Title :
Ocular tumor treatments with focused ultrasound: effects of beam geometry, tissue morphology, and adjacent tissues
Author :
Lizzi, F.L. ; Deng, Cheri ; Alam, S. Kaisar
Author_Institution :
Riverside Res. Inst., New York, NY
Abstract :
Three-dimensional simulation procedures have been implemented to evaluate ultrasonic treatments of ocular tumors using high-intensity focused ultrasound. To emulate realistic tissue geometry, the simulations involved normal tissues and tumors whose conformation was documented using clinical ultrasound scans in parallel planes. Therapy beams with asymmetric focal-plane patterns were aimed at the tumor and the bioheat equation was evaluated to compute the 3D temperature distributions induced as a function of time. These procedures are now being used to refine the design of therapy beams, intensity levels, and exposure strategies to treat entire tumors
Keywords :
biomedical ultrasonics; eye; finite difference methods; finite element analysis; hyperthermia; medical computing; physiological models; radiation therapy; temperature distribution; tumours; 3D temperature distributions; FEA; US therapy beams; adjacent tissues effect; asymmetric focal-plane patterns; beam geometry effect; bioheat equation; exposure strategies; finite difference algorithm; focused ultrasound; ocular tumor treatments; therapy beam design; three-dimensional simulation; tissue morphology effect; ultrasonic treatment; Acoustic beams; Computational modeling; Geometry; Lesions; Medical treatment; Morphology; Neoplasms; Solid modeling; Transducers; Ultrasonic imaging;
Conference_Titel :
Ultrasonics Symposium, 2000 IEEE
Conference_Location :
San Juan
Print_ISBN :
0-7803-6365-5
DOI :
10.1109/ULTSYM.2000.921561
