DE2946443A1 - Radiographic sectional imaging system - has X=ray source triggered at points along coplanar path to obtain perspective images - Google Patents

Abstract

The imaging system has the body (3) X-rayed from a number of positions within a plane defined by the movement of the X-ray source (1), to obtain respective perspective images (B1-B3), used to allow sectional images of the body to be reconstructed. The X-ray source (1) is moved continuously during recording of the perspective images (B1-B3) in a common recording plane, and is fixed at specific points (P1-P3) along its path of movement, the recording support (4) remaining stationary relative to the body (3). The X-ray source (1) is movable along a number of straight paths within a common plane, or around a series of concentric paths, with a non-redundant distribution of the firing points (P1-P3) for recording the perspective images (B1-B3).

Description

Method and device for producing layered

imaging a three-dimensional object The invention relates to a Method for generating layer images of a three-dimensional object that the object for taking perspective images from several in a radiation source plane irradiated lying positions by means of a movable radiation source arrangement is, the perspective images are recorded in a recording plane, and wherein, in a post-processing step, layer images from the perspective images of the object can be reconstructed, as well as a device for carrying out the method.

A method of the above type is already from "The Radiologist", 9th year, issue 2, February 1969, pp.37-40 known.

In this method by Ziedses des Plantes (1938) a single Radiation source step by step to different ones in the radiation source level Lying positions brought up from which the object for taking perspective images is irradiated. The individual perspective images are shown on separate films recorded.

The disadvantage of the method mentioned is that an acquisition cycle, thus the production of a large number of shadow images of the object with different Perspective, requires a relatively large amount of time, since the radiation source has to take a certain position must be set in motion and decelerated again. Another disadvantage of this method is that when reconstructing different Layer images the separately recorded perspective images against each other have to be moved or superimposed, which takes a relatively long time.

From DE-OS 26 05 497 is also known, perspective pictures of a Object to be recorded with the help of a multiple radiation source, which has a large number of individual radiation sources arranged in a common tank, which in the radiation source plane are firmly positioned. Thereby the perspective pictures recorded on a common recording medium in separate or superimposed form, by flashing all radiation sources at the same time. As for the generation of low artifacts Layer images irradiate the object under a very large number of directions must be, a correspondingly many individual radiation sources, e.g. 30-50, are required.

A multiple beam source of this magnitude therefore has one complicated structure and is also relatively expensive.

The object of the invention is therefore to provide a method for producing Specify slice images of a three-dimensional object in which the recording of perspective images in a relatively short time and with a simple radiation source arrangement can be made.

This object is achieved according to the invention in that the radiation source arrangement when taking the perspective images continuously moved and at predetermined Positions of their path is flashed, and that all perspective images on a common Record carriers are recorded that are fixedly positioned relative to the object is.

This ensures that when using a single radiation source the required perspective images of the object in a very short time and with a simple radiation source arrangement can be produced. The radiation source is continuously (continuously) moves and at certain Places their path flashed without having to be stopped for this. Be there the perspective images are recorded with an image sharpness that is the same as the sharpness of the image corresponds to perspective images generated with stationary radiation sources. The time to Recording of all required perspective images can be further shortened, if instead of moving several radiation sources simultaneously on different paths and flashing at predetermined positions, or along several radiation sources be moved along a common path.

The positions at which the radiation source or radiation sources flashed can be changed quickly from shot to shot. This can either by flashing a radiation source at different times their predetermined path or by changing their path. The positions can also be controlled several times in succession if the exposure time is a Pass is not enough. The paths of a radiation source can have a straight, circular, cycloidal or any other suitable shape so that e.g. a given film format can be covered in a uniform manner with perspective images can. Such an arrangement is much simpler in mechanical structure than a tomographic recording arrangement in which both the radiation source and the recording medium must be moved.

All recorded with the radiation source arrangements described above Perspective images of the object can then using known decoding methods, such as For example, in DE-OS 27 46 035 are described, processed, so that any Layer images of the three-dimensional object can be generated continuously.

The drawing shows an embodiment of the invention. It demonstrate: 1 shows a radiation source arrangement with a straight line moving X-ray tube, which is flashed at predetermined positions, Fig. 2 a schematic section from a sheet metal perspective image, FIG. 3 a linearly moving one X-ray tube arrangement which is constructed from three individual tubes and FIGS. 4a-d various Tube positions on circular orbits.

Fig. 1 shows a radiation source arrangement with only one in one Radiation source 1 lying on the plane E, e.g. a rotating anode X-ray tube. This X-ray tube 1 is continuously shifted and, for example, in the position P1 flashed in such a way that the beam of rays masked out by a diaphragm B is a Object 3 lying on a deposit 2, e.g. an organ of a to be examined Patient, irradiated. The corresponding perspective image B1 is shown on a for recording medium 4 common to all perspective images, e.g. on an X-ray film recorded with high-gain intensifying screens or by means of an image intensifier tube, wherein the recording medium is fixedly positioned relative to the object 3 and is parallel to the radiation source plane E. The X-ray tube 1 is then, during they are switched off in the radiation source plane E in the direction of the arrow 5 moved, flashed more times in the following positions P2 and P3. The corresponding Perspective images B2 and B3 are also on the recording medium 4 either recorded separately or overlapping. For example, there are only three tube positions here shown, but the actual number of positions is much higher. The flashing of the continuously moving X-ray tube 1 can be preset at any time Positions and can be done using mechanical contact switches or be done directly electrically. The flash time is in the ms range, so that there is still none Motion blur in the perspective image caused by the moving X-ray tube 1 will. The total recording time for all perspective images is around 1 to 6 Seconds, which corresponds to a recording time customary in tomography. Of course the positions P1 to P3 can also be taken several times by the X-ray tube 1 which is required if the exposure time of a run is not sufficient. Of course, another suitable radiation can also be used for radiation of the object 3 can be used.

