Validation of a Hybrid Microwave-Optical Monitor to Investigate Thermal Provocation in the Microvasculature

Validation of a Hybrid Microwave-Optical Monitor to Investigate Thermal Provocation in the Microvasculature

We have previously developed a hybrid microwave-optical system to monitor microvascular changes in response to thermal provocation in muscle. The hybrid probe is capable of inducing deep heat from the skin surface using mild microwaves (1-3 W) and raises the tissue temperature by a few degrees Celsi...

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Bibliographic Details
Published in:Advances in experimental medicine and biology Vol. 876; p. 435
Main Authors: Al-Armaghany, Allann, Tong, Kenneth, Highton, David, Leung, Terence S
Format: Journal Article
Language:English
Published: United States 2016
Subjects:
Humans
Microvessels - physiology
Microwaves
Skin Temperature
Vasodilation
Microwave applicator
Near infrared spectroscopy
Thermoregulation
Muscle
Vasodilation
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Summary:We have previously developed a hybrid microwave-optical system to monitor microvascular changes in response to thermal provocation in muscle. The hybrid probe is capable of inducing deep heat from the skin surface using mild microwaves (1-3 W) and raises the tissue temperature by a few degrees Celsius. This causes vasodilation and the subsequent increase in blood volume is detected by the hybrid probe using near infrared spectroscopy. The hybrid probe is also equipped with a skin cooling system which lowers the skin temperature while allowing microwaves to warm up deeper tissues. The hybrid system can be used to assess the condition of the vasculature in response to thermal stimulation. In this validation study, thermal imaging has been used to assess the temperature distribution on the surface of phantoms and human calf, following microwave warming. The results show that the hybrid system is capable of changing the skin temperature with a combination of microwave warming and skin cooling. It can also detect thermal responses in terms of changes of oxy/deoxy-hemoglobin concentrations.
ISSN:0065-2598
DOI:10.1007/978-1-4939-3023-4_55