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Thermal assessment of ablation limit of subsurface tumor during focused ultrasound and laser heating

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dc.contributor.author Bhowmik, A.
dc.contributor.author Repaka, R.
dc.contributor.author Mishra, S.C.
dc.contributor.author Mitra, K.
dc.date.accessioned 2016-11-19T06:39:25Z
dc.date.available 2016-11-19T06:39:25Z
dc.date.issued 2016-11-19
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/480
dc.description.abstract Theoretical study on the thermal assessment of two types of tumor ablation techniques, viz., focused laser for ablating skin lesion and focused high-frequency ultrasound for ablating breast tumor has been presented in this article. Estimation of temperature rise and the induced thermal damage in the skin using laser heating have been done by integrating the bioheat transfer, the laser-light attenuation, and the thermal damage models. Further, ultrasound heating of deep seated tumor within the breast has been implemented to estimate the temperature rise and the induced thermal damage by combining the bioheat transfer, the vascularized, the pressure wave, and the thermal damage models. The theoretical models for skin, breast, and blood vessels have been constructed based on the anatomical details, thermophysical, optical, and acoustic properties available in the literature. The study indicates that the focused ultrasound heating can selectively raise the temperature of the tissue above the ablation limit sparing the surrounding healthy ones and imposes sufficient thermal damage to the entire tumor volume in a relatively short exposure time and longer cooling period. Whereas the laser-based heating would lead to collateral damage of the surrounding tissues and demands longer exposure time in order to achieve complete heating of the tumor volume. Heating of tumor at a uniform rate is a major issue in both the cases, and in the course of heating, the entire tumor volume in certain regions may experience irregular necrosis rate and char formation. Based on the comprehensive modeling efforts, the study further suggests two important thermal ablation criteria for complete and uniform heating of tumor volume at relatively short exposure time. en_US
dc.language.iso en_US en_US
dc.subject Ablation en_US
dc.subject Acoustic properties en_US
dc.subject Blood vessels en_US
dc.subject Tissue en_US
dc.subject Tumors en_US
dc.subject Ultrasonics Comprehensive model en_US
dc.subject Deep-seated tumors en_US
dc.subject Estimation of temperatures en_US
dc.subject Focused ultrasound en_US
dc.subject High frequency ultrasounds en_US
dc.subject Thermal assessment en_US
dc.subject Thermal damage models en_US
dc.subject Ultrasound heating en_US
dc.subject Heating en_US
dc.title Thermal assessment of ablation limit of subsurface tumor during focused ultrasound and laser heating en_US
dc.type Article en_US


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