A differential phase contrast X-ray imaging system includes an X-ray illumination system, a beam splitter arranged in an optical path of the X-ray illumination system, and a detection system arranged in an optical path to detect X-rays after passing through the beam splitter.

The present invention is directed toward an X-ray scanner that has an electron source and an anode. The anode has a target surface with a series of material areas spaced along it in a scanning direction. The material areas are formed from different materials. The electron source is arranged to direct electrons at a series of target areas of the target surface, in a predetermined order, so as to generate X-ray beams having different energy spectra.

A method of diagnosing a condition of a living subject that uses gadoxeate disodium as a contrast agent for making images such as CT scans of the biliary tree and related anatomical structures. The method uses x-ray radiation generated with excitation voltages in the range of 70 KV to 140 KV. The x-ray radiation is preferably filtered to suppress or practically remove x-rays having energy lower than 50.2 KeV.

A filter is disclosed for the spectral filtration of X-rays emanating from an X-ray source which cross an object under examination and are detected by an X-ray detector in at least two different spectral regions. After crossing the object under examination, the X-rays have an energy spectrum which displays a characteristic distribution for the anode material of the X-ray source. In an embodiment, the filter is configured to suppress part of the energy spectrum comprising the focal point of the energy spectrum. A corresponding X-ray system and method are also disclosed.

The present invention relates to a device for tomosynthesis imaging, the device comprising: a mask generator module (101) configured to generate a binary mask based on a geometric three-dimensional model of a scanned object; an image capturing module (102) configured to scan a series of two-dimensional projection images of the object; and an image processing module (103) configured to apply the generated binary mask during a reconstruction of a three-dimensional image volume from the scanned series of two-dimensional projection images and to restrict an extent of the reconstructed image volume to the extent of the geometric model.

A differential phase contrast X-ray imaging system includes an X-ray illumination system, a beam splitter arranged in an optical path of the X-ray illumination system, and a detection system arranged in an optical path to detect X-rays after passing through the beam splitter.

An improved dual energy CT imaging system for providing improved imaging and improved material identification.

A method and system for receiving energy selective image data relating to an examination object using a counting, digital X-ray detector, together with a counting, digital X-ray detector and an X-ray system are provided. The X-ray detector includes an X-ray converter for direct or indirect conversion of X-rays into an electrical signal, and a matrix including a plurality of counting pixel elements. For each pixel element of the plurality of counting pixel elements, at least one modifiable threshold value, above which an incoming signal is counted using a memory unit, is applicable.

Methods, systems, and apparatus for performing spectral tomographic reconstruction of an object. The imaging system includes a power source that is configured to provide a variable high voltage. The imaging system includes a distributed X-ray source. The distributed X-ray source includes an array of X-ray emitters that allows fast switching ON and OFF using X-ray emitter grid electrode. The distributed X-ray sources is configured to generate an X-ray beam with an energy spectrum based on the variable high voltage and uses additional X-ray filters. The imaging system includes a controller. The controller is configured to operate synchronously with the change of the variable high voltage. The controller is configured to control a timing of when to engage an X-ray emitter of the array of X-ray emitters of the distributed X-ray source based on a predefined firing pattern.

Various systems and methods are provided for an integrated filter assembly including at least one bowtie filter and at least one beam hardening filter mounted on a carriage. In one embodiment, an imaging system may include a first carriage including at least one beam hardening filter and at least one bowtie filter, a second carriage including at least two additional bowtie filters, and a carriage driving system for moving the carriages to selectively position the at least one beam hardening filter and one of the bowtie filters in a path of an X-ray beam. The at least one beam hardening filter may overlap with at least one of the bowtie filters.