Movable miniature multi-leaf collimator
First Claim
1. A linear accelerator system for applying radiation treatment, which comprises:
- a linear accelerator adapted to provide an output beam of radiation having a radiation out field;
a first multi-leaf collimator connected to the linear accelerator and having multiple leaves being relatively movable to define a first variable radiation beam field from radiation emitted from the linear accelerator; and
a second multi-leaf collimator connected to the linear accelerator and having multiple leaves being relatively movable independent of the first moving multi-leaf collimator to define a second variable radiation beam field from radiation emitted from the linear accelerator wherein a first predetermined size beam dosage of radiation may be delivered to a target treatment site by the linear actuator as defined by the first multi-leaf collimator and thereafter the first multi-leaf collimator is retracted and a second predetermined size beam dosage of radiation, different from the first predetermined size beam, may be delivered to the target treatment site as defined by the second multi-leaf collimator.
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Accused Products
Abstract
A method and system for shaping a beam from a radiation delivery device includes a moving miniature multi-leaf collimator which can be moved into the field of radiation from the radiation device to shape the beam or moved out of the radiation field of the radiation device so that a second collimator can shape the beam. The movable miniature multi-leaf collimator comprises opposing banks of movable leaves to form a conformal shape when the collimator is within the radiation field. A translation or rotation mechanism can move the left and right leaf banks at the collimator away from and displaced significantly from the radiation beam of the radiation delivery device so that they will not intercept the radiation field. A second collimator device is then used to produce another independent beam shaping within the radiation field of the radiation device. The miniature multi-leaf collimator is adapted to be so displaced into and away from the radiation field without being physically removed from the radiation device.
145 Citations
9 Claims
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1. A linear accelerator system for applying radiation treatment, which comprises:
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a linear accelerator adapted to provide an output beam of radiation having a radiation out field;
a first multi-leaf collimator connected to the linear accelerator and having multiple leaves being relatively movable to define a first variable radiation beam field from radiation emitted from the linear accelerator; and
a second multi-leaf collimator connected to the linear accelerator and having multiple leaves being relatively movable independent of the first moving multi-leaf collimator to define a second variable radiation beam field from radiation emitted from the linear accelerator wherein a first predetermined size beam dosage of radiation may be delivered to a target treatment site by the linear actuator as defined by the first multi-leaf collimator and thereafter the first multi-leaf collimator is retracted and a second predetermined size beam dosage of radiation, different from the first predetermined size beam, may be delivered to the target treatment site as defined by the second multi-leaf collimator. - View Dependent Claims (2, 3, 4)
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5. A linear accelerator system for applying radiation treatment, which comprises:
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a linear accelerator adapted to provide an output beam of radiation having a radiation out field;
a first multi-leaf collimator connected to the linear accelerator and having multiple leaves being relatively movable to define a first variable radiation beam field from radiation emitted from the linear accelerator;
a first controller operatively connected to the first multi-leaf collimator to selectively configure an aperture of the first multi-leaf collimator;
a second multi-leaf collimator connected to the linear accelerator and having multiple leaves being relatively movable independent of the first moving multi-leaf collimator to define a second variable radiation beam field from radiation emitted from the linear accelerator;
a second controller operatively connected to the second multi-leaf collimator to selectively configure an aperture of the second multi-leaf collimator;
wherein during a single treatment session, a first predetermined size beam dosage of radiation may be delivered to a target treatment site by the linear actuator as defined by the first multi-leaf collimator and thereafter the first multi-leaf collimator is retracted and a second predetermined size beam dosage of radiation, different from the first predetermined size beam, may be delivered to the target treatment site as defined by the second multi-leaf collimator. - View Dependent Claims (6, 7, 8)
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9. A method of applying different shaped radiation beams to a patient during a single treatment session with a linear accelerator comprising the steps of:
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defining a first radiation beam field by adjusting an aperture of a first movable multi-leaf collimator connected to a linear accelerator in between a radiation source of the linear accelerator and a patient;
delivering a first radiation treatment to a target site of a patient in the first radiation beam field;
defining a second radiation beam field, differing in size from the first radiation beam field, by adjusting an aperture of a second movable multi-leaf collimator connected to the linear actuator, and independently controlled from the first movable multi-leaf collimator in between the radiation source and the patient; and
delivering a second radiation beam field to the target site of the patient in the second radiation beam field during the same treatment session as the first radiation beam field.
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Specification