Thermostatic Hyperthermia with Non-invasive Temperature Monitoring through Speed of Sound Imaging

Abstract: Hyperthermia therapy (HT) is used to treat diseases through heating of high temperature usually in conjunction with some other medical therapeutics like chemotherapy and radiotherapy. In this study, we propose a promising thermostatic hyperthermia method that uses high-intensity focused ultrasound (HIFU) for clinical tumor treatment combined with diagnostic ultrasound image guidance and non-invasive temperature monitoring through the speed of sound (SOS) imaging. HIFU heating is realized by a ring ultrasound transducer array with 256 elements. The inner structure information of thigh tissue is obtained by B-mode ultrasound imaging. Since the relationship between the temperature and the SOS in the different human tissue is available, the temperature detection is converted to the SOS detection obtained by the full-wave inversion (FWI) method. Simulation results show that our model can achieve expected thermostatic hyperthermia on tumor target with 0.2 degree maximum temperature fluctuation for 5 hours. This study verifies the feasibility of the proposed thermostatic hyperthermia model. Furthermore, the temperature measurement can share the same ultrasound transducer array for HIFU heating and B-mode ultrasound imaging, which provides a guiding significance for clinical application.