Dosimetric technique for stereotactic radiosurgery same
First Claim
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1. A method for patient care comprising the steps of:
- (a) localizing a target within a patient;
(b) subjecting the patient to an imaging system with a display to generate patient reference data in the form of x,y,z coordinates of the target and adjacent portions of the patient;
(c) supplying the patient reference data to a dosimetric computer connected to said display;
(d) inputting into the dosimetric computer a proposed plan for applying at least one beam of radiation to the patient from at least one source and from at least two different directions;
(e) selecting a plane of the patient for display of a distribution of radiation which would result from the proposed plan;
(f) displaying on said display a selected plane patient image corresponding to the selected plane by operation of the imaging system;
(g) determining the distribution of radiation within the selected plane by calculating the radiation dose at points spaced by distance D1 within a fine dose grid relatively close to the target and calculating the radiation dose at points spaced by distance D2, greater than D1, within a coarse dose grid outside said fine dose grid, the dosimetric computer performing the calculations for the radiation dose at a greater density of points in the fine dose grid and at a lower density of points in the coarse dose grid; and
(h) displaying data on the display from the radiation dose calculations.
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Abstract
Stereotactic radiosurgery is facilitated by a technique for computing the doses at various points within the patient'"'"'s body. In particular, the doses are computed at a relatively high density of points within a fine dose grid and at a relatively low density of points within a coarse dose grid. In that fashion, the user can quickly obtain necessary information about the radiation dose distribution before implementation of a proposed treatment plan. An advantageous technique of locating the intersection between the radiation beam and the contour or other surface of the patient is also provided. The method is especially well suited for use with a particular structure which allows one to utilize relatively narrow beam widths as a result of great mechanical accuracy.
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Citations
20 Claims
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1. A method for patient care comprising the steps of:
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(a) localizing a target within a patient; (b) subjecting the patient to an imaging system with a display to generate patient reference data in the form of x,y,z coordinates of the target and adjacent portions of the patient; (c) supplying the patient reference data to a dosimetric computer connected to said display; (d) inputting into the dosimetric computer a proposed plan for applying at least one beam of radiation to the patient from at least one source and from at least two different directions; (e) selecting a plane of the patient for display of a distribution of radiation which would result from the proposed plan; (f) displaying on said display a selected plane patient image corresponding to the selected plane by operation of the imaging system; (g) determining the distribution of radiation within the selected plane by calculating the radiation dose at points spaced by distance D1 within a fine dose grid relatively close to the target and calculating the radiation dose at points spaced by distance D2, greater than D1, within a coarse dose grid outside said fine dose grid, the dosimetric computer performing the calculations for the radiation dose at a greater density of points in the fine dose grid and at a lower density of points in the coarse dose grid; and (h) displaying data on the display from the radiation dose calculations. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for patient care comprising the steps of:
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(a) localizing a target within a patient; (b) subjecting the patient to an imaging system with a display to generate patient reference data in the form of x,y,z coordinates of the target and adjacent portions of the patient; (c) supplying the patient reference data to a dosimetric computer connected to said display; (d) inputting into the dosimetric computer a proposed plan for applying at least one beam of radiation to the patient from at least one source and from at least two different directions; wherein the proposed plan includes at least a first arc through which the beam is applied to the patient, said first arc being in a first arc plane, and wherein said inputting step includes the substeps of; selecting the first arc plane; displaying a first arc plane patient image corresponding to the first arc plane on the display; creating a bit map of pixels on the display to said x,y,z coordinates of the patient reference data; identifying each pixel which makes up an outside contour of the patient; storing the beginning and end of the first arc; drawing a line between the source at a given location and an isocenter within the target; finding the intersection pixel of the line and the pixels corresponding to the outside contour; referencing the bit map to identify the x,y,z coordinates of the intersection pixel as a beam entrance point; repeating the drawing, finding, and referencing substeps to identify additional beam entrance points corresponding to different source locations; and storing the beam entrance points, these beam entrance points corresponding to the center of the beam at different source locations. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for patient care comprising the steps of:
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(a) localizing a target within a patient; (b) subjecting the patient to an imaging system with a display to generate patient reference data in the form of x,y,z coordinates of the target and adjacent portions of the patient; (c) supplying the patient reference data to a dosimetric computer connected to said display; (d) inputting into the dosimetric computer a proposed plan for applying at least one beam of radiation to the patient from at least one source and from at least two different directions; (e) selecting a plane of the patient for display of a distribution of radiation which would result from the proposed plan; (f) displaying on said display a patient image corresponding to the selected plane by operation of the imaging system; (g) determining the distribution of radiation within the selected plane by calculating the radiation dose at points spaced by distance D1 within a fine dose grid relatively close to the target and calculating the radiation dose at points spaced by distance D2, greater than D1, within a coarse dose grid outside said fine dose grid, the dosimetric computer performing the calculations for the radiation dose at a greater density of points in the fine dose grid and at a lower density of points in the coarse dose grid; and (h) outputting data from the radiation dose calculations. - View Dependent Claims (20)
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Specification
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Current AssigneeUniversity of Florida Research Foundation, Incorporated (State University System of Florida)
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Original AssigneeUniversity of Florida (State University System of Florida)
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InventorsBova, Frank J., Friedman, William A.
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Primary Examiner(s)Cohen, Lee S.
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Assistant Examiner(s)Pfaffle, Krista M.
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Application NumberUS07/353,816Time in Patent Office775 DaysField of Search128/653 R, 128/654, 128/659, 378/65, 606/130, 364/413.14, 364/413.15, 364/413.16, 364/413.22, 364/413.26US Class Current600/427CPC Class CodesA61B 2017/00707 Dummies, phantoms; Devices ...A61B 2017/00712 simulating mathematical pro...A61B 2090/101 for stereotaxic radiosurgeryA61B 2090/363 Use of fiducial pointsA61B 6/506 for diagnosis of nervesA61N 5/10 X-ray therapy; Gamma-ray th...A61N 5/103 Treatment planning systemsA61N 5/1031 using a specific method of ...A61N 5/1048 Monitoring, verifying, cont...A61N 5/1049 for verifying the position ...
