Using the characteristics of pulse waveform to enhance the accuracy of blood pressure measurement by a multi-dimension regression model

Shing Hong Liu, Li Jen Liu, Kuo Li Pan, Wenxi Chen, Tan Hsu Tan*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

13 Scopus citations

Abstract

With the advancement of wearable technology, many physiological monitoring instruments are gradually being converted into wearable devices. However, as a consumer product, the blood pressure monitor is still a cuff-type device, which does perform a beat-by-beat continuous blood pressure measurement. Consequently, the cufless blood pressure measurement device was developed and it is based on the pulse transit time (PTT), although its accuracy remains inadequate. According to the cardiac hemodynamic theorem, blood pressure relates to the arterial characteristics and the contours of the pulse wave include some characteristics of the artery. Therefore, the purpose of this study was to use the contour characteristics of the pulses measured by photoplethysmography (PPG) to estimate the blood pressure using a linear multi-dimension regression model. Ten subjects participated in the experiment, and the blood pressure levels of the subjects were elevated by exercise. The results showed that the mean and standard deviation (mean ± SD) of the root mean square error of the estimated systolic and diastolic pressures within the best five parameters were 6.9 ± 2.81 mmHg and 4.0 ± 0.65 mmHg, respectively. Compared to the results that used one parameter, the PTT, for estimating the systolic and diastolic pressures, 8.2 ± 2.1 mmHg and 4.5 ± 0.79 mmHg, respectively, our results were better.

Original languageEnglish
Article number2922
JournalApplied Sciences (Switzerland)
Volume9
Issue number14
DOIs
StatePublished - 01 07 2019

Bibliographical note

Publisher Copyright:
© 2019 by the authors.

Keywords

  • Characteristics of pulse wave
  • Cuffless blood pressure measurement
  • Multi-dimension regression model
  • Photoplethysmography

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