This study is focused on the effect of cavitation on the process of thermal lesions formation. Different frequencies (1.155MHz + 0.577MHz,1.155MHz + 28KHz) and different types of transducers (focused transducer for 0.577MHz frequency, plan transducer for 28KHz frequency) were applied for heating phantoms and porcine muscle tissue. The differences in size and shape of the formed lesions were compared. The experimental results showed that the combination of high frequency and low-frequency focused transducer produced thermal lesion locally. On the other hand, the combination of high frequency and low-frequency plane transducer produced lager and wider lesion without over heating. The existence of cavitation was monitored by detecting the emitting signals using a hydrophone placed inside the tested samples. If use these novel strategies properly, the efficiency of thermal therapy in the clinical application would be enhanced.