Core
body temperature (CBT) is one of the four vital
signs that
must be monitored continuously. The continuous recording of CBT is
possible through invasive methods by inserting a temperature probe
into specific body sites. We report a novel method to monitor CBT
through the quantitative measurement of skin blood perfusion rate
(ωb,skin). By monitoring the skin temperature, heat
flux, and ωb,skin, the arterial blood temperature,
equivalent to CBT, can be extracted. ωb,skin is quantitatively
evaluated thermally via sinusoidal heating with regulated thermal
penetration depth so that the blood perfusion rate is acquired only
in the skin. Its quantification is significant because it indicates
various physiological events including hyper- or hypothermia, tissue
death, and delineation of tumors. A subject showed promising results
with steady values of ωb,skin and CBT of 5.2 ±
1.05 × 10–4 s–1 and 36.51
± 0.23 °C, respectively. For periods where the subject’s
actual CBT (axillary temperature) did not fall within the estimated
range, the average deviation from the actual CBT was only 0.07 °C.
This study aims to develop a competent methodology capable of continuously
monitoring the CBT and blood perfusion rate at a distant location
from the core body region for the diagnosis of a patient’s
health condition with wearable devices.
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