Modelling a smart non-invasive adrenaline sensor Online publication date: Thu, 06-Feb-2020
by Noha M.M. AbdElnapi; Nahla F. Omran; Abdelmageid A. Ali; Fatma A. Omara
International Journal of Sensor Networks (IJSNET), Vol. 32, No. 2, 2020
Abstract: Adrenaline hormone may effect on cholesterol and glucose levels in the human body which may cause different diseases such as stroke. On the other hand, numerous biomedical research relies on bioimpedance technique because it possesses a lot of features such as the ability to analyse the blood components to identify different diseases. Therefore, this study aims to measure the adrenaline level non-invasive based on bioimpedance technique using a new proposed sensor to measure the adrenaline, cholesterol and glucose levels. The proposed sensor has been interfaced and simulated by COMSOL MULTIPHYSICS 5.0, and the impedance was measured at different frequencies. Then the adrenaline, cholesterol and glucose values are computed using the equations. Finally, the obtained results from the simulator and the equations show that the proposed sensor would be a better choice for designing a real non-invasive medical Sensor.
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