Continuous Blood Pressure Monitoring from an Autonomic Nervous System Perspective
Journal
Progress in Biomedical Optics and Imaging - Proceedings of SPIE
Journal Volume
12375
ISBN
9781510658554
Date Issued
2023-01-01
Author(s)
Chiang, Ting Yu
Tai, Shih Lun
Liu, Yu Ting
Huang, Jiun Woei
Lee, Shu Sheng
Lee, Hsiang Chieh
Abstract
We propose a novel continuous blood pressure monitoring system which is based on an autonomic nervous system and which considers blood volume simultaneously since both affect blood pressure. An autonomic nervous system regulates blood pressure while blood volume is known to be proportional to the photoplethysmography (PPG) signal. To overcome the limitation of taking blood pressure using a conventional cuff inflating instrument, we designed a system which can achieve continuous blood pressure monitoring. In this research, we used a set of near-infrared light source (940nm) to create a divergent light which was collimated as a uniform beam incident to a wrist surface through a Fourier optics designed transfer lens. We found that the signals became more stable due to the uniform illumination and could be received by a detector. From the signals, we found that the blood volume when converted from blood velocity as measured by an ultrasound probe, showed a strong correlation with the signals. The heart rate variability analyzed from the signals, including time-domain (HR and SDNN) and frequency-domain (LF and HF) indices, could be viewed as physical models since these indices reflect the functions of an autonomic nervous system. Moreover, the research derived regression models can estimate blood pressure. Although it is not common to assess blood pressure from the perspective of an autonomic nervous system and blood flow simultaneously, our research approach seems logical. Our results show the potential for this novel system to be used for blood pressure health monitoring.
Subjects
autonomic nervous system | blood pressure | health monitoring | photoplethysmography
Type
conference paper