Theoretical characterization of dual concentric conductor microwave applicators for hyperthermia at 433 MHz

Author: Rossetto F.   Stauffer P. R.  

Publisher: Informa Healthcare

ISSN: 1464-5157

Source: International Journal of Hyperthermia, Vol.17, Iss.3, 2001-05, pp. : 258-270

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

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Abstract

Radiation patterns from multi-aperture arrays of Dual Concentric Conductor (DCC) applicators for superficial microwave hyperthermia were calculated numerically using the Finite Difference Time Domain (FDTD) method at an operating frequency of 433MHz. Different aperture sizes were studied from 3.5-7cm square in six-element array configurations which may be considered as building block elements of much larger arrays. Once optimum parameters were established for gap width, inter-element spacing, and bolus thickness for each aperture size using repetitive parametric FDTD studies, a direct comparison of power deposition (SAR) patterns was performed for similar DCC arrays driven at 915MHz and 433MHz. Results show that clinically desirable uniformity and penetration of SAR can be obtained for square apertures in the range of 4-6cm per side at 433MHz, using 9.5-12.5mm thick water coupling boluses, as compared to the optimum 2-4.5cm square apertures and 5-10mm water bolus dimensions determined previously for 915MHz arrays. With an accompanying reduction in the lateral adjustability of power control, the 433MHz applicators can provide a significantly larger heating area than arrays with the same number of elements driven at a frequency of 915MHz. Penetration depth is similar for optimally sized apertures at both frequencies of operation, providing a maximum heating depth of 1-2cm for the DCC array applicators.

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