Document Type
Conference Item
Publication Date
1-1-2008
Abstract
The analysis of the behavior of the micro-diaphragm biosensor for human artery pulse wave detection has been presented in this paper. This includes the study of the effect of the diaphragm structural parameters on the static and dynamic performances such as sensitivity and natural frequency. It can be concluded that the modeled micro-diaphragm with a radius of 175pm and thickness of 4pm respectively has satisfied the maximum allowable deflection and operates in optimum frequency response. ©2008 IEEE.
Keywords
Human artery, Maximum allowable deflection, Pulse wave, Static and dynamic performance, Structural parameter, Biosensors, Diaphragms, Signal detection, Frequency response
Divisions
fac_eng
Event Title
2008 IEEE International Conference on Semiconductor Electronics, ICSE 2008
Event Location
Johor Bahru, Johor
Event Dates
2008
Event Type
conference
Additional Information
Conference code: 76092 Export Date: 29 January 2014 Source: Scopus Art. No.: 4770301 doi: 10.1109/SMELEC.2008.4770301 Language of Original Document: English Correspondence Address: Hasikin, K.; Department of Biomedical Engineering, Faculty of Engineering, University of MalayaMalaysia; email: eishahasikin@gmail.com References: Wilkinson, I.B., Hall, I.R., MacCallum, H., Mackenzie, I.S., McEniery, C.M., Van, D.A.B.J., Shu, Y.-E., Cockcroft, J.R., Pulse-wave analysis: Clinical evaluation of a noninvasive, widely applicable method for assessing endothelial function (2002) Arteriosclerosis, Thrombosis, and Vascular Biology, 22 (1), pp. 147-152. , DOI 10.1161/hq0102.101770; Latifoglu, F., Sahan, S., Kara, S., Gunes, S., Diagnosis of atherosclerosis from carotid artery Doppler signal as a real world medical application of artificial immune systems (2007) Expert Systems with Applications, 33, pp. 786-793.; Pouladian, M., Golpayegani, M.R.H., Noninvasive detection of a atherosclerosis by Arterio-Oscillo-Gram (2003) Proceedings of the 25 th Annual International Conference of the IEEE EMBS, pp. 17-21. , September; Otto, C.M., Lind, B.K., Kitzman, D.W., Gersh, B.J., Phil, D., Siscovick, D.S., Association of aorticvalve sclerosis with cardiovascular mortality and morbidity in the elderly (1999) The New England Journal, , July 5, 1999; Andreoli, T.E., Bennett, J.C., Carpenter, C.J., Plum, F., (2001) Cecil Essentials of Medicine, 50 th Edition, pp. 155-1151. , Philadelphia, Pennsylvania: Saunders; Chatzandroulis, S., Goustouridis, D., Normand, P., Tsoukalas, D., A solid-state pressure-sensing microsystem for biomedical applications (1997) Sensor and Actuators, A, 62, pp. 551-555.; Druzhinin, A., Lavitska, E., Maryamova, I., Medical pressure sensors on the basis of silicon microcrystals and SOI layers (1999) Sensors and Actuators, B: Chemical, 58 (1-3), pp. 415-419. , DOI 10.1016/S0925-4005(99)00121-5; Tohyama, O., Kohashi, M., Sugihara, M., Itoh, H., A fiber-optic pressure microsensor for biomedical applications (1998) Sensors and Actuators. A, 66, pp. 150-154.; Katsumata, T., Haga, Y., Minami, K., Esashi, M., Micromachined 125μm diameter ultra miniature fiber-optic pressure sensor for catheter (2000) Trans. Inst. Electrical Eng. Jpn. Part e 120E, pp. 58-63.; Niewczas, P., Dziuda, L., Fusiek, G., Willshire, A.J., McDonald, J.R., Thursby, G., Harvey, D., Michie, W.C., Interrogation of Extrinsic Fabry-Pérot Interferometric Sensors Using Arrayed Waveguide Grating Devices IEEE Transaction on Instrumentation and Measurements, 52 (4), pp. 1092-1096; Xiao-Qi, N., Ming, W., Xu-Xing, C., Yi-Xian, G., Hua, R., An optical fiber MEMS pressure sensor using dual-wavelength interrogation (2006) Measurement Science and Technology, 17, pp. 2401-2404; Singh, M., Li, J.K.-J., Sigel Jr., G.H., Amory, D., Fiber optic pulse sensor for noninvasive cardiovascular applications (1990) IEEE Spectrum, pp. 103-104; Hill, G.C., Melamud, R., Declercq, F.E., Davenport, A.A., Chan, I.H., Hartwell, P.GJHCorreia, Bartek, M., Wolffenbuttel, R.F., Load-deflection of a low stress SiNMembrane/Si frame composite diaphragm (1998) Technical Proceedings of the 1998 International Conference on Modeling and Simulation of Microsystem; Wang, X., Li, B., Russo, O.L., Roman, H.T., Chin, K.K., Farmer, K.R., Diaphragm design guidelines and an optical pressure sensor based on MEMS technique (2006) Microelectronic Journal, 37, pp. 50-56.; Giovanni, M.D., (1982) Flat and Corrugated Diaphragm Design Handbook, , Marcel Dekker, Inc; Le, H.P., Shah, K., Singh, J., Zayegh, A., Design and Implementation of an optimised wireless pressure sensor for biomedical application (2006) Analog Interg Circ. Sig. Process, 48, pp. 21-31; Madssen, P., Haere, R., Wiseth, Radial artery diameter and vasodilatory properties after transradial coronary angiography (2006) .Ann Thorac Surg, 82, pp. 1698-1703.; Yamashita, K., Nishimoto, H., Okuyama, M., Diaphragm deflection control of piezoelectric ultrasonic microsensors for sensitivity improvement (2007) Sensors and Actuators, A: Physical, 139 (1-2 SPEC. ISSUE), pp. 118-123. , DOI 10.1016/j.sna.2007.04.048, PII S0924424707003275; Hasikin, K., Ibrahim, F., Soin, N., Determination of design parameters for human artery pulse wave detection (2008) 4 th International Conference on Biomedical Engineering, IFMBE, , Springer