Abstract
Resonance Near-Field Microwave Probing as a Method for Exploration of Deep Burn Wound Structures in Experiment
Highlights
The overall prevalence and non-decreasing incidence of thermal traumas predetermine the development of innovative technologies of treatment of heavily burned patients but improvement of the diagnostic apparatus of combustiology [1,2,3]
The level of the examined parameter at the minimal and maximal depths differs by 2.55 times (p
Dielectric permittivity profile of the skin and subcutaneous structures of healthy rats according to the data obtained by near-field microwave probing
Summary
The overall prevalence and non-decreasing incidence of thermal traumas predetermine the development of innovative technologies of treatment of heavily burned patients but improvement of the diagnostic apparatus of combustiology [1,2,3]. A great amount of diagnostic difficulties remain in combustiology connected with specifying precise borders of a burn injury, evaluation of the viability of tissues in the periwound zone, wound uniformity, and so on [1, 3, 5]. To solve a variety of these tasks apart from the empiric approach prevailing in real clinical practice, the value of IR thermal imaging are being studied. This technology has been shown to be informative in some situations, it makes it possible to evaluate the state of the skin surface and the nearest underlying structures only. Modern options of ultrasound examination, though possessing high informativity and resolution in other pathology, fail to achieve the appropriate contrast in case of a thermal trauma [1, 5,6,7]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
