DocumentCode
3078790
Title
Firing session optimization for dynamic focusing HIFU treatment
Author
Curiel, L. ; Chavrier, F. ; Souchon, R. ; Birer, A. ; Margonari, J. ; Chapelon, J.Y.
Author_Institution
Inst. Nat. de la Sante et de la Recherche Med., Lyon, France
Volume
2
fYear
2000
fDate
36800
Firstpage
1445
Abstract
A model to predict the size and shape of high intensity focused ultrasound (HIFU)-induced lesions was recently published. This model adapts the classical “bioheat transfer equation” (BHTE) to account for the presence of oscillating microbubbles that naturally form in the tissue during HIFU. Preliminary simulation results have already helped us to better understand how an increase in acoustic power significantly shifts the lesion toward the transducer and may create skin lesions. These simulations are in good agreement with observed clinical results and it can be expected that this approach can be used to improve firing sessions. In the present work, simulations were performed to predict the size, shape and position of lesion induced by an annular array specially designed for transrectal prostate cancer therapy; in-vitro experiments were carried out to test the model. Good agreement was found between the values predicted by the model and the in-vitro results. Then, a target volume was defined and several trials were made to optimize firing parameters (power, shot duration, waiting time between shots, frequency and dynamic focus) to achieve the desired lesion. In a laparotomy procedure, a series of 29 HIFU lesions were induced in 9 pig livers in-vivo. Seven days after treatment, at animal sacrifice, all the experimental lesions were in good agreement with the simulations. The results show that it is possible to predict the shape and the position of HIFU-induced lesions with this model and that it can be used to reduce the number of in-vivo experiments necessary. We believe this model will be useful in setting clinical parameters not only for prostate cancer therapy but also for other HIFU applications
Keywords
biological effects of acoustic radiation; biomedical ultrasonics; cancer; hyperthermia; physiological models; radiation therapy; skin; ultrasonic focusing; acoustic power increase; annular array; bioheat transfer equation; clinical parameters setting; dynamic focusing HIFU treatment; firing session optimization; high intensity focused ultrasound induced lesions; in-vitro experiments; laparotomy; oscillating microbubbles; pig livers; shot duration; skin lesions; thermal response; transrectal prostate cancer therapy; Acoustic transducers; Equations; In vitro; Lesions; Medical treatment; Predictive models; Prostate cancer; Shape; Skin; Ultrasonic imaging;
fLanguage
English
Publisher
ieee
Conference_Titel
Ultrasonics Symposium, 2000 IEEE
Conference_Location
San Juan
ISSN
1051-0117
Print_ISBN
0-7803-6365-5
Type
conf
DOI
10.1109/ULTSYM.2000.921595
Filename
921595
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