Mechanism of Magnetic Pulse Wave Signal for Blood Pressure Measurement ()
ABSTRACT
Continuous non-invasive blood pressure (BP) measurement can be realized by using pulse transit time (PTT) based on electrocardiogram (ECG) and pulse wave signal. Modulated magnetic signature of blood (MMSB) is a promising approach to obtain PTT. The origin of MMSB is critical to establish the relationship between MMSB and BP. In this paper, two possible origins of MMSB, blood disturbance mechanism and angular variation mechanism, are analyzed and verified through three control experi-ments under different conditions. The influence of blood velocity alteration and blood volume alteration on magnetic field is investigated though blood flow simulation sys-tem. It is found that MMSB comes mainly from the periodic blood flow while the per-turbation caused by angular variation between sensitive axis of the magnetic sensor and geomagnetic field can be neglected. As to blood disturbance mechanism, the change of blood volume plays a decisive role while the effect of blood velocity altera-tion is negligible.
Share and Cite:
Zhang, Y. , Li, Y. , Chen, X. and Deng, N. (2016) Mechanism of Magnetic Pulse Wave Signal for Blood Pressure Measurement.
Journal of Biomedical Science and Engineering,
9, 29-36. doi:
10.4236/jbise.2016.910B004.