Assessment of thermochromic phantoms for characterizing microwave ablation devices

Abstract

ABSTRACTBackground and PurposeThermochromic gel phantoms provide a controlled medium for visual assessment of thermal ablation device performance. However, there are limited studies reporting on the comparative assessment of ablation profiles assessed in thermochromic gel phantoms against those inex vivotissue. The objective of this study was to compare microwave ablation zones in a thermochromic tissue mimicking gel phantom andex vivobovine liver, and to report on measurements of the temperature dependent dielectric and thermal properties of the phantom.MethodsThermochromic polyacrylamide phantoms were fabricated following a previously reported protocol. Phantom samples were heated to temperatures in the range of 20 – 90 °C in a temperature-controlled water bath, and colorimetric analysis of images of the phantom taken after heating were used to develop a calibration between color changes and temperature to which the phantom was heated. Using a custom, 2.45 GHz water-cooled microwave ablation antenna, ablations were performed in freshex vivoliver and phantoms using 65 W applied for 5 min or 10 min (n =3 samples in each medium for each power/time combination). Broadband (500 MHz – 6 GHz) temperature-dependent dielectric and thermal properties of the phantom were measured over the temperature range 22 – 100 °C.ResultsColorimetric analysis showed that the sharp change in gel phantom color commences at a temperature of 57 °C. Short and long axes of the ablation zone in the phantom (as assessed by the 57 °C isotherm) for 65 W, 5 min ablations were aligned with extents of the ablation zone observed inex vivobovine liver. However, for the 65 W, 10 min setting, ablations in the phantom were on average 23.7% smaller in short axis and 7.4 % smaller in long axis than those observed inex vivoliver. Measurements of the temperature dependent relative permittivity, thermal conductivity, and volumetric heat capacity of the phantom largely followed similar trends to published values forex vivoliver tissue.ConclusionThermochromic tissue mimicking phantoms provide a controlled, and reproducible medium for comparative assessment of microwave ablation devices and energy delivery settings, though ablation zone size and shapes may not accurately represent ablation sizes and shapes observed inex vivoliver tissue under similar conditions.