Authors: Batel Noureddine, Mehenni Mohamed, Kouadik Smain

Abstract:

In a transcutanious inductive coupling of a biomedical implant, a new formula is given for the study of the Radio Frequency power attenuation by the biological tissue. The loss of the signal power is related to its interaction with the biological tissue and the composition of this one. A confrontation with the practical measurements done with a synthetic muscle into a Faraday cage, allowed a checking of the obtained theoretical results. The supply/data transfer systems used in the case of biomedical implants, can be well dimensioned by taking in account this type of power attenuation.

Keywords: Biological tissue, coupled coils, implanted device, power attenuation.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1080568

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2283

References:

[1] N. Batel, M. Mehenni, and L. Dekar, "Attenuation in transferred RF power to a biomedical implant due to the misalignment coilsÔÇòAccepted for publication", Transactions on Enformatika Systems Sciences and Engineering, to be published.
[2] M. Mehenni, "Optimization of the elements of a telemetering chain", Thesis of Doctorate, National School Polytechnic of Algiers, 1992.
[3] M. A. Stuchly, and S. S. Stuchly, "Dielectric properties of biological substancesÔÇò tabulated", Newspaper of Microwave Power, 1980, vol. 15, no. 1, pp. 19-26.
[4] H. P. Schwan, "Electrical and acoustic properties of biological materials and biomedical applications ", IEEE Trans Biomedical Eng. 1984, vol. 31, no. 12, pp. 872-878.
[5] H. P. Schwan, and K. R. Foster, "RF-field interactions with biological systems: electrical properties and biophysical mechanisms ", Proceedings of the IEEE, 1980, vol. 68, no. 1, pp. 104-113.
[6] H. E. Bussey, "Measurement of RF properties of materials a survey ", Proceedings of the IEEE, 1967, vol. 55, no. 6, pp. 1046-1053.
[7] S. A. Nasar, C. R. Paul, and K. W. Whites, "Introduction to electromagnetic fields ", Mac Graw-Hill, 1997.
[8] D. C. Jeutter, and F. Josse, "Design of a radio-linked plantable cochlear prosthesis using surface acoustic wave devices", IEEE Trans. Ultrasonics and Frequency Control, 1993, vol. 40, no. 5, pp. 469-77.
[9] A. W. Guy, "Analyses of electromagnetic fields induced in biological tissues by thermographic studies one are equivalent phantom models", IEEE Trans. Microwave Theory and Techniques, 1971, vol. 19, no. 2, pp. 205-214.
[10] G. M. Clark, "The university of Melbourne-Nucleus multielectrode cochlear implant", ED. Karger, 1987.
[11] M. Mehenni, M. Abignoli, E. Yvroud, and C. archal, "Feeding by external electromagnetic field for telemetering: design of an experimental bank ", ED. RBM (France), 1992, vol.14, no. 2.