Reproducibility of axon reflex-related vasodilation assessed by dynamic thermal imaging in healthy subjects

Small nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber function. Small nerve fibers mediate axon reflex-related vasodilation and play an important role in thermoregulation. Assessing the reflex v...

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Published inMicrovascular research Vol. 106; pp. 1 - 7
Main Authors Nieuwenhoff, M.D., Wu, Y., Huygen, F.J.P.M., Schouten, A.C., van der Helm, F.C.T., Niehof, S.P.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.07.2016
Subjects
Adult
Axon reflex
Axons - physiology
Blood Flow Velocity
Female
Healthy Volunteers
Humans
Laser-Doppler Flowmetry
Male
Microcirculation
Models, Cardiovascular
Neurologic Examination - methods
Predictive Value of Tests
Reflex
Regional Blood Flow
Reproducibility of Results
Skin - blood supply
Skin blood flow
Skin Temperature
Small fibers
Tau
Thermal imaging
Thermography - methods
Time Factors
Vasodilation
Vasomotor System - physiology
NO
PU
ICC
Tau
RMSE
Axon reflex
Vasodilation
LDI
Small fibers
Skin temperature
Thermal imaging
CI95
Skin blood flow
Online AccessGet full text
ISSN0026-2862
1095-9319
1095-9319
DOI10.1016/j.mvr.2016.03.001

