Processing of laser Doppler flowmetry signals from healthy subjects and patients with varicose veins: Information categorisation approach based on intrinsic mode functions and entropy computation

•Blood flowmetry data of healthy people and patients with varicose veins are studied.•The goal is to categorize information content of flow data in the two populations.•A framework based on empirical mode decomposition and entropy computation is proposed.•The results show different dynamical pattern...

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Published inMedical engineering & physics Vol. 37; no. 6; pp. 553 - 559
Main Authors Humeau-Heurtier, Anne, Klonizakis, Markos
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.06.2015
Elsevier
Subjects
Acetylcholine
Empiricial mode decomposition
Engineering Sciences
Entropy
Humans
Intrinsic mode function
Laser Doppler flowmetry
Laser-Doppler Flowmetry - methods
Microvascular blood flow
Microvessels - diagnostic imaging
Microvessels - drug effects
Radiology
Regional Blood Flow - drug effects
Signal Processing, Computer-Assisted
Ultrasonography
Varicose vein
Varicose Veins - diagnostic imaging
Vasodilator Agents
Varicose vein
Laser Doppler flowmetry
Intrinsic mode function
Entropy
Microvascular blood flow
Empiricial mode decomposition
entropy
microvascular blood flow
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Abstract •Blood flowmetry data of healthy people and patients with varicose veins are studied.•The goal is to categorize information content of flow data in the two populations.•A framework based on empirical mode decomposition and entropy computation is proposed.•The results show different dynamical patterns for different pathological states. The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage. In this work, the problem of categorising – in a quantifiable manner – information content of microvascular blood flow signals recorded in healthy participants and patients with varicose veins is addressed. For this purpose, laser Doppler flowmetry (LDF) signals – that reflect microvascular blood flow – recorded both at rest and after acetylcholine (ACh) stimulation (an endothelial-dependent vasodilator) are analyzed. Each signal is processed with the empirical mode decomposition (EMD) to obtain its intrinsic mode functions (IMFs). An entropy measure of each IMFs is then computed. The results show that IMFs of LDF signals have different complexity for different physiologic/pathological states. This is true both at rest and after ACh stimulation. Thus, the proposed framework (EMD + entropy computation) may be used to gain a noninvasive understanding of LDF signals in patients with microvascular dysfunctions.
AbstractList •Blood flowmetry data of healthy people and patients with varicose veins are studied.•The goal is to categorize information content of flow data in the two populations.•A framework based on empirical mode decomposition and entropy computation is proposed.•The results show different dynamical patterns for different pathological states. The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage. In this work, the problem of categorising – in a quantifiable manner – information content of microvascular blood flow signals recorded in healthy participants and patients with varicose veins is addressed. For this purpose, laser Doppler flowmetry (LDF) signals – that reflect microvascular blood flow – recorded both at rest and after acetylcholine (ACh) stimulation (an endothelial-dependent vasodilator) are analyzed. Each signal is processed with the empirical mode decomposition (EMD) to obtain its intrinsic mode functions (IMFs). An entropy measure of each IMFs is then computed. The results show that IMFs of LDF signals have different complexity for different physiologic/pathological states. This is true both at rest and after ACh stimulation. Thus, the proposed framework (EMD + entropy computation) may be used to gain a noninvasive understanding of LDF signals in patients with microvascular dysfunctions.
The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage. In this work, the problem of categorising – in a quantifiable manner – information content of microvascular blood flow signals recorded in healthy participants and patients with varicose veins is addressed. For this purpose, laser Doppler flowmetry (LDF) signals – that reflect microvascular blood flow – recorded both at rest and after acetylcholine (ACh) stimulation (an endothelial-dependent vasodilator) are analyzed. Each signal is processed with the empirical mode decomposition (EMD) to obtain its intrinsic mode functions (IMFs). An entropy measure of each IMFs is then computed. The results show that IMFs of LDF signals have different complexity for different physiologic/pathological states. This is true both at rest and after ACh stimulation. Thus, the proposed framework (EMD + entropy computation) may be used to gain a noninvasive understanding of LDF signals in patients with microvascular dysfunctions.
