of the acoustic emission Apparatus, and from observations from cartilage surface pictures obtained from laser and mechanical sensors. The diagnose of concrete cartilage illness depends on the proper relative values of obtained strongest of generated AE wave as well as the shapes and amplitudes of acoustic waves and wave frequencies. Conclusions: The main conclusions obtained in this paper are as follows: connections between synovial fluid dynamic viscosity or friction forces and intensity of acoustic emission values, the determination of the type of lesions and deformations of the human joint cartilage surface by means of the shapes architecture of the acoustic emission waves. Moreover are indicated the necessary conditions for the diagnosis of the such dieses as: pathological cartilage with arthritic or osteoporosis or rheumatology changes.

Słowa kluczowe

EN

acoustic emission diagnosis; AE devices; viscosity surface; identification; cartilage surfaces

PL

AE; emisja akustyczna; diagnozowanie; lepkość; identyfikacja

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2015
• Tom: Vol. 17, no. 4
• Strony: 139--148
• Opis fizyczny: bibliogr. 16 poz., rys., tab., wykr.

Twórcy

autor

Wierzcholski K.

• Koszalin University of Technology, Institute of Technology and Education, Koszalin, Poland

Bibliografia

• [1] ADEY W.R., Cells and molecular biology associated with radiation fields of mobile telephones, Review of Radio Science 1966–1999, W.R. Stone (ed.), Oxford University Press, Oxford 1999, 849–850.
• [2] CHIZHIK S., WIERZCHOLSKI K., TRUSHKO A., ZBYTKOWA M., MISZCZAK A., Properties of cartilage on macro and nanolevel, Advances in Tribology, 2010, Hindawi Publishing Corporation, New York http://www.hindawi.com/journals/ at/2010/ 243150/.
• [3] EISENBLÄTTER J., Acoustic Emission, DFG Metallkunde Informationsgesellschaft, GmbH, Darmstadt, 1998.
• [4] FINK F., MANTHEI G., Gedanken zur Nahfeldeffekten bei der Signal-basierten Schallemissionsanalyse, Otto-Graf-Journal der Universität Stuttgart, 2004, Vol. 15, 121–134.
• [5] GADOMSKI A., BEŁDOWSKI P., RUBI MIGUEL P., URBANIAK W., AUGE WAYNE K., SANTAMARIA-HOLEK I., PAWLAK Z., Some conceptual thoughts toward nanoscale oriented friction in a model of articular cartilage, Math. Biosci., 2013, Vol. 244, 188–200.
• [6] KAZMIERCZAK B., LIPNIACKI T., Regulation of kinas activity by diffusion and feedback, J. Theor. Biol., 2009, Vol. 259, 291–296.
• [7] MANTHEI G., Implementation of Acoustic Emission Method: Fundamentals and Applications for Biobearings, Transfer of Knowledge Development, MTKD –CT-2004-517226, 2006.
• [8] PAWLAK Z., URBANIAK W., HANGER DERENGOWSKA M., HANGER W., The Probable Explanation for the Low Friction of Natural Joints, Cell, Biochemistry & Biophysics, 2014, 13, 3–9, DOI: 10.1007/s12013-014-0384-8.
• [9] SCHWALBE H.J., BAMFASTE G., FRANKE R.P., Non destructive and non-invasive observation of friction and wear of human joint and of fracture initiation by acoustic emission, Proc. Inst. Mech. Eng., 1999, Vol. 213, Part H, 41–48.
• [10] WIERZCHOLSKI K., MANTHEI G., Application of acoustic emission method for measurement of joint gap and cartilage surfaces, Mechanics in Medicine, Proceedings of Scientific Seminar, Rzeszów 2006, Vol. 8, 243–246.
• [11] WIERZCHOLSKI K., Bone Dias for Diagnosis of Joint Cartilage Surfaces by Acoustic Emission, Mechanics in Medicine, Rzeszów, 2012, Vol. 11, 223–227.
• [12] WIERZCHOLSKI K., Bio and slide bearings: their lubrication by non-Newtonian fluids and application in non conventional systems, Vol. II: The theory of human joint unsteady lubrication. Monograph, (pp.1-172), Published by Gdansk University of Technology, ISBN 83-923367-0-4, Gdańsk 2006.
• [13] ZIEGLER B., WIERZCHOLSKI K., MISZCZAK A., A new measurements method of friction forces regarding slide journal bearing by using acoustic emission, Zaawansowana Tribologia, XXX Ogólnopolska Konf. Tribologiczna, Nałęczów, 2009, 174–181.
• [14] ZIEGLER B., WIERZCHOLSKI K., MISZCZAK A., A new method of measuring the operating parameters of slide journal bearings by using acoustic emission, Tribologia, 2009, Vol. 6(228), 165–174.
• [15] ZIEGLER B., WIERZCHOLSKI K., MISZCZAK A., A new measurements method of friction forces regarding slide journal bearing by using acoustic emission, Research Continuation. Tribologia, 2010, Vol. 1(229), 149–156.
• [16] ZIOUPOS P., CURREY D.J., SEDMAN A.J., An examination of the micromechanics of failure of bone and antler by acoustic emission tests and Laser Scanning Confocal Microscopy, Medical Engineering & Physics, 1994, Vol. 16(3), 203–212.