高密度焦点式超音波療法の支援に向けたシミュレーション技術開発: 2301 (OS23.生命体統合シミュレーション(1))

沖田 浩平, 小野 謙二, 高木 周, 松本 洋一郎

研究成果: 会議への寄与タイプ論文

抄録

High Intensity Focused Ultrasound (HIFU) therapy has been developed for the treatment of deeply-placed cancer such as the liver and brain cancer. Problems are the displacement of focal point due to the reflection and refraction of ultrasound at the interfaces of bones and the attenuation of ultrasound due to the skins, fat and tissues. To minimize the invasive region of tissues by HIFU, the numerical simulation is available for the. prediction of the treatment of tissues. The development of the numerical simulation of ultrasound propagation through the voxel modeled body based on the MRI and CT data is reported. The results of the three-dimensional computation show the displacement of focal point for the ultrasound of 1MHz through the bone plate in water.
元の言語Japanese
ページ183-184
ページ数2
出版物ステータス出版済み - 11 25 2007

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therapy
bones
cancer
fats
liver
brain
refraction
simulation
attenuation
propagation
predictions
water

これを引用

高密度焦点式超音波療法の支援に向けたシミュレーション技術開発 : 2301 (OS23.生命体統合シミュレーション(1)). / 沖田浩平; 小野謙二; 高木周; 松本洋一郎.

2007. 183-184.

研究成果: 会議への寄与タイプ論文

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abstract = "High Intensity Focused Ultrasound (HIFU) therapy has been developed for the treatment of deeply-placed cancer such as the liver and brain cancer. Problems are the displacement of focal point due to the reflection and refraction of ultrasound at the interfaces of bones and the attenuation of ultrasound due to the skins, fat and tissues. To minimize the invasive region of tissues by HIFU, the numerical simulation is available for the. prediction of the treatment of tissues. The development of the numerical simulation of ultrasound propagation through the voxel modeled body based on the MRI and CT data is reported. The results of the three-dimensional computation show the displacement of focal point for the ultrasound of 1MHz through the bone plate in water.",
author = "浩平 沖田 and 謙二 小野 and 周 高木 and 洋一郎 松本",
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AU - 沖田, 浩平

AU - 小野, 謙二

AU - 高木, 周

AU - 松本, 洋一郎

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