Method and magnetic resonance apparatus for quality control in planning radiotherapy of a patient

I claim as my invention: 1. A quality control method for planning radiotherapy of a patient, comprising: providing a computer with magnetic resonance image data acquired from a planning volume of a patient; in said computer, using the magnetic resonance data to generate a first electron density map of said planning volume, said first electron density map having a first value of the electron density for at least one bone region in the planning volume; in said computer, using said first electron density map to calculate a second electron density map, said second electron density map having a second value of the electron density for said at least one bone region, that is reduced with respect to said first value of said electron density for said at least one bone region; providing said computer with an electronic designation of a radiotherapy plan for implementing radiotherapy of a target volume situated in said planning volume; in said computer, using said radiotherapy plan and said first electron density map to determine a first radiation dose distribution in the planning volume; in said computer, using said radiotherapy plan and said second electron density map to determine a second radiation dose distribution in the planning volume; in said computer, comparing said first radiation dose distribution with said second radiation dose distribution to obtain a comparison result; and in said computer, using said comparison result to generate output information related to implementation of said radiotherapy plan, and making an electronic signal representing said output information available from said computer as an output. 2. A method as claimed in claim 1 comprising, in said computer, generating a final radiation therapy plan using only said output information and said magnetic resonance image data acquired from said planning volume. 3. A method as claimed in claim 1 comprising, dependent on said output information, acquiring further planning image data from the patient using a different imaging modality than magnetic resonance imaging, and merging said further planning image data into planning of said radiotherapy of the patient. 4. A method as claimed in claim 1 comprising calculating said second electron density map in said computer by threshold value segmenting of said first electron density map to identify said at least one bone region in said first electron density map. 5. A method as claimed in claim 1 comprising reducing said second value of said electron density in said second electron density map relative to said first value of said electron density of said at least one bone region in said first electron density map by setting said second value of the electron density in said at least one bone region to a value of electron density of soft tissue. 6. A method as claimed in claim 1 wherein said first electron density map comprises at least one air region in said planning volume that has a third electron density value, and calculating said second electron density map using said first electron density map by increasing a fourth value of electron density in said air region relative to said third value. 7. A method as claimed in claim 6 comprising increasing said fourth value of the electron density in said second electron density map relative to said third value of the electron density in said first electron density map by setting the fourth value of the electron density in said at least one air region to a value of electron density of soft tissue. 8. A method as claimed in claim 1 comprising using said output information in said computer to generate a final radiotherapy plan specifically adapted to the patient. 9. A method as claimed in claim 1 comprising providing an electronic designation of a standard radiotherapy plan to said computer, as said radiotherapy plan. 10. A method as claimed in claim 1 comprising comparing said first radiation dose distribution with said second radiation dose distribution in said computer by comparing at least one first radiation dose value in said first radiation dose distribution with at least one second radiation dose value in said second radiation dose distribution. 11. A method as claimed in claim 1 comprising comparing said first radiation dose distribution with said second radiation dose distribution in said computer by comparing a characteristic of a first radiation dose-volume histogram of said first radiation dose distribution with a characteristic of a second radiation dose-volume histogram of said second radiation dose distribution. 12. A method as claimed in claim 1 comprising from said comparison result, calculating a quantitative value in said computer that characterizes the comparison of the first radiation dose distribution with the second radiation dose distribution, and including said quantitative value in said output information. 13. A radiotherapy planning computer, comprising: a processor having an input that receives magnetic resonance image data acquired from a planning volume of a patient; said processor being configured to use the magnetic resonance data to generate a first electron density map of said planning volume, said first electron density map having a first value of the electron density for at least one bone region in the planning volume; said processor being configured to use said first electron density map to calculate a second electron density map, said second electron density map having a second value of the electron density for said at least one bone region, that is reduced with respect to said first value of said electron density for said at least one bone region; said input of said processor also receiving an electronic designation of a radiotherapy plan for implementing radiotherapy of a target volume situated in said planning volume; said processor being configured to use said radiotherapy plan and said first electron density map to determine a first radiation dose distribution in the planning volume; said processor being configured to use said radiotherapy plan and said second electron density map to determine a second radiation dose distribution in the planning volume; said processor being configured to compare said first radiation dose distribution with said second radiation dose distribution to obtain a comparison result; and said processor being configured to use said comparison result to generate output information related to implementation of said radiotherapy plan, and making an electronic signal representing said output information available from said computer as an output. 14. A magnetic resonance apparatus comprising: a magnetic resonance data acquisition scanner; a computer configured to operate the magnetic resonance data acquisition scanner to acquire magnetic resonance image data acquired from a planning volume of a patient; said computer being configured to use the magnetic resonance data to generate a first electron density map of said planning volume, said first electron density map having a first value of the electron density for at least one bone region in the planning volume; said being configured to use said first electron density map to calculate a second electron density map, said second electron density map having a second value of the electron density for said at least one bone region, that is reduced with respect to said first value of said electron density for said at least one bone region; said computer being configured to receive with an electronic designation of a radiotherapy plan for implementing radiotherapy of a target volume situated in said planning volume; said computer being configured to use said radio