Abstract

A transient three-dimensional simulation program has been developed to investigate the effects of scanning speed, scanning pattern, blood perfusion, and transducer choice on the temperature fluctuations that occur during scanned focused ultrasound hyperthermia treatments. The model uses the bioheat transfer equation with uniform tissue properties to solve for the temperature field. The results show that the largest temperature fluctuations are always located on the scanning path in the acoustical focal plane and that the temperature fluctuation pattern and magnitudes are essentially the same, regardless of the focal depth. The results also show that the magnitude of these temperature fluctuations increases linearly with increasing scan times (decreasing scanning speeds) and increases as a weak exponential with the magnitude of the blood perfusion rate. Moreover, the smaller the diameter of the focus of the power field, the larger the temperature fluctuations. To avoid temperature fluctuations inside the scanned volume, scan time of 10 s of less were needed when single 2-cm-diameter circular scans were simulated at practical blood flow values. The general trends predicted by the simulations agree with the trends present in previously reported experiments, indicating that the simulations could be an important tool in patient treatment planning and temperature field approximations.

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