Morphology variability analysis of wrist pulse waveform for assessment of arteriosclerosis status

Lisheng Xu; Max Q.H. Meng; Xianghua Qi; Kuanquan Wang

doi:10.1007/s10916-008-9245-6

Morphology variability analysis of wrist pulse waveform for assessment of arteriosclerosis status

Lisheng Xu^*
, Max Q.H. Meng
, Xianghua Qi
, Kuanquan Wang

^*Corresponding author for this work

Faculty of Computing

Shandong University
Chinese University of Hong Kong
University of Traditional Chinese Medicine

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

In this paper, approximate entropy (ApEn) is applied to study the variability of pulse waveform for assessing coronary arteriosclerosis status. Having analyzed the wrist pulse waveforms taken from both normal subjects and the patients suffering from coronary arteriosclerosis (CA) disorders, we find that pulse morphology variability (PMV) is more efficient than pulse interval variability (PIV) in assessing the conditions of human coronary artery. Usually, the PMVs of the healthy are higher than those of the patients with CA diseases, and the PMVs of patients with CA diseases have more high frequency components than those of the healthy subjects. That is to say, the CA disease also has influence on vascular tone. The effect of changes in cardiac performance due to CA disease can be reflected through the PMV. The experiment demonstrates.

Original language	English
Pages (from-to)	331-339
Number of pages	9
Journal	Journal of Medical Systems
Volume	34
Issue number	3
DOIs	https://doi.org/10.1007/s10916-008-9245-6
State	Published - Jun 2010

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Approximate entropy
Cardiovascular system
Pulse interval variability
Pulse morphology variability
Pulse waveform

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10.1007/s10916-008-9245-6

Cite this

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title = "Morphology variability analysis of wrist pulse waveform for assessment of arteriosclerosis status",

abstract = "In this paper, approximate entropy (ApEn) is applied to study the variability of pulse waveform for assessing coronary arteriosclerosis status. Having analyzed the wrist pulse waveforms taken from both normal subjects and the patients suffering from coronary arteriosclerosis (CA) disorders, we find that pulse morphology variability (PMV) is more efficient than pulse interval variability (PIV) in assessing the conditions of human coronary artery. Usually, the PMVs of the healthy are higher than those of the patients with CA diseases, and the PMVs of patients with CA diseases have more high frequency components than those of the healthy subjects. That is to say, the CA disease also has influence on vascular tone. The effect of changes in cardiac performance due to CA disease can be reflected through the PMV. The experiment demonstrates.",

keywords = "Approximate entropy, Cardiovascular system, Pulse interval variability, Pulse morphology variability, Pulse waveform",

author = "Lisheng Xu and Meng, \{Max Q.H.\} and Xianghua Qi and Kuanquan Wang",

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T1 - Morphology variability analysis of wrist pulse waveform for assessment of arteriosclerosis status

AU - Xu, Lisheng

AU - Meng, Max Q.H.

AU - Qi, Xianghua

AU - Wang, Kuanquan

PY - 2010/6

Y1 - 2010/6

N2 - In this paper, approximate entropy (ApEn) is applied to study the variability of pulse waveform for assessing coronary arteriosclerosis status. Having analyzed the wrist pulse waveforms taken from both normal subjects and the patients suffering from coronary arteriosclerosis (CA) disorders, we find that pulse morphology variability (PMV) is more efficient than pulse interval variability (PIV) in assessing the conditions of human coronary artery. Usually, the PMVs of the healthy are higher than those of the patients with CA diseases, and the PMVs of patients with CA diseases have more high frequency components than those of the healthy subjects. That is to say, the CA disease also has influence on vascular tone. The effect of changes in cardiac performance due to CA disease can be reflected through the PMV. The experiment demonstrates.

AB - In this paper, approximate entropy (ApEn) is applied to study the variability of pulse waveform for assessing coronary arteriosclerosis status. Having analyzed the wrist pulse waveforms taken from both normal subjects and the patients suffering from coronary arteriosclerosis (CA) disorders, we find that pulse morphology variability (PMV) is more efficient than pulse interval variability (PIV) in assessing the conditions of human coronary artery. Usually, the PMVs of the healthy are higher than those of the patients with CA diseases, and the PMVs of patients with CA diseases have more high frequency components than those of the healthy subjects. That is to say, the CA disease also has influence on vascular tone. The effect of changes in cardiac performance due to CA disease can be reflected through the PMV. The experiment demonstrates.

KW - Approximate entropy

KW - Cardiovascular system

KW - Pulse interval variability

KW - Pulse morphology variability

KW - Pulse waveform

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DO - 10.1007/s10916-008-9245-6

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SN - 0148-5598

VL - 34

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EP - 339

JO - Journal of Medical Systems

JF - Journal of Medical Systems

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ER -

Morphology variability analysis of wrist pulse waveform for assessment of arteriosclerosis status

Abstract

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Keywords

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