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Device and methods for adaptive resistance inhibiting inverse compton scattering microbeam and nanobeam radiosurgery
Device and methods for adaptive resistance inhibiting inverse compton scattering microbeam and nanobeam radiosurgery
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机译:自适应电阻抑制逆康普顿散射微束和纳米束放射外科手术的装置和方法
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摘要
This invention relates to adaptive resistance inhibiting 100 to 1,000 Gy, single fraction radiosurgery with inverse Compton scattering gamma ray microbeam and nanobeam. The distance from two adjacent microbeams or the nanobeam generate peak and valley dose. Proliferation of normal tissue's clonogenic cells from low or no dose valley region to peak dose regions makes the normal tissue tolerance to to 100 to 1,000 Gy. The collilinear electron beam and gamma ray microbeam and nanobeam are generated in microfocus carbon tubes in a tissue equivalent primary collimator. Electron beam is absorbed by the tissue equivalent primary collimator. Focusing anode and magnets and multiwalled carbon nanotubes channels the microbeam and nanobeam as focused beams. Methods of spread out or spot scanned or raster scanned collilinear gamma ray microbeam and nanobeam radiosurgery are implemented. Adaptive resistance to cancer treatment is inhibited by inactivation of cancer cell's repair capabilities.
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