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Apparatus and method pertaining to dynamic use of a radiation therapy collimator

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • A61N-005/10
출원번호 US-0564544 (2009-09-22)
발명자 / 주소
  • Nord, Janne
  • Peltola, Jarkko
출원인 / 주소
  • Varian Medical Systems International AG
대리인 / 주소
    Fitch, Even, Tabin & Flannery
인용정보 피인용 횟수 : 118  인용 특허 : 0

초록

A radiation-therapy treatment-facilitation platform (200) provides (101) treatment-plan information regarding a plurality of different angles of exposure to employ when administering radiation therapy to a given target volume (203). This treatment-plan information is then used (103) to determine cor

대표청구항

We claim: 1. A method for use in administering radiation therapy to a target volume of a patient using a radiation-therapy beam and differing angles of exposure in conjunction with a multileaf collimator, comprising:at a radiation-therapy treatment-facilitation platform:providing treatment-plan info

이 특허를 인용한 특허 (118)

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  43. Haider, Sultan, Contour collimator and adaptive filter with electroactive polymer elements and associated method.
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  50. Lee, W. Davis; Amato, Mark R.; Penfold, Scott, Dynamic energy control of a charged particle imaging/treatment apparatus and method of use thereof.
  51. Balakin, Vladimir, Elongated lifetime X-ray method and apparatus used in conjunction with a charged particle cancer therapy system.
  52. Balakin, Vladimir, Fast magnet method and apparatus used in conjunction with a charged particle cancer therapy system.
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  64. Balakin, Vladimir, Intensity modulated three-dimensional radiation scanning method and apparatus.
  65. Gall, Kenneth P.; Zwart, Gerrit Townsend, Interrupted particle source.
  66. Lee, W. Davis; Amato, Mark R.; Bennett, James P., Ion beam extraction apparatus and method of use thereof.
  67. Balakin, Vladimir, Ion beam focusing lens method and apparatus used in conjunction with a charged particle cancer therapy system.
  68. Balakin, Vladimir, Ion source method and apparatus used in conjunction with a charged particle cancer therapy system.
  69. Balakin, Vladimir, Magnetic field control method and apparatus used in conjunction with a charged particle cancer therapy system.
  70. Balakin, Vladimir, Magnetic field control method and apparatus used in conjunction with a charged particle cancer therapy system.
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  73. Zwart, Gerrit Townsend; Van der Laan, Jan; Gall, Kenneth P.; Sobczynski, Stanislaw P., Magnetic shims to alter magnetic fields.
  74. O'Neal, III, Charles D.; Molzahn, Adam C.; Vincent, John J., Matching a resonant frequency of a resonant cavity to a frequency of an input voltage.
  75. Balakin, Vladimir, Method and apparatus coordinating synchrotron acceleration periods with patient respiration periods.
  76. Balakin, Vladimir, Method and apparatus for intensity control of a charged particle beam extracted from a synchrotron.
  77. Boettger, Thomas; Fieres, Johannes; Gemmel, Alexander; Kawrakow, Iwan, Method for determining a 4D plan for carrying out intensity-modulated radiation therapy.
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  80. Balakin, Vladimir, Multi-axis/multi-field charged particle cancer therapy method and apparatus.
  81. Balakin, Vladimir, Multi-axis/multi-field charged particle cancer therapy method and apparatus.
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  83. Balakin, Vladimir, Multi-field charged particle cancer therapy method and apparatus.
  84. Balakin, Vladimir Egorovich, Multi-field charged particle cancer therapy method and apparatus.
  85. Balakin, Vladimir Yegorovich, Multi-field charged particle cancer therapy method and apparatus.
  86. Balakin, Vladimir, Multi-field charged particle cancer therapy method and apparatus coordinated with patient respiration.
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  88. Lee, W. Davis; Reno, Jillian; Bennett, James P., Multiple beamline position isocenterless positively charged particle cancer therapy apparatus and method of use thereof.
  89. Balakin, Vladimir, Negative ion beam source vacuum method and apparatus used in conjunction with a charged particle cancer therapy system.
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  93. Bouchet, Lionel G.; Rakes, Richard Bruce, Patient positioning system.
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  95. Sliski, Alan; Gall, Kenneth, Programmable radio frequency waveform generator for a synchrocyclotron.
  96. Balakin, Vladimir, Proton beam positioning verification method and apparatus used in conjunction with a charged particle cancer therapy system.
  97. Balakin, Vladimir, Proton tomography apparatus and method of operation therefor.
  98. Balakin, Vladimir, RF accelerator method and apparatus used in conjunction with a charged particle cancer therapy system.
  99. Spotts, Stephen L.; Lee, W. Davis; Bennett, James P., Redundant charged particle state determination apparatus and method of use thereof.
  100. Haider, Sultan, Rotatable contour collimator having a liquid impermeable to X-rays.
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  103. Lee, W. Davis; Amato, Mark R.; Spotts, Stephen L.; Bennett, James P., Scintillation array apparatus and method of use thereof.
  104. Balakin, Vladimir, Semi-vertical positioning method and apparatus used in conjunction with a charged particle cancer therapy system.
  105. Balakin, Vladimir, Synchronized X-ray / breathing method and apparatus used in conjunction with a charged particle cancer therapy system.
  106. Balakin, Vladimir, Synchrotron energy control apparatus and method of use thereof.
  107. Balakin, Vladimir, Synchrotron power cycling apparatus and method of use thereof.
  108. Balakin, Vladimir, Synchrotron power supply apparatus and method of use thereof.
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  113. Balakin, Vladimir, Treatment delivery control system and method of operation thereof.
  114. Spotts, Stephen L., Treatment delivery control system and method of operation thereof.
  115. Penfold, Scott; Lee, W. Davis; Amato, Mark R., X-ray detector for proton transit detection apparatus and method of use thereof.
  116. Balakin, Vladimir Yegorovich, X-ray method and apparatus used in conjunction with a charged particle cancer therapy system.
  117. Balakin, Vladimir, X-ray tomography method and apparatus used in conjunction with a charged particle cancer therapy system.
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