Multileaf collimator
First Claim
1. A collimator for a beam of penetrating radiation emitted from a substantially point source of radiation, said collimator comprising(a) first and second pluralities of adjacent pairs of wedge-shaped leaves, said first and said second pluralities being disposed in opposition,wherein adjacent leaves of each of said first and second pluralities are disposed side-by-side in a fan-shaped configuration, said configuration converging substantially toward an apex at an effective point location of the source of radiation, andwherein each of said wedge-shaped leaves is disposed for translational displacement in a direction transverse to radiation from the source of radiation on a first support structure, said leaves of each pair being independently displaced toward and away from one another,(b) bearing means disposed between each leaf and said support structure for bearing said leaf,(c) motive means for displacing each leaf independently of one another,(d) readout means for determining position of each of said leaves,(e) a first pair of opposed block diaphragm leaves disposed in said radiation at a side of said first and second pluralities opposite to said source of radiation, said first pair of opposed block diaphragm leaves being disposed on a second support structure for independent translational displacement toward and away from each other in a first direction transverse to said radiation,(f) a second pair of opposed block diaphragm leaves disposed in said radiation at said side of said first and second pluralities opposite to said source of radiation, and second pair of opposed block diaphragm leaves being disposed on a third support structure for independent translational displacement toward and away from each other in a second direction transverse to said radiation, said second direction being at right angles to said first direction, and(g) displacement means for moving each of said first pair of opposed block diaphragm leaves and said second pair of opposed block diaphragm leaves respectively toward and away from each other,wherein the inner end surface of one of said first and second pairs of opposed block diaphragm leaves are planar, and wherein said translational displacement of said one of said first and second pairs of opposed block diaphragm leaves includes a rotational displacement so that said planar end surfaces are maintained parallel to beams of said radiation for all displacement positions of said one of said first and second pairs of opposed block diaphragm leaves.
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Accused Products
Abstract
A collimator is described for a shielded effective point source of penetrating radiation, e.g. a radiotherapy machine which includes, after a primary collimator 16, a succession of a multileaf collimator 17, and a first and a second pair of independently adjustable block diaphragm leaves 30, 31, and 35, 36 at right angles to each other. By using rectilinear displacement of the multileaf collimator leaves 18 and the block diaphragm leaves 30, 31, a compact arrangement can be provided which fits into a standard RT collimator head. By curving the inner edges of the leaves to be tangential to the boundary ray an optimally reduced penumbra can be achieved. The block diaphragms enable the radiation leakage found in prior multileaf collimators to be minimized for small and off center irradiation patterns.
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Citations
13 Claims
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1. A collimator for a beam of penetrating radiation emitted from a substantially point source of radiation, said collimator comprising
(a) first and second pluralities of adjacent pairs of wedge-shaped leaves, said first and said second pluralities being disposed in opposition, wherein adjacent leaves of each of said first and second pluralities are disposed side-by-side in a fan-shaped configuration, said configuration converging substantially toward an apex at an effective point location of the source of radiation, and wherein each of said wedge-shaped leaves is disposed for translational displacement in a direction transverse to radiation from the source of radiation on a first support structure, said leaves of each pair being independently displaced toward and away from one another, (b) bearing means disposed between each leaf and said support structure for bearing said leaf, (c) motive means for displacing each leaf independently of one another, (d) readout means for determining position of each of said leaves, (e) a first pair of opposed block diaphragm leaves disposed in said radiation at a side of said first and second pluralities opposite to said source of radiation, said first pair of opposed block diaphragm leaves being disposed on a second support structure for independent translational displacement toward and away from each other in a first direction transverse to said radiation, (f) a second pair of opposed block diaphragm leaves disposed in said radiation at said side of said first and second pluralities opposite to said source of radiation, and second pair of opposed block diaphragm leaves being disposed on a third support structure for independent translational displacement toward and away from each other in a second direction transverse to said radiation, said second direction being at right angles to said first direction, and (g) displacement means for moving each of said first pair of opposed block diaphragm leaves and said second pair of opposed block diaphragm leaves respectively toward and away from each other, wherein the inner end surface of one of said first and second pairs of opposed block diaphragm leaves are planar, and wherein said translational displacement of said one of said first and second pairs of opposed block diaphragm leaves includes a rotational displacement so that said planar end surfaces are maintained parallel to beams of said radiation for all displacement positions of said one of said first and second pairs of opposed block diaphragm leaves.
