Abstract
Background and Purpose:
The therapeutic application of noninvasive tissue ablation by high-intensity focused ultrasound (HIFU) requires precise physical definition of the focal size and determination of control parameters. The objective of this study was to measure the extent of
Materials and Methods:
The ultrasound waves generated by a cylindrical piezoceramic element (1.04 MHz) were focused at a depth of 100 mm using a parabolic reflector (diameter 100 mm). A needle hydrophone was used to measure the field distribution of the sound pressure. The morphology and extent of tissue necrosis were examined at generator powers of up to 400 W (Pel) and single pulse durations of as long as 8 seconds.
Results:
The two-dimensional field distribution resulted in an approximately ellipsoidal focus of 32 × 4 mm(–6 dB). A sharp demarcation between coagulation necrosis and intact tissue was observed. Lesion size was controlled by both the variation of generator power and the pulse duration. At a constant pulse duration of 2 seconds, a generator power of 100 W remained below the threshold doses for inducing a reproducible lesion. An increase in power to as high as 400 W induced lesions with average dimensions of as much as 11.2 × 3 mm. At constant total energy (generator power × pulse duration), lesion size increased at higher generator power.
Conclusions:
This ultrasound generator can induce defined and reproducible necrosis in
Get full access to this article
View all access options for this article.