DE102012215639B3 - Method for operating a computer tomography system and computer tomography system - Google Patents

Abstract

The invention relates to a method for operating a computer tomography system (2) comprising an X-ray source (6) with a first operating mode and with a second operating mode, wherein the X-ray source (6) for examining an object (12) on a circular path (14) around the object (12) rotates, being formed at several positions along the circular path (14) projection shots of the object (12), wherein after a half turn between the operating modes of the X-ray source (6) is changed and wherein in a mode change operating a drivable filter (18) either into or out of a radiation field of the X-ray source (6).

Description

The invention relates to a method for operating a computer tomography system comprising an X-ray source with a first operating mode and with a second operating mode, wherein the X-ray source for investigating an object rotates on a circular path around the object and wherein projection images of the object are generated at several positions along the circular path. In addition, the invention relates to a corresponding computed tomography system.

Some computed tomography methods do not use monochromatic (to a good approximation monochromatic) X-ray radiation, but multi-chromatic X-ray radiation to obtain information about an examination subject.

Particularly widespread is the so-called "dual-energy" computer tomography, in which either two x-ray sources are used, with which monochromatic x-radiation is generated, with the x-ray radiation of the two x-ray sources being different in terms of wavelength ("dual-source" CT). or in which an X-ray source is used to generate X-radiation with different wavelengths ("single-source" CT), in which case switching between the wavelengths is a so-called "kV-switching", ie a change in the tube voltage of an X-ray tube, is made.

DE 10 2011 005 055 A1 for example, discloses a method for generating dual-energy x-ray image data of a predetermined volume portion of an examination subject with an x-ray system. In this case, low-energy X-ray image data and high-energy X-ray image data of the volume section are produced and subtracted from each other for generating the dual-energy X-ray image data.

DE 10 2008 051 043 B3 further discloses an X-ray CT system and a method for generating tomographic images using an X-ray CT system having two on a gantry angular displacement emitter-detector assemblies having at least two different X-ray energy spectra. In this case, at least one first image is reconstructed from detector data from two quarter rotations with different X-ray energy spectra and at least one second image from detector data of a scan of at least one of the radiator detector arrangements is generated via a half rotation, wherein the images are subjected to high pass or low pass filtering with respect to their spatial frequencies and subsequently combined into a result recording.

Proceeding from this, the object of the invention is to specify an improved method for operating a computer tomography system and a corresponding computer tomography system.

With regard to the method, the object is achieved according to the invention by a method having the features of claim 1. The dependent claims include in part advantageous and in part self-inventive developments of this invention.

The method is used to operate a computer tomography system, which comprises an X-ray source with a first operating mode and a second operating mode, wherein the X-ray source rotates for examination or in the context of an examination of an object on a circular path around the object and wherein at several positions along the circular path projection images of Object to be generated. In this case, the computed tomography system is set up such that after a half rotation of the X-ray source is changed between the operating modes, wherein a mobile filter is either moved into or out of a radiation field of the X-ray source. In this case, X-radiation with different intensity and / or different wavelength is preferably generated in the two operating modes. Accordingly, it is thus provided that the X-ray source, which typically comprises an X-ray tube, is initially operated in the first operating mode and during which it performs a half turn and that the X-ray source subsequently changes to the second operating mode and then performs another half-turn. In this case, the X-ray source is either returned during the second half-rotation or the X-ray source leads in the sum of a complete encircling of the object to be examined.

The switching between the operating modes is thus not between individual projection shots, but after a multi-projection scan of the object, which is followed by a substantially redundant multi-projection scanning of the object is made, while operating the X-ray source in another, the second mode of operation so that the second multi-projection scan is made by, for example, X-ray of a different wavelength. In such a designed scanning of the object by means of X-rays, is only once between the Modified operating modes, so that the technical requirements for the computed tomography system with respect to the switchability between the operating modes is kept relatively low.

The X-ray source also comprises a drivable filter or aperture filter, for example made of tin, which is used in an operating mode for generating the X-ray radiation and is driven into a radiation field of the X-ray source, which is preferably generated by means of an X-ray tube. If the operating mode subsequently changes, the filter or aperture filter is preferably moved out again and thus not further used to generate the X-ray radiation. The corresponding filter or diaphragm filter therefore supplements in particular an X-ray tube and is introduced into the X-ray field generated by the X-ray tube in order to generate a predetermined X-ray cone in order to modify it. Typically, the intensity distribution of the X-ray radiation and the absolute intensity of the X-radiation are predetermined with the aid of such a filter or aperture filter. Additionally or alternatively, a frequency or wavelength-dependent filtering of the generated X-ray radiation can be carried out with the aid of a corresponding filter. Typically, the introduction of the filter or the removal of the filter from the radiation field by means of a controllable mechanism, which can be kept relatively simple, since the filter is to be moved only at each operating mode change, so twice per shift scan. In an advantageous refinement, a separate filter or diaphragm filter is provided for each operating mode, so that a corresponding filter change takes place when the operating mode is changed. The filters are then moved, for example, with the X-ray tube of the X-ray source and introduced alternately into the X-ray field generated by the X-ray tube.

