Between-subject factors influencing hand skin temperature response after cold stress test in a general adult population

Infrared thermography assessment using cold stress test (CST) is often used to diagnose pathologies that affect vascularization. However, the diagnostic capacity of the CST can still be questioned because of the high intersubject variability of hand skin temperature response. The objective of this s...

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Published inJournal of thermal analysis and calorimetry Vol. 150; no. 17; pp. 13193 - 13200
Main Authors Priego-Quesada, Jose I., Domingo-Clérigues, María, Cañada-Soriano, Mar, Cibrián Ortiz de Anda, Rosa Mª, García-Sanz, Verónica, Bellot-Arcís, Carlos
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.09.2025
Springer Nature B.V
Subjects
Analytical Chemistry
Chemistry
Chemistry and Materials Science
Infrared imaging
Inorganic Chemistry
Logarithms
Measurement Science and Instrumentation
Multiple regression analysis
Physical Chemistry
Polymer Sciences
Skin
Skin temperature
Thermal response
Thermography
Water temperature
Infrared thermography
Medicine
Dynamic thermography
Thermal image
Vascularization
Online AccessGet full text
ISSN1388-6150
1588-2926
DOI10.1007/s10973-025-14577-y

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Abstract Infrared thermography assessment using cold stress test (CST) is often used to diagnose pathologies that affect vascularization. However, the diagnostic capacity of the CST can still be questioned because of the high intersubject variability of hand skin temperature response. The objective of this study was to assess which is the main between-subject factors that explain hand skin temperature response after CST. A total of 78 participants (44 females and 34 males) did a CST based in a hand immersion during 30 s at 6.4 °C of water temperature. Skin temperature was measured using infrared thermography before and during the 3 min after the CST. To obtain coefficients that explain the thermal response after CST, a logarithmic equation for each region of interest of the hand was calculated, and intercept and slope coefficients were obtained. Stepwise multiple regression analysis was performed to explain each one of the logarithmic coefficients (β 0 and β 1 ) with the demographic data as inputs. Our results showed that the main between-subject factors that explain hand skin temperature response after CST were the body surface area, the physical activity volume, and the sex/menstrual cycle, explaining 20% of the variance of the response after CST. In conclusion, between-subject factors assessed in our study explained the 20% of the variance of the response after CST suggesting that there is still a large percentage of the variance that could be explained by pathology when the test is used to diagnose diseases that affect vascularization.
AbstractList Infrared thermography assessment using cold stress test (CST) is often used to diagnose pathologies that affect vascularization. However, the diagnostic capacity of the CST can still be questioned because of the high intersubject variability of hand skin temperature response. The objective of this study was to assess which is the main between-subject factors that explain hand skin temperature response after CST. A total of 78 participants (44 females and 34 males) did a CST based in a hand immersion during 30 s at 6.4 °C of water temperature. Skin temperature was measured using infrared thermography before and during the 3 min after the CST. To obtain coefficients that explain the thermal response after CST, a logarithmic equation for each region of interest of the hand was calculated, and intercept and slope coefficients were obtained. Stepwise multiple regression analysis was performed to explain each one of the logarithmic coefficients (β 0 and β 1 ) with the demographic data as inputs. Our results showed that the main between-subject factors that explain hand skin temperature response after CST were the body surface area, the physical activity volume, and the sex/menstrual cycle, explaining 20% of the variance of the response after CST. In conclusion, between-subject factors assessed in our study explained the 20% of the variance of the response after CST suggesting that there is still a large percentage of the variance that could be explained by pathology when the test is used to diagnose diseases that affect vascularization.
Infrared thermography assessment using cold stress test (CST) is often used to diagnose pathologies that affect vascularization. However, the diagnostic capacity of the CST can still be questioned because of the high intersubject variability of hand skin temperature response. The objective of this study was to assess which is the main between-subject factors that explain hand skin temperature response after CST. A total of 78 participants (44 females and 34 males) did a CST based in a hand immersion during 30 s at 6.4 °C of water temperature. Skin temperature was measured using infrared thermography before and during the 3 min after the CST. To obtain coefficients that explain the thermal response after CST, a logarithmic equation for each region of interest of the hand was calculated, and intercept and slope coefficients were obtained. Stepwise multiple regression analysis was performed to explain each one of the logarithmic coefficients (β 0 and β 1 ) with the demographic data as inputs. Our results showed that the main between-subject factors that explain hand skin temperature response after CST were the body surface area, the physical activity volume, and the sex/menstrual cycle, explaining 20% of the variance of the response after CST. In conclusion, between-subject factors assessed in our study explained the 20% of the variance of the response after CST suggesting that there is still a large percentage of the variance that could be explained by pathology when the test is used to diagnose diseases that affect vascularization.
Infrared thermography assessment using cold stress test (CST) is often used to diagnose pathologies that affect vascularization. However, the diagnostic capacity of the CST can still be questioned because of the high intersubject variability of hand skin temperature response. The objective of this study was to assess which is the main between-subject factors that explain hand skin temperature response after CST. A total of 78 participants (44 females and 34 males) did a CST based in a hand immersion during 30 s at 6.4 °C of water temperature. Skin temperature was measured using infrared thermography before and during the 3 min after the CST. To obtain coefficients that explain the thermal response after CST, a logarithmic equation for each region of interest of the hand was calculated, and intercept and slope coefficients were obtained. Stepwise multiple regression analysis was performed to explain each one of the logarithmic coefficients (β0 and β1) with the demographic data as inputs. Our results showed that the main between-subject factors that explain hand skin temperature response after CST were the body surface area, the physical activity volume, and the sex/menstrual cycle, explaining 20% of the variance of the response after CST. In conclusion, between-subject factors assessed in our study explained the 20% of the variance of the response after CST suggesting that there is still a large percentage of the variance that could be explained by pathology when the test is used to diagnose diseases that affect vascularization.
Author García-Sanz, Verónica
Priego-Quesada, Jose I.
Domingo-Clérigues, María
Bellot-Arcís, Carlos
Cañada-Soriano, Mar
Cibrián Ortiz de Anda, Rosa Mª
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Keywords Infrared thermography
Medicine
Dynamic thermography
Thermal image
Vascularization
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  doi: 10.1007/s10439-012-0718-x
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Snippet Infrared thermography assessment using cold stress test (CST) is often used to diagnose pathologies that affect vascularization. However, the diagnostic...
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springer
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SubjectTerms Analytical Chemistry
Chemistry
Chemistry and Materials Science
Infrared imaging
Inorganic Chemistry
Logarithms
Measurement Science and Instrumentation
Multiple regression analysis
Physical Chemistry
Polymer Sciences
Skin
Skin temperature
Thermal response
Thermography
Water temperature
Title Between-subject factors influencing hand skin temperature response after cold stress test in a general adult population
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