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9. A radiation source for producing a beam of penetrating radiation having an adjustable boundary comprising
a shielded radiation point type effective source of penetrating radiation, and a collimator including (a) first and second pluralities of adjacent pairs of wedge-shaped leaves, said first and said second pluralities being disposed in opposition, wherein adjacent leaves of each of said first and second pluralities are disposed side-by-side in a fan-shaped configuration, said configuration converging substantially toward an apex at an effective point location of the source of radiation, and wherein each of said wedge-shaped leaves is disposed for translational displacement in a direction transverse to radiation from the source of radiation on a first support structure, said leaves of each pair being independently displaced toward and away from one another, (b) bearing means disposed between each leaf and said support structure for bearing said leaf, (c) motive means for displacing each leaf independently of one another, (d) readout means for determining position of each of said leaves, (e) a first pair of opposed block diaphragm leaves disposed in said radiation at a side of said first and second pluralities opposite to said source of radiation, said first pair of opposed block diaphragm leaves being disposed on a second support structure for independent translational displacement toward and away from each other in a first direction transverse to said radiation, (f) a second pair of opposed block diaphragm leaves disposed in said radiation at said side of said first and second pluralities opposite to said source of radiation, said second pair of opposed block diaphragm leaves being disposed on a third support structure for independent translational displacement toward and away from each other in a second direction transverse to said radiation, said second direction being at right angles to said first direction, and (g) displacement means for moving each of said first pair of opposed block diaphragm leaves and said second pair of opposed block diaphragm leaves respectively toward and away from each other, wherein the inner end surfaces of one of said first and second pairs of opposed block diaphragm leaves are planar, and wherein said translational displacement of said one of said first and second pairs of opposed block diaphragm leaves includes a rotational displacement so that said planar end surfaces are maintained parallel to beams of said radiation for all displacement positions of said one of said first and second pairs of opposed block diaphragm leaves.
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13. A radiotherapy machine comprising
a radiation source for producing a beam of penetrating radiation having an adjustable boundary, said radiation source including a shielded radiation point type effective source of penetrating radiation, and a collimator including (a) first and second pluralities of adjacent pairs of wedge-shaped leaves, said first and said second pluralities being disposed in opposition, wherein adjacent leaves of each of said first and second pluralities are disposed side-by-side in a fan-shaped configuration, said configuration converging substantially toward an apex at an effective point location of the source of radiation, and wherein each of said wedge-shaped leaves is disposed for translational displacement in a direction transverse to radiation from the source of radiation on a first support structure, said leaves of each pair being independently displaced toward and away from one another, (b) bearing means disposed between each leaf and said support structure for bearing said leaf, (c) motive means for displacing each leaf independently of one another, (d) readout means for determining position of each of said leaves, (e) a first pair of opposed block diaphragm leaves disposed in said radiation at a side of said first and second pluralities opposite to said source of radiation, said first pair of opposed block diaphragm leaves being disposed on a second support structure for independent translational displacement toward and away from each other in a first direction transverse to said radiation, (f) a second pair of opposed block diaphragm leaves disposed in said radiation at said side of said first and second pluralities opposite to said source of radiation, said second pair of opposed block diaphragm leaves being disposed on a third support structure for independent translational displacement toward and away from each other in a second direction transverse to said radiation, said second direction being at right angles to said first direction, and (g) displacement means for moving each of said first pair of opposed block diaphragm leaves and said second pair of opposed block diaphragm leaves respectively toward and away from each other, wherein the inner end surfaces of one of said first and second pairs of opposed block diaphragm leaves are planar, and wherein said translational displacement of said one of said first and second pairs of opposed block diaphragm leaves includes a rotational displacement so that said planar end surfaces are maintained parallel to beams of said radiation for all displacement positions of said one of said first and second pairs of opposed block diaphragm leaves.
Specification