Combining thermal imaging and machine learning to noninvasively characterize palm perfusion during local blood pressure changes

The use of non-contact and non-invasive tools for monitoring physical measurements has emerged over the last years. One such tool is thermal imaging, which can be executed by connecting a camera to a mobile phone. In previous studies, thermal imaging has been shown to successfully monitor changes in...

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Published inBiomedical signal processing and control Vol. 92; p. 106109
Main Authors Muller, Ido, Ovadia-Blechman, Zehava, Moyal, Noam, Darchi, Noa, Hoffer, Oshrit, Halak, Moshe, Rabin, Neta
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2024
Subjects
Bilateral effect
Blood perfusion
Hand elevation
Iterative regression
Laplacian pyramids
t-SNE
Thermal imaging
Thermo-anatomical segmentation
Hand elevation
Blood perfusion
Bilateral effect
Thermo-anatomical segmentation
t-SNE
Thermal imaging
Iterative regression
Laplacian pyramids
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Abstract The use of non-contact and non-invasive tools for monitoring physical measurements has emerged over the last years. One such tool is thermal imaging, which can be executed by connecting a camera to a mobile phone. In previous studies, thermal imaging has been shown to successfully monitor changes in skin microcirculation. The goal of this study was to characterize palm perfusion during local blood pressure changes using non-contact thermal imaging and machine learning techniques. To do so, a clinical trial was defined, in which the subject’s “treated palm” underwent gravity-induced changes. Thermal images captured the behavior of the microcirculation response to the trial. The collected image data were analyzed using statistical and machine learning tools to in order to characterize the microcirculation response to gravity changes. Our findings show that there is a meaningful relationship between the subjects’ initial palm temperatures and their weight, body mass index, and red blood cells. The typical responses of the subjects to gravity changes cluster into three groups according to temperature changes: subjects with positive, balanced, and negative reactions to the clinical trial. The bilateral effect was confirmed, as a significant relationship between the self-subject palms was identified. Prediction of the treated palm’s response was carried out with a new regression model, which presented superior results over known regression techniques. Our novel developed methodologies may assist in monitoring different diseases that affect microcirculation. Moreover, thermal imaging can be implemented for personal follow-up of patients’ care in the clinic as well as in-home care. •Thermal imaging with machine learning characterizes changes in palm perfusion.•The typical responses of the subjects to gravity changes cluster into three groups.•The local response is correlated to blood tests and clinical variables.•Systematic response was assessed by quantifying the bilateral effect.•The developed tools may assist to identify diseases that affect microcirculation.
AbstractList The use of non-contact and non-invasive tools for monitoring physical measurements has emerged over the last years. One such tool is thermal imaging, which can be executed by connecting a camera to a mobile phone. In previous studies, thermal imaging has been shown to successfully monitor changes in skin microcirculation. The goal of this study was to characterize palm perfusion during local blood pressure changes using non-contact thermal imaging and machine learning techniques. To do so, a clinical trial was defined, in which the subject’s “treated palm” underwent gravity-induced changes. Thermal images captured the behavior of the microcirculation response to the trial. The collected image data were analyzed using statistical and machine learning tools to in order to characterize the microcirculation response to gravity changes. Our findings show that there is a meaningful relationship between the subjects’ initial palm temperatures and their weight, body mass index, and red blood cells. The typical responses of the subjects to gravity changes cluster into three groups according to temperature changes: subjects with positive, balanced, and negative reactions to the clinical trial. The bilateral effect was confirmed, as a significant relationship between the self-subject palms was identified. Prediction of the treated palm’s response was carried out with a new regression model, which presented superior results over known regression techniques. Our novel developed methodologies may assist in monitoring different diseases that affect microcirculation. Moreover, thermal imaging can be implemented for personal follow-up of patients’ care in the clinic as well as in-home care. •Thermal imaging with machine learning characterizes changes in palm perfusion.•The typical responses of the subjects to gravity changes cluster into three groups.•The local response is correlated to blood tests and clinical variables.•Systematic response was assessed by quantifying the bilateral effect.•The developed tools may assist to identify diseases that affect microcirculation.
ArticleNumber 106109
Author Moyal, Noam
Halak, Moshe
Muller, Ido
Ovadia-Blechman, Zehava
Hoffer, Oshrit
Darchi, Noa
Rabin, Neta
Author_xml – sequence: 1
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Keywords Hand elevation
Blood perfusion
Bilateral effect
Thermo-anatomical segmentation
t-SNE
Thermal imaging
Iterative regression
Laplacian pyramids
Language English
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Snippet The use of non-contact and non-invasive tools for monitoring physical measurements has emerged over the last years. One such tool is thermal imaging, which can...
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StartPage 106109
SubjectTerms Bilateral effect
Blood perfusion
Hand elevation
Iterative regression
Laplacian pyramids
t-SNE
Thermal imaging
Thermo-anatomical segmentation
Title Combining thermal imaging and machine learning to noninvasively characterize palm perfusion during local blood pressure changes
URI https://dx.doi.org/10.1016/j.bspc.2024.106109
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