Magnetic resonance guided therapy with interleaved scanning

The invention claimed is: 1. A medical apparatus comprising: a radiotherapy apparatus configured to radiate during a treatment fraction a target volume undergoing motion during a treatment fraction; a magnetic resonance scanner configured to acquire motion tracking magnetic resonance data and image magnetic resonance data from a subject of which at least a part is located within an imaging volume undergoing subject motion, wherein the target volume is within the imaging volume, the motion tracking magnetic resonance data having a higher temporal resolution than the image magnetic resonance data and being indicative of a path of target volume positions during the subject motion; a memory configured to store machine executable instructions; and a processor configured to execute the machine executable instructions, wherein executing the machine readable instructions causes the processor to receive a treatment plan specifying a radiation dose distribution to be delivered to the target volume within the imaging volume and a dose rate of radiation emitted by the radiotherapy apparatus, and to repeatedly during a treatment fraction: acquire the higher temporal resolution motion tracking magnetic resonance data and the image magnetic resonance data from the imaging volume from a subject undergoing subject motion by controlling the magnetic resonance scanner with an interleaved magnetic resonance pulse sequence that interleaves the higher temporal resolution motion tracking magnetic resonance data and the image magnetic resonance data during the magnetic resonance pulse sequence; control the radiotherapy apparatus to radiate the target volume in the imaging volume in accordance with the treatment plan; calculate a dose distribution map descriptive of a radiation dose received by the target volume from the radiotherapy apparatus reconstruct a higher resolution diagnostic image using the lower temporal resolution image magnetic resonance data; control a display apparatus to display the higher resolution diagnostic image and the dose distribution map descriptive of a radiation dose received by the target volume and the image volume; receive treatment plan update data from a user interface; and update the treatment plan in accordance with the treatment plan update data. 2. The medical apparatus of claim 1 , wherein the treatment plan update data comprises a request to automatically update the treatment plan using the dose distribution map, wherein the treatment plan is updated at least partially in accordance with the dose distribution map. 3. The medical apparatus of claim 1 , wherein the treatment plan is updated during radiation of the target volume according to the treatment plan. 4. The medical apparatus of claim 2 , further comprises a multi-leaf collimator for collimating a radiation beam of the therapeutic apparatus to an irradiation area in match with the target volume, wherein the treatment plan update data comprises a request to automatically update the treatment plan by adjusting the multi-leaf collimator to match the target volume using the motion tracking magnetic resonance data. 5. The medical apparatus of claim 1 , wherein the processor is configured to control the magnetic resonance scanner to continuously monitor a position of the target volume during a treatment fraction. 6. The medical apparatus of claim 4 , wherein the dose distribution map and the diagnostic image are displayed side by side. 7. The medical apparatus of claim 1 , wherein the high temporal resolution images of the dose distribution map and the high resolution diagnostic image are displayed overlaid. 8. The medical apparatus of claim 6 , wherein the execution of the instructions further causes the processor to acquire the higher temporal resolution image magnetic resonance data during a pre-determined part of a cyclic motion of the subject by controlling the magnetic resonance scanner. 9. The medical apparatus of claim 4 , wherein the update of the treatment plan occurs during radiation of the target volume based on a current position of the target volume. 10. The medical apparatus of claim 9 , wherein the radiotherapy apparatus comprises a linear accelerator (LINAC) configured to irradiate the target volume. 11. A non-transitory computer-readable medium carrying machine executable instructions for execution by a processor controlling a medical apparatus, wherein the medical apparatus comprises a radiotherapy apparatus for radiating a target volume; a magnetic resonance module for acquiring two types of data namely motion tracking magnetic resonance data and image magnetic resonance data from a subject of which at least a part is located within an imaging volume, wherein the target volume is within the imaging volume; wherein execution of the machine executable instructions causes the processor to receive a treatment plan specifying the target volume, the imaging volume and a dose rate of radiation emitted by the radiotherapy apparatus, and in each of a plurality of fractions to repeatedly: acquire the motion tracking magnetic resonance data and the image magnetic resonance data by controlling the magnetic resonance module with an interleaved pulse sequence which interleaves motion tracking magnetic resonance data acquisition with image magnetic resonance data acquisition to continuously monitor a motion path of the target volume, the motion tracking magnetic resonance data has a higher temporal resolution than the image magnetic resonance data; control the radiotherapy apparatus to radiate the target volume in accordance with the treatment plan; calculate a radiation dose distribution map descriptive of a radiation dose received by the subject from the radiotherapy apparatus; reconstruct a diagnostic image using the lower temporal resolution image magnetic resonance data; control a display to display the diagnostic image and the dose distribution map; receive treatment plan update data from a user interface; and update the treatment plan in accordance with the treatment plan update data. 12. A method of controlling a medical apparatus, wherein the medical apparatus comprises a radiotherapy apparatus configured to irradiate a target volume; a magnetic resonance scanner configured to acquire motion tracking magnetic resonance data and image magnetic resonance data from a subject of which at least a part is located within an imaging volume, wherein the target volume is within the imaging volume, wherein the motion tracking magnetic resonance data has a higher temporal resolution than the image magnetic resonance data, wherein the method comprises receiving a treatment plan specifying the target volume within the imaging volume and a dose rate of radiation emitted by the radiotherapy apparatus, and in each of a plurality of fractions repeatedly: controlling the radiotherapy apparatus to radiate the target volume in accordance with the treatment plan; acquiring in an interleaved manner the higher temporal resolution motion tracking magnetic resonance data and the image magnetic resonance data by controlling the magnetic resonance scanner with an interleaved magnetic resonance pulse sequence; calculating a dose distribution map descriptive of a radiation dose received by the subject from the radiotherapy apparatus; reconstructing a diagnostic image using the image magnetic resonance data; controlling a display to concurrently display the diagnostic image and the dose distribution map; receiving treatment plan update data from a user interface; and updating the treatment plan in accordance with the treatment plan update data during the radiation of the target volume. 13.