The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage. In this work, the problem of categorising - in a quantifiable manner - information content of microvascular blood flow signals recorded in healthy participants and patients with varicose veins is addressed. For this purpose, laser Doppler flowmetry (LDF) signals - that reflect microvascular blood flow - recorded both at rest and after acetylcholine (ACh) stimulation (an endothelial-dependent vasodilator) are analyzed. Each signal is processed with the empirical mode decomposition (EMD) to obtain its intrinsic mode functions (IMFs). An entropy measure of each IMFs is then computed. The results show that IMFs of LDF signals have different complexity for different physiologic/pathological states. This is true both at rest and after ACh stimulation. Thus, the proposed framework (EMD + entropy computation) may be used to gain a noninvasive understanding of LDF signals in patients with microvascular dysfunctions.
Highlights • Blood flowmetry data of healthy people and patients with varicose veins are studied. • The goal is to categorize information content of flow data in the two populations. • A framework based on empirical mode decomposition and entropy computation is proposed. • The results show different dynamical patterns for different pathological states.
The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage. In this work, the problem of categorising - in a quantifiable manner - information content of microvascular blood flow signals recorded in healthy participants and patients with varicose veins is addressed. For this purpose, laser Doppler flowmetry (LDF) signals - that reflect microvascular blood flow - recorded both at rest and after acetylcholine (ACh) stimulation (an endothelial-dependent vasodilator) are analyzed. Each signal is processed with the empirical mode decomposition (EMD) to obtain its intrinsic mode functions (IMFs). An entropy measure of each IMFs is then computed. The results show that IMFs of LDF signals have different complexity for different physiologic/pathological states. This is true both at rest and after ACh stimulation. Thus, the proposed framework (EMD + entropy computation) may be used to gain a noninvasive understanding of LDF signals in patients with microvascular dysfunctions.The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage. In this work, the problem of categorising - in a quantifiable manner - information content of microvascular blood flow signals recorded in healthy participants and patients with varicose veins is addressed. For this purpose, laser Doppler flowmetry (LDF) signals - that reflect microvascular blood flow - recorded both at rest and after acetylcholine (ACh) stimulation (an endothelial-dependent vasodilator) are analyzed. Each signal is processed with the empirical mode decomposition (EMD) to obtain its intrinsic mode functions (IMFs). An entropy measure of each IMFs is then computed. The results show that IMFs of LDF signals have different complexity for different physiologic/pathological states. This is true both at rest and after ACh stimulation. Thus, the proposed framework (EMD + entropy computation) may be used to gain a noninvasive understanding of LDF signals in patients with microvascular dysfunctions.
Author Klonizakis, Markos
Humeau-Heurtier, Anne
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CitedBy_id crossref_primary_10_1111_micc_12538
crossref_primary_10_1109_TBME_2016_2533665
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Issue 6
Keywords Varicose vein
Laser Doppler flowmetry
Intrinsic mode function
Entropy
Microvascular blood flow
Empiricial mode decomposition
entropy
microvascular blood flow
Language English
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Snippet •Blood flowmetry data of healthy people and patients with varicose veins are studied.•The goal is to categorize information content of flow data in the two...
Highlights • Blood flowmetry data of healthy people and patients with varicose veins are studied. • The goal is to categorize information content of flow data...
The diagnosis of pathologies from signal processing approaches has shown to be of importance. This can provide noninvasive information at the earliest stage....
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SubjectTerms Acetylcholine
Empiricial mode decomposition
Engineering Sciences
Entropy
Humans
Intrinsic mode function
Laser Doppler flowmetry
Laser-Doppler Flowmetry - methods
Microvascular blood flow
Microvessels - diagnostic imaging
Microvessels - drug effects
Radiology
Regional Blood Flow - drug effects
Signal Processing, Computer-Assisted
Ultrasonography
Varicose vein
Varicose Veins - diagnostic imaging
Vasodilator Agents
Title Processing of laser Doppler flowmetry signals from healthy subjects and patients with varicose veins: Information categorisation approach based on intrinsic mode functions and entropy computation
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https://www.ncbi.nlm.nih.gov/pubmed/25921722
https://www.proquest.com/docview/1680956015
https://hal.science/hal-01392067
Volume 37
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