The present invention relates to a particle therapy system that comprises a spot scanning system to irradiate with a particle beam a plurality of spots in a layer of a target with prescribed spot doses for each spot of the layer. The therapy system is further adapted to perform multiple paintings of
The present invention relates to a particle therapy system that comprises a spot scanning system to irradiate with a particle beam a plurality of spots in a layer of a target with prescribed spot doses for each spot of the layer. The therapy system is further adapted to perform multiple paintings of the layer and to deliver partial spot doses to selected spots of the layer during each painting time so that each spot of the layer will have received its prescribed dose after completion of the multiple paintings. The therapy system further comprises means for setting the partial spot doses and the number of times that a spot will be selected for irradiation in the course of the multiple paintings to such values that any spot of the layer will never have to be irradiated with a partial dose which would fall below a minimum dose deliverable by the system, and this whatever the number chosen for the number of layer paintings. The invention also relates to a corresponding irradiation method.
대표청구항▼
1. A method for irradiating with a particle beam (50) a plurality of spots in a layer (65) of a target (60), said method comprising the steps of: providing a particle therapy system (10) for irradiating the plurality of spots with the particle beam, said system being only able to irradiate a spot wi
1. A method for irradiating with a particle beam (50) a plurality of spots in a layer (65) of a target (60), said method comprising the steps of: providing a particle therapy system (10) for irradiating the plurality of spots with the particle beam, said system being only able to irradiate a spot with a spot dose which is larger than or equal to a minimum spot dose (Dmin),scanning the particle beam over the layer a prescribed number of layer scanning times (Nlayer_painting),irradiating selected spots of said layer in the course of each said layer scanning time with partial spot doses (Dspot_partial), characterized in that, for each spot of the layer (65), the partial spot doses (Dspot_partial) and a number of times that said spot is to be selected for irradiation (Nspot_painting), are set by a), b) and c):a) making each of the partial spot doses (Dspot_partial) larger or equal to Dmin,b) making the sum of all partial spot doses (Dspot_partial) equal to a prescribed total spot dose (Dspot), andc) making Nspot_painting=Nlayer_painting if Nspot/Nlayer_painting>=Dmin, else making Nspot_painting=Dmin, else making Nspot_painting=Floor (Dspot/Dmin). 3. A method according to any of claim 1 or 2, characterized in that, for each spot of said layer, each of the partial spot doses (Dspot_partial) is set by rule a): a) making Dspot_partial=Dspot/Nspot_painting. 4. A method according to any of claim 1 or 2, characterized in that, for each scanning time of the layer, the following spots of said layer are selected for irradiation with their respective partial spot doses: Layer scanning time #1: all spots having Nspot_painting = 1 to Nlayer_painting,Layer scanning time #2: all spots having Nspot_painting = 2 to Nlayer_painting,Layer scanning time # (Nlayer_painting−1): all spots having Nspot_painting = NLayer_painting − 1 to NLayer_painting, andLayer scanning time #Nlayer_painting: all spots having Nspot_painting= Nlayer_painting. 5. A particle therapy system (10) adapted to irradiate with a particle beam (50) a plurality of spots (70) in a layer (65) of a target (60), said system (10) comprising: means (30) for scanning the particle beam over said layer a prescribed number of layer scanning times (Nlayer_painting),means for irradiating selected spots of said layer with partial spot doses (Dspot_partial) in the course of each said layer scanning time,said system (10) being only able to irradiate a spot with a spot dose which is larger than or equal to a minimum spot dose (Dmin),a controller (45) configured to receive as an input said prescribed number of layer scanning times (Nlayer_painting), and, for each spot (70) of the layer, a corresponding prescribed total spot dose (Dspot), and wherein the controller (45) is configured to determine, for each spot (70) of said layer, the partial spot doses (Dspot_partial) and a number of times that said spot is to be selected for irradiation (Nspot_painting), and wherein the controller (45) is further configured to follow rules a), b) and c):a) each of the partial spot doses (Dspot_partial) is larger or equal to Dmin,b) the sum of all partial spot doses (Dspot_partial) shall be equal to the prescribed total spot dose (Dspot), andc) if Dspot/Nlayer_painting>=Dmin, then Nspot_painting=Nlayer_painting, else Nspot_painting=Dmin, then Nspot_painting=Nlayer_painting, else Nspot_painting=Floor (Dspot/Dmin). 7. A particle therapy system according to any of claim 5 or 6, wherein, the controller is configured to follow rule a): a) Dspot_partial=Dspot/Nspot_painting. 8. A particle therapy system according to any of claim 5 or 6, further comprising means for determining which spots of the layer are to be selected for irradiation with their respective partial spot doses in the course of each scanning time of said layer configure to follow the sequence: Layer scanning time #1: all spots having Nspot_painting = 1 to Nlayer_painting,Layer scanning time #2: all spots having Nspot_painting = 2 to Nlayer_painting,Layer scanning time # (Nlayer_painting−1): all spots having Nspot_painting = NLayer_painting − 1 to NLayer_painting, andLayer scanning time #Nlayer_painting: all spots having Nspot_painting= Nlayer_painting.
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이 특허에 인용된 특허 (2)
Matsuda, Koji; Nakayama, Takahide, Particle beam irradiation apparatus, treatment planning unit, and particle beam irradiation method.
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