Title :
Modeling of thermal regulation of peripheral circulation
Author :
Romita, L. ; Bocchi, L.
Author_Institution :
Dept. of Inf. Eng., Univ. of Florence, Florence, Italy
Abstract :
Microcirculatory response to a thermal stimulation involves both an axon reflex and a NO-mediated activation. The analysis of microcirculatory flow following a thermal stimulation may therefore give an insight to the underlying physiological systems controlling the flow. In this study, the microcirculatory flow in response to local heating is measured using a laser Doppler instrument. The average flow is mathematically modeled to extract a set of quantitative parameters. The assessment of the method was performed by analyzing the variations of the parameters in a group of healthy volunteers. Results confirm that the model parameters allow to evaluate the age-related variations of both the axon reflex and the NO-mediated activation.
Keywords :
Doppler measurement; biothermics; haemorheology; laser applications in medicine; neurophysiology; physiological models; NO-mediated activation; age-related variations; axon reflex; healthy volunteers; laser Doppler instrument; local heating; microcirculatory flow; microcirculatory response; model parameters; peripheral circulation; physiological systems; quantitative parameters; thermal regulation modeling; thermal stimulation; Blood; Diabetes; Doppler effect; Heating; Physiology; Skin; Temperature measurement; axon reflex; laser Doppler flowmetry; microcirculation; thermoregulation;
Conference_Titel :
Medical Information and Communication Technology (ISMICT), 2014 8th International Symposium on
Conference_Location :
Firenze
DOI :
10.1109/ISMICT.2014.6825232
