Medical imaging device for providing an image representation supporting in positioning an intervention device

The invention claimed is: 1. A medical imaging device for providing an image representation supporting positioning of an intervention device in a region of interest during an intervention procedure, the medical imaging device comprising: (i) means for acquiring a pre-live anatomy image including the region of interest; (ii) means for acquiring a first live anatomy image including the region of interest using a live image acquisition device comprising an adjustable collimator device with the collimator device being in previously set settings; (iii) means for identifying or receiving a location of the jute device, within the first live anatomy image; (iv) means for adjusting settings of the collimator device based on the identified location of the intervention device for subsequently acquiring a further live anatomy image including the region of interest using the first live image acquisition device with the collimator device being in the adjusted settings; (v) means for acquiring a second live anatomy image including the region of interest using the collimator device with adjusted settings; (vi) means for providing the image representation by merging information from the live anatomy image into the pre-live anatomy image. 2. The device of claim 1 , further including: (vii) means for merging the live anatomy image and the pre-live anatomy image such that in the provided image representation a region adjacent to the location of the identified intervention device is represented mainly based on the live anatomy image and a region distant to the location of the identified intervention device is represented mainly based on the pre-live anatomy image. 3. The device of claim 1 , wherein functions (ii) to (vi) are continuously repeated for providing a sequential image representation. 4. The device of claim 3 , further including: means for identifying a location of the device within the second live anatomy image; wherein the means for adjusting settings of the collimator based on the location of the interventional device in the second live anatomy image, adjusts the settings such that the acquiring of the second and third live anatomy images is restricted to a partial non-occluded area of the region of interest adjacent to the location of the identified intervention device. 5. The device of claim 1 , wherein the means for acquiring the pre-live and live images include an X-ray imaging device, wherein the collimator device comprises at least one of an X-ray absorbing device and an X-ray attenuating device for locally reducing X-radiation flow and wherein the settings of the collimator device relate to a positioning of the at least one of the X-ray absorbing device and an X-ray attenuating device. 6. The device of claim 1 , wherein, the identifying means further identifies a location of the intervention device includes predicting a future location of the intervention device based on current location parameters and motion parameters. 7. The device of claim 1 , wherein the settings adjusting means includes at least one of a spatial and a temporal transformation of the pre-live anatomy image and the live anatomy image before the merging. 8. The device of claim 1 , wherein the pre-live anatomy image acquiring means acquires the pre-live image with a higher image contrast than the live anatomy images. 9. The device of claim 1 , wherein the pre-live image is an angiography image. 10. The device of claim 1 , wherein the first and second live images are fluoroscopy images. 11. The device of claim 1 , wherein the locating means locates the intervention device based on analyzing location information, shape information and radiometric content comprised in the live anatomy image. 12. A medical imaging device according to claim 1 wherein: the pre-live image acquisition means is configured for acquiring high-contrast images; the live image acquisition means is configured for acquiring a series of low-contrast images, the live image acquisition means comprising an adjustable collimator device; a display configured to display the image representation provided by the image representation providing means. 13. A medical imaging method for providing an image representation supporting positioning of an intervention device in a region of interest during an intervention procedure, the medical imaging method including the following steps: (i) from a pre-live image acquisition device, acquiring a pre-live anatomy image representing the region of interest; (ii) from a live image acquisition device having an adjustable collimator device, acquiring a first live anatomy image representing the region of interest; (iii) identifying a location of the intervention device within the first live image with the collimator device being in previously set setting; (iv) adjusting the setting of the collimator device based on the identified location of the intervention device; (v) subsequently acquiring a second live anatomy image representing the region of interest using the live image acquisition device with in the adjusted settings; (vi) sequentially merging information from the first and second live anatomy images into the pre-live anatomy image to generate a sequence of image representations. 14. A non-transitory computer-readable medium having stored thereon a computer program which, when executed on a computing device, performs the method of claim 13 . 15. A medical imaging device configured to display a sequence of image representations supporting positioning of an intervention device in a region of interest during an intervention procedure, the medical imaging device including: a processor controlled by software carried in a computer-readable memory to: (i) receive a pre-live anatomy image including the region of interest, (ii) receive a sequence live anatomy images including the region of interest from a live image acquisition device including an adjustable collimator device, (iii) receive an identification of a location of the intervention device in a first live anatomy image of the sequence of live anatomy images with the collimator device in a previous setting, (iv) determine an adjustment to the setting of the collimator device based on the identified location of the intervention device, (v) subsequently receive a further live anatomy image including the region of interest using the adjusted collimator setting, (vi) sequentially merge information from the first and subsequent live anatomy images into the pre-live anatomy image to form the sequence of image representations, and a display device configured to display the sequence of image representations. 16. The device of claim 15 , wherein merging the information from the first and subsequent live images into the pre-live image includes operating on one of the pre-live and live images with a spatio-temporal transform.