According to a preferred variant of the method, the X-ray source orbits the object for examination several times on the circular path and there is a change between the operating modes after each half turn. Further preferably, the object is linearly displaced relative to the X-ray source during the examination, so that the object is scanned, for example, in layers as part of a so-called spiral scan. Advantageously, the projection images of the object of two consecutive half revolutions in different operating modes of the X-ray source with respect to the scanning of the object are redundant, so that each layer of the object is scanned twice, the X-ray source during the scanning of each layer once in the first mode of operation performs a half turn and once in second operating mode performs a half turn. As a result, for each scan, one of the layers of the volume of the object is then alternated twice between the modes of operation.

Of particular advantage in this case is a method variant in which an X-ray tube is used as the X-ray source and in which a change in the tube voltage takes place when changing between the operating modes. In this way, a "single-source dual-energy" computer tomography system can be realized in which each layer of the volume of the object is sequentially scanned with X-radiation of two different wavelengths. The so-called "kV-switching", ie the change between the tube voltages of the two operating modes, takes place only once during the scanning of a layer and only twice per layer in the scanning of the entire volume. The requirements for the switchability of the X-ray source are kept relatively low.

With regard to the computed tomography system, the stated object is achieved according to the invention by a computer tomography system having the features of claim 8.

The computed tomography system comprises an X-ray source and a control unit, which is set up to carry out a method according to one of the preceding claims. The computed tomography system is thus designed in particular as a "single-source dual-energy" computer tomography system.

Embodiments of the invention will be explained in more detail with reference to a schematic drawing. It shows:

1 in a sectional view of a computed tomography system.

The following described and in 1 illustrated computer tomography system 2 includes a so-called gantry 4 in which an X-ray source 6 is integrated, a linearly movable patient table 8th and a control unit 10 ,

To examine a patient or object 12 this or this is on the patient table 8th positioned and subsequently the X-ray source rotates 6 on a circular path 14 around the object 12 , being at several positions along the circular path 14 Projection pictures of the object 12 to be generated. The movement of the X-ray source 6 takes place either in stages or continuously and the corresponding relative movement between the X-ray source 6 and the patient table 8th In addition, a linear movement is superimposed perpendicular to the circular path plane, in which case the patient table 8th is shifted gradually or continuously linearly.

The X-ray source 6 and an unrepresented but this oppositely disposed X-ray detector orbiting the object 12 during a test several times and after every half turn, when the X-ray source 6 covers an angular range of 180 °, becomes between two operating modes for the X-ray source 6 switched.

In the first mode of operation, the X-ray source becomes 6 which is an x-ray tube 16 and a movable aperture filter 18 includes, operated with a tube voltage of 70 kV and the aperture filter 18 is in a standby position where it is outside of the x-ray tube 16 generated radiation cone is positioned. In the second operating mode, however, the X-ray tube 16 operated with a tube voltage of 140 kV and the aperture filter 18 is in an operating position, in which this is from the X-ray tube 16 generated radiation cone is positioned.

Every half turn of the X-ray tube 6 becomes a layer of the volume of the object 12 scanned by X-ray radiation and the scans of two consecutive half-turns, in which the X-ray source 6 is operated in different operating modes are redundant in terms of sampling. Thus, each layer is scanned twice, but each of the two scans is X-rayed at different wavelengths.

LIST OF REFERENCE NUMBERS

2

computed Tomography system

4

gantry

6

X-ray source

8th

patient table

10

control unit

12

object

14

orbit

16

X-ray tube

18

Mobile iris filter

Claims (7)

Method for operating a computer tomography system ( 2 ) comprising an X-ray source ( 6 ) with a first operating mode and with a second operating mode, wherein the X-ray source ( 6 ) for the examination of an object ( 12 ) on a circular path ( 14 ) around the object ( 12 ) and wherein at several positions along the circular path ( 14 ) Projection images of the object ( 12 ) are generated, characterized in that after a half-turn between the operating modes of the X-ray source ( 6 ), whereby a mobile filter ( 18 ) either in a radiation field of the X-ray source ( 6 ) is moved in or out. Method according to claim 1, characterized in that the X-ray radiation source ( 6 ) for each operating mode a mobile filter ( 18 ), each mobile filter ( 18 ) for the corresponding operating mode in the radiation field of the X-ray source ( 6 ) is moved in and out when changing to another operating mode. Method according to claim 1 or 2, characterized in that the X-ray radiation source ( 6 ) the object ( 12 ) for examination several times on the circular path ( 14 ) and that after every half turn between the operating modes of the X-ray source ( 6 ) is changed. Method according to one of claims 1 to 3, characterized in that the object ( 12 ) for examination in addition relative to the X-ray source ( 6 ) is shifted linearly. Method according to one of claims 1 to 4, characterized in that the projection images of the object ( 12 ) of two consecutive half rotations are redundant. Method according to one of claims 1 to 5, characterized in that the X-ray source ( 6 ) an x-ray tube ( 16 ) and that in each operating mode, a different tube voltage is specified. Computed Tomography System ( 2 ) comprising an X-ray source ( 6 ) and a control unit ( 10 ), which is set up to carry out a method according to one of the preceding claims.

Images