Dual thermal ablation modality of solid tumors in a mouse model

Abstract

Purpose: Develop a new combination therapy consisting of cryoablation and conductive high-temperature ablation for enhanced thermal ablation of solid tumors. Methods: We have constructed an invasive probe that can be used for consecutive cryoablation and hightemperature ablation (C/HTA), with a single insertion. The C/HTA probe was tested, in Balb/c mice bearing solid 4T1 tumors, in comparison to cryoablation and high temperature ablation, only. Three days after ablation, the diameter of the ablated zone was evaluated with pathological examination. Results: The C/HTA device can be used to induce larger ablation zones, in comparison to high temperature or cryoablation alone, and at lower thermal doses and temperatures than either modality alone. Conclusions: The relatively high thermal conductivity of ice, in comparison to water and native tissue, enables rapid heating of the ice-ball that result in improved conductive high temperature ablation. The new dual thermal modality improves ablation outcomes at lower thermal doses in comparison to a single ablation modality.