An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring

An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring

Continuous blood pressure (BP) monitoring has a significant meaning for the prevention and early diagnosis of cardiovascular disease. However, under different calibration methods, it is difficult to determine which model is better for estimating BP. This study was firstly designed to reveal a better...

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Main Authors: Jiang Shao, Ping Shi, Sijung Hu, Yang Liu, Hongliu Yu
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Journal of Healthcare Engineering
Online Access:http://dx.doi.org/10.1155/2020/1078251
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spelling doaj-6170da591b0c46bebc7164caf5aafdc62020-11-25T00:35:11ZengHindawi LimitedJournal of Healthcare Engineering2040-22952040-23092020-01-01202010.1155/2020/10782511078251An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous MonitoringJiang Shao0Ping Shi1Sijung Hu2Yang Liu3Hongliu Yu4Institute of Rehabilitation Engineering and Technology, University of Shanghai for Science and Technology, Shanghai 200093, ChinaInstitute of Rehabilitation Engineering and Technology, University of Shanghai for Science and Technology, Shanghai 200093, ChinaWolfson School of Mechanical, Electrical and Manufacturing Engineering, Loughborough University, Ashby Road, Loughborough, Leicestershire LE11 3TU, UKDepartment of Cardiovascular Surgery, Changhai Hospital, Second Military Medical University, Shanghai 200433, ChinaInstitute of Rehabilitation Engineering and Technology, University of Shanghai for Science and Technology, Shanghai 200093, ChinaContinuous blood pressure (BP) monitoring has a significant meaning for the prevention and early diagnosis of cardiovascular disease. However, under different calibration methods, it is difficult to determine which model is better for estimating BP. This study was firstly designed to reveal a better BP estimation model by evaluating and optimizing different BP models under a justified and uniform criterion, i.e., the advanced point-to-point pairing method (PTP). Here, the physical trial in this study caused the BP increase largely. In addition, the PPG and ECG signals were collected while the cuff bps were measured for each subject. The validation was conducted on four popular vascular elasticity (VE) models (MK-EE, L-MK, MK-BH, and dMK-BH) and one representative elastic tube (ET) model, i.e., M-M. The results revealed that the VE models except for L-MK outperformed the ET model. The linear L-MK as a VE model had the largest estimated error, and the nonlinear M-M model had a weaker correlation between the estimated BP and the cuff BP than MK-EE, MK-BH, and dMK-BH models. Further, in contrast to L-MK, the dMK-BH model had the strongest correlation and the smallest difference between the estimated BP and the cuff BP including systolic blood pressure (SBP) and diastolic blood pressure (DBP) than others. In this study, the simple MK-EE model showed the best similarity to the dMK-BH model. There were no significant changes between MK-EE and dMK-BH models. These findings indicated that the nonlinear MK-EE model with low estimated error and simple mathematical expression was a good choice for application in wearable sensor devices for cuff-less BP monitoring compared to others.http://dx.doi.org/10.1155/2020/1078251
collection DOAJ
language English
format Article
sources DOAJ
author Jiang Shao
Ping Shi
Sijung Hu
Yang Liu
Hongliu Yu
spellingShingle Jiang Shao
Ping Shi
Sijung Hu
Yang Liu
Hongliu Yu
An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring
Journal of Healthcare Engineering
author_facet Jiang Shao
Ping Shi
Sijung Hu
Yang Liu
Hongliu Yu
author_sort Jiang Shao
title An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring
title_short An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring
title_full An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring
title_fullStr An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring
title_full_unstemmed An Optimization Study of Estimating Blood Pressure Models Based on Pulse Arrival Time for Continuous Monitoring
title_sort optimization study of estimating blood pressure models based on pulse arrival time for continuous monitoring
publisher Hindawi Limited
series Journal of Healthcare Engineering
issn 2040-2295
2040-2309
publishDate 2020-01-01
description Continuous blood pressure (BP) monitoring has a significant meaning for the prevention and early diagnosis of cardiovascular disease. However, under different calibration methods, it is difficult to determine which model is better for estimating BP. This study was firstly designed to reveal a better BP estimation model by evaluating and optimizing different BP models under a justified and uniform criterion, i.e., the advanced point-to-point pairing method (PTP). Here, the physical trial in this study caused the BP increase largely. In addition, the PPG and ECG signals were collected while the cuff bps were measured for each subject. The validation was conducted on four popular vascular elasticity (VE) models (MK-EE, L-MK, MK-BH, and dMK-BH) and one representative elastic tube (ET) model, i.e., M-M. The results revealed that the VE models except for L-MK outperformed the ET model. The linear L-MK as a VE model had the largest estimated error, and the nonlinear M-M model had a weaker correlation between the estimated BP and the cuff BP than MK-EE, MK-BH, and dMK-BH models. Further, in contrast to L-MK, the dMK-BH model had the strongest correlation and the smallest difference between the estimated BP and the cuff BP including systolic blood pressure (SBP) and diastolic blood pressure (DBP) than others. In this study, the simple MK-EE model showed the best similarity to the dMK-BH model. There were no significant changes between MK-EE and dMK-BH models. These findings indicated that the nonlinear MK-EE model with low estimated error and simple mathematical expression was a good choice for application in wearable sensor devices for cuff-less BP monitoring compared to others.
url http://dx.doi.org/10.1155/2020/1078251
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