2016
DOI: 10.24297/jap.v11i8.206
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Considering skin physiology in capacitive-coupled hyperthermia

Abstract: Dominant technical solution for oncological hyperthermia devices is capacitive-coupling. However, it has the challenge of overheating the surface of adipose layers and burning cutaneous structures. The main technical solution of this is the intensive cooling of the surface. Our objective is studying the physiology and effect of the active cooling of the skin in capacitive-coupled hyperthermia technologies.

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Cited by 2 publications
(2 citation statements)
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“…Due to the lost portion of the energy being unknown, the overall energy supplied cannot be used as a treatment dose parameter, the energy balance of the penetration loses its trustworthiness. • The physiological regulation of blood flow makes the situation complicated (163). The cooled surface will experience vasocontraction, and this layer will become more insulative, as a normal physiological reaction, limiting heat loss.…”
Section: Efforts To Reduce the Energy-lossmentioning
confidence: 99%
“…Due to the lost portion of the energy being unknown, the overall energy supplied cannot be used as a treatment dose parameter, the energy balance of the penetration loses its trustworthiness. • The physiological regulation of blood flow makes the situation complicated (163). The cooled surface will experience vasocontraction, and this layer will become more insulative, as a normal physiological reaction, limiting heat loss.…”
Section: Efforts To Reduce the Energy-lossmentioning
confidence: 99%
“…, the transporting electrolytes (mainly the blood perfusion) change of the electric parameters by time and temperature. These processes are dominantly physiologically regulated, so homeostatic control has substantial importance in the changing electromagnetic properties [81]. The higher dielectric permittivity of the tumor cells and mass gives an additional selection factor [82] to the higher conductivity discussed above.…”
Section: Introductionmentioning
confidence: 99%