Spectral imaging phantom and method

1 . A spectral imaging phantom comprising a phantom body including: a low attenuation material; and a first insert comprising a material comprising or corresponding to a material with a first Compton scatter and a first photo-electric absorption and a second insert with a second Compton scatter and a second photo-electric absorption, wherein a ratio of the first photo-electric absorption and the first Compton scatter is selected to be different from a ratio of the first photo-electric absorption and the first Compton scatter. 2 . The spectral imaging phantom according to claim 1 , wherein the first insert and the second insert have substantially the same attenuation profile, preferably exactly the same attenuation profile. 3 . The spectral imaging phantom according to claim 1 , wherein the low attenuation material is a water equivalent material. 4 . The spectral imaging phantom according to claim 1 , including at least one further insert comprising a material comprising or corresponding to a contrast agent at a first concentration, a further contrast agent at a first and/or a further concentration and/or a further material with a further Compton scatter and a further photo-electric absorption, including combinations thereof. 5 . The spectral imaging phantom according to claim 1 , wherein the first insert comprises a material comprising or corresponding to iodine or gadolinium contrast agents in one or more different concentrations or Teflon, PMMA, Polycarbonate, Polyethylene, Sodium Hydrogen Phosphate or Potassium Hydrogen Phosphate. 6 . The spectral imaging phantom according to claim 4 , wherein the at least one further insert comprise iodine or gadolinium contrast agents in one or more different concentrations and/or Teflon, PMMA, Polycarbonate, Polyethylene, Sodium Hydrogen Phosphate or Potassium Hydrogen Phosphate. 7 . The spectral imaging phantom according to claim 1 , wherein the at least first insert is chosen such that it mimics attenuation characteristics of a part of a subject to be imaged; and for the spectral imaging phantom, wherein the at least one further insert is chosen such that it mimics attenuation characteristics of a part of the subject to be imaged. 8 . The spectral imaging phantom according to claim 1 , wherein the phantom body has flat shape or an arched shape, such that it can be placed under, on or over a subject to be scanned. 9 . The spectral imaging phantom according to claim 1 , wherein the phantom body has an elongated shape. 10 . The spectral imaging phantom according to claim 1 , wherein the phantom body and inserts are solid. 11 . The spectral imaging phantom according to claim 1 , wherein the inserts are permanently fixed in the phantom body. 12 . The spectral imaging system comprising a spectral x-ray imaging device and a spectral imaging phantom according to claim 1 . 13 . The spectral imaging system according to claim 12 , wherein the spectral imaging phantom is embedded in a subject support of the spectral x-ray imaging device. 14 . The spectral imaging system according to claim 12 , wherein the x-ray imaging device is a spectral computed tomography imaging device. 15 . A spectral imaging method including the steps of: inserting a spectral imaging phantom according to claim 1 in an examination region of a computed tomography imaging device; performing a spectral computed tomography scan including at last a scan of the spectral imaging phantom, thereby obtaining spectral imaging data of at least the spectral computed tomography phantom; using the obtained imaging data of the spectral computed tomography phantom as input for obtaining improved further imaging data of a subject of which a spectral computed tomography scan is performed subsequent to or simultaneous with the spectral computed tomography scan of the spectral imaging phantom. 16 . The spectral imaging method according to claim 15 , wherein the spectral imaging phantom is used as input for obtaining improved image data by using it as input for imaging data correction ( 105 ), for providing a recommendation and/or for further data processing. 17 . The spectral imaging method according to claim 15 , wherein the subject is a patient and further imaging data is obtained of at least an area of interest in or on the patient. 18 . The spectral imaging method according to claim 16 , wherein the spectral scan of the subject is performed simultaneously with the spectral scan of the spectral phantom. 19 . The spectral imaging method according to claim 15 , further comprising the steps of: quantifying a crosstalk in material decomposition of the imaging data; correcting the obtained image data for the quantified crosstalk; and, optionally, determining at least one system parameter and use said at least one system parameter in the correction of the quantified crosstalk. 20 . The spectral imaging method according to claim 15 , further including the steps of: comparing the obtained imaging data of the spectral phantom with reference imaging data, said reference data comprising theoretical data, data measured with other sources, previously measured data of a subject to be imaged, and/or data of the spectral phantom obtained during a previous scan of the spectral phantom, preferably a previous scan shortly after a latest calibration procedure; and providing a recommendation for a special action, for instance a recommendation for performing a new calibration when a difference between the obtained imaging data and the imaging data obtained during or shortly after the latest calibration exceeds a predetermined threshold. 21 . The spectral imaging method according to claim 15 , further including the step of: reconstructing the imaging data by using the obtained imaging data of the spectral imaging phantom as input for a reconstruction algorithm, preferably an iterative reconstruction algorithm.