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Abstract Small nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber function. Small nerve fibers mediate axon reflex-related vasodilation and play an important role in thermoregulation. Assessing the reflex vasodilation after local heating might elucidate some aspects of small fiber functioning. In this study, we determined the reproducibility of the reflex vasodilation after short local heating in healthy subjects, assessed with thermal imaging and laser Doppler imaging. Healthy subjects underwent six heating rounds in one session (protocol I, N=10) or spread over two visits (protocol II, N=20). Reflex vasodilation was elicited by heating the skin to 42°C with an infrared lamp. Skin temperature and skin blood flow were recorded during heating and recovery with a thermal imaging camera and a laser Doppler imager. Skin temperature curves were fitted with a mathematical model to describe the heating and recovery phase with time constant tau (tauHeat and tauCool1). The reproducibility of tau within a session was moderate to excellent (intra-class correlation coefficient 0.42–0.86) and good (0.71–0.72) between different sessions. Within one session the differences in tauHeat were small (bias±SD −1.3±18.9s); the bias between two visits was −1.2±12.2s. For tauCool1 the differences were also small, 1.4±6.6s within a session and between visits −1.4±11.6s. The heat induced axon reflex-related vasodilation, assessed with thermal imaging and laser Doppler imaging, was reproducible both within a session and between different sessions. Tau describes the temporal profile in one parameter and represents the effects of all changes including blood flow and as such, is an indicator of the vasodilator function. TauHeat and tauCool1 can accurately describe the dynamics of the axon reflex-related vasodilator response in the heating and recovery phase respectively. •Thermal imaging can measure axon reflex-related vasodilation.•Axon reflex-related vasodilation measured with thermal imaging is reproducible.•The skin temperature curve can be modeled with tau.•Tau accurately describes the skin temperature curve during heating and recovery.
AbstractList Small nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber function. Small nerve fibers mediate axon reflex-related vasodilation and play an important role in thermoregulation. Assessing the reflex vasodilation after local heating might elucidate some aspects of small fiber functioning. In this study, we determined the reproducibility of the reflex vasodilation after short local heating in healthy subjects, assessed with thermal imaging and laser Doppler imaging.INTRODUCTIONSmall nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber function. Small nerve fibers mediate axon reflex-related vasodilation and play an important role in thermoregulation. Assessing the reflex vasodilation after local heating might elucidate some aspects of small fiber functioning. In this study, we determined the reproducibility of the reflex vasodilation after short local heating in healthy subjects, assessed with thermal imaging and laser Doppler imaging.Healthy subjects underwent six heating rounds in one session (protocol I, N=10) or spread over two visits (protocol II, N=20). Reflex vasodilation was elicited by heating the skin to 42°C with an infrared lamp. Skin temperature and skin blood flow were recorded during heating and recovery with a thermal imaging camera and a laser Doppler imager. Skin temperature curves were fitted with a mathematical model to describe the heating and recovery phase with time constant tau (tauHeat and tauCool1).METHODSHealthy subjects underwent six heating rounds in one session (protocol I, N=10) or spread over two visits (protocol II, N=20). Reflex vasodilation was elicited by heating the skin to 42°C with an infrared lamp. Skin temperature and skin blood flow were recorded during heating and recovery with a thermal imaging camera and a laser Doppler imager. Skin temperature curves were fitted with a mathematical model to describe the heating and recovery phase with time constant tau (tauHeat and tauCool1).The reproducibility of tau within a session was moderate to excellent (intra-class correlation coefficient 0.42-0.86) and good (0.71-0.72) between different sessions. Within one session the differences in tauHeat were small (bias±SD -1.3±18.9s); the bias between two visits was -1.2±12.2s. For tauCool1 the differences were also small, 1.4±6.6s within a session and between visits -1.4±11.6s.RESULTSThe reproducibility of tau within a session was moderate to excellent (intra-class correlation coefficient 0.42-0.86) and good (0.71-0.72) between different sessions. Within one session the differences in tauHeat were small (bias±SD -1.3±18.9s); the bias between two visits was -1.2±12.2s. For tauCool1 the differences were also small, 1.4±6.6s within a session and between visits -1.4±11.6s.The heat induced axon reflex-related vasodilation, assessed with thermal imaging and laser Doppler imaging, was reproducible both within a session and between different sessions. Tau describes the temporal profile in one parameter and represents the effects of all changes including blood flow and as such, is an indicator of the vasodilator function. TauHeat and tauCool1 can accurately describe the dynamics of the axon reflex-related vasodilator response in the heating and recovery phase respectively.CONCLUSIONSThe heat induced axon reflex-related vasodilation, assessed with thermal imaging and laser Doppler imaging, was reproducible both within a session and between different sessions. Tau describes the temporal profile in one parameter and represents the effects of all changes including blood flow and as such, is an indicator of the vasodilator function. TauHeat and tauCool1 can accurately describe the dynamics of the axon reflex-related vasodilator response in the heating and recovery phase respectively.
Small nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber function. Small nerve fibers mediate axon reflex-related vasodilation and play an important role in thermoregulation. Assessing the reflex vasodilation after local heating might elucidate some aspects of small fiber functioning. In this study, we determined the reproducibility of the reflex vasodilation after short local heating in healthy subjects, assessed with thermal imaging and laser Doppler imaging. Healthy subjects underwent six heating rounds in one session (protocol I, N=10) or spread over two visits (protocol II, N=20). Reflex vasodilation was elicited by heating the skin to 42°C with an infrared lamp. Skin temperature and skin blood flow were recorded during heating and recovery with a thermal imaging camera and a laser Doppler imager. Skin temperature curves were fitted with a mathematical model to describe the heating and recovery phase with time constant tau (tauHeat and tauCool1). The reproducibility of tau within a session was moderate to excellent (intra-class correlation coefficient 0.42-0.86) and good (0.71-0.72) between different sessions. Within one session the differences in tauHeat were small (bias±SD -1.3±18.9s); the bias between two visits was -1.2±12.2s. For tauCool1 the differences were also small, 1.4±6.6s within a session and between visits -1.4±11.6s. The heat induced axon reflex-related vasodilation, assessed with thermal imaging and laser Doppler imaging, was reproducible both within a session and between different sessions. Tau describes the temporal profile in one parameter and represents the effects of all changes including blood flow and as such, is an indicator of the vasodilator function. TauHeat and tauCool1 can accurately describe the dynamics of the axon reflex-related vasodilator response in the heating and recovery phase respectively.
Small nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber function. Small nerve fibers mediate axon reflex-related vasodilation and play an important role in thermoregulation. Assessing the reflex vasodilation after local heating might elucidate some aspects of small fiber functioning. In this study, we determined the reproducibility of the reflex vasodilation after short local heating in healthy subjects, assessed with thermal imaging and laser Doppler imaging. Healthy subjects underwent six heating rounds in one session (protocol I, N=10) or spread over two visits (protocol II, N=20). Reflex vasodilation was elicited by heating the skin to 42°C with an infrared lamp. Skin temperature and skin blood flow were recorded during heating and recovery with a thermal imaging camera and a laser Doppler imager. Skin temperature curves were fitted with a mathematical model to describe the heating and recovery phase with time constant tau (tauHeat and tauCool1). The reproducibility of tau within a session was moderate to excellent (intra-class correlation coefficient 0.42–0.86) and good (0.71–0.72) between different sessions. Within one session the differences in tauHeat were small (bias±SD −1.3±18.9s); the bias between two visits was −1.2±12.2s. For tauCool1 the differences were also small, 1.4±6.6s within a session and between visits −1.4±11.6s. The heat induced axon reflex-related vasodilation, assessed with thermal imaging and laser Doppler imaging, was reproducible both within a session and between different sessions. Tau describes the temporal profile in one parameter and represents the effects of all changes including blood flow and as such, is an indicator of the vasodilator function. TauHeat and tauCool1 can accurately describe the dynamics of the axon reflex-related vasodilator response in the heating and recovery phase respectively. •Thermal imaging can measure axon reflex-related vasodilation.•Axon reflex-related vasodilation measured with thermal imaging is reproducible.•The skin temperature curve can be modeled with tau.•Tau accurately describes the skin temperature curve during heating and recovery.
Author Nieuwenhoff, M.D.
van der Helm, F.C.T.
Niehof, S.P.
Huygen, F.J.P.M.
Wu, Y.
Schouten, A.C.
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Keywords NO
PU
ICC
Tau
RMSE
Axon reflex
Vasodilation
LDI
Small fibers
Skin temperature
Thermal imaging
CI95
Skin blood flow
Language English
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Snippet Small nerve fiber dysfunction is an early feature of diabetic neuropathy. There is a strong clinical need for a non-invasive method to assess small nerve fiber...
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elsevier
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StartPage 1
SubjectTerms Adult
Axon reflex
Axons - physiology
Blood Flow Velocity
Female
Healthy Volunteers
Humans
Laser-Doppler Flowmetry
Male
Microcirculation
Models, Cardiovascular
Neurologic Examination - methods
Predictive Value of Tests
Reflex
Regional Blood Flow
Reproducibility of Results
Skin - blood supply
Skin blood flow
Skin Temperature
Small fibers
Tau
Thermal imaging
Thermography - methods
Time Factors
Vasodilation
Vasomotor System - physiology
Title Reproducibility of axon reflex-related vasodilation assessed by dynamic thermal imaging in healthy subjects
URI https://dx.doi.org/10.1016/j.mvr.2016.03.001
https://www.ncbi.nlm.nih.gov/pubmed/26956622
https://www.proquest.com/docview/1789495677
Volume 106
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