In Fig. 2 is again the recording medium 4, for example an X-ray film, shown. The individual perspective images B are here partially superimposed or also recorded separately from each other.

In Fig. 3 is a continuously movable radiation source arrangement shown, which consists of three X-ray tubes 6a-c, for example in one common tubular tank (not shown) are arranged.

To take a first set of perspective images, the X-ray tubes 6a-c flashed simultaneously in position P '. Got the x-ray tubes 6a-c reaches position P ″, they are used to record another set of perspective images flashed again on the recording medium 4.

With the help of such a tube arrangement, the time for recording of all perspective images can be shortened considerably. Of course they can X-ray tubes 8a-c can also be replaced by an X-ray tube with three focal spots.

Further possible tube positions are shown in FIGS. 4a-d. In FIG. 4a, an X-ray tube 8 moves in the direction of arrow 8a on a circular path 9. The radius of the circular path 9 can be changed continuously or gradually (arrow 10). The X-ray tube can be at any position 11 (small circles) 8 can be flashed. The number and location of positions 11 can vary from inclusion to Recording vary. The same applies to the flash time and the rotational speed of the X-ray tube 8. The values generally depend on the object to be examined away. Of course, paths other than circular can also be used by the X-ray tube 8, e.g. elliptical or hypercycloidal paths.

In Fig. 4b, the radiation source arrangement consists of three X-ray tubes 12, 13 and 14, which on a circle 15 simultaneously continuously in the direction of the Arrow 16 are moved. The X-ray tubes 12, 13, 14 can be mechanically connected to one another be coupled, e.g. via a linkage 17. For example, the X-ray tubes 12, 13, 14 belong to a multiple beam source, which around its central axis 18, which runs perpendicular to the plane of circle 15 and through the center of the circle, is rotatably arranged. The multiple beam source is then in different angular positions flashed.

In Fig. 4c the radiation source arrangement consists of three X-ray tubes 19, 20, 21, which are continuous on three concentric tracks 22 in the direction of the arrow move. The X-ray tubes are, for example, mechanically connected to one another via a linkage 23 coupled and are flashed simultaneously in different positions 24a, b. The X-ray tubes 19, 20, 21 can also be offset in the circumferential direction of the circles 22 be arranged to each other (Fig. 4d).

There are many more ways the x-ray tubes to order the embodiments described in FIGS. 4a-d are only intended to provide a few possibilities represent. Of course, the radiation sources can also be moved step by step and after reaching their positions are flashed in a resting state. Further The radiation source arrangement can also consist of an X-ray tube with several focal spots exist.

The planar distributions of the X-ray tube positions preferably correspond non-redundant point distributions, since with them particularly low-artifact slice images can be generated (see "Optics Com.", Vol.11, No.4, pp 368-371, 1974).

For the production of layer images of the three-dimensional object can the perspective images corresponding to that described in DE-OS 27 46 035 Procedure to be decoded. The decoding (superposition and summation of the Perspective images) can be done with the help of lenses whose positions the Corresponding positions of the X-ray tubes when taking the perspective images.

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Claims (16)

PATENT CLAIMS: Method for generating layer images of a three-dimensional object in which the object is used to take perspective images from several positions lying in a radiation source plane by means of a movable one Radiation source arrangement is irradiated, the perspective images in a Recording plane are recorded, and from the perspective images in layer images of the object are reconstructed in a post-processing step, characterized in that the radiation source arrangement (1) when receiving the Perspective images (B1-B3) continuously moved and at predetermined positions (P1-P3) their path is flashed, and that all perspective images on a common recording medium (4) are recorded, which is fixedly positioned relative to the object (3). 2. The method according to claim 1, characterized in that the radiation source arrangement a single radiation source is used. 3. The method according to claim 1, characterized in that several Radiation sources combined to form a radiation source arrangement and at the same time be moved. 4. The method according to claim 2 or 3, characterized in that the radiation source arrangement on different lying in the radiation source plane (E) hxn is moved. 5. The method according to claim 4, characterized in that the webs are straight. 6. The method according to claim 4, characterized in that the webs are circular. 7. The method according to claim 4, characterized in that the webs are cycloid-like. 8. The method according to one or more of claims 1 to 7, characterized characterized in that the planar distribution of the radiation source positions at which the radiation sources are flashed corresponds to a non-redundant point distribution. 9. The method according to one or more of claims 1 to 8, characterized characterized in that the positions at which the radiation sources are flashed be ingested several times in succession by the radiation sources. 10. Device for performing the method according to one or more of claims 1 to 9, with a radiation source arrangement movable in one plane for irradiating the object lying on a deposit from different Perspectives, and with a recording medium arranged on the other side of the object for taking the perspective images, characterized in that the radiation source arrangement arranged continuously movable in the radiation source plane (E) and at predetermined Positions can be flashed, and that a fixed position relative to the object (3) Recording medium (4) is provided for receiving the perspective images (B1-B3). 11. The device according to claim 10, characterized in that the Radiation source arrangement consists of a single radiation source. 12. The device according to claim 10, characterized in that the Radiation source arrangement consists of several radiation sources. 13. Apparatus according to claim 11 or 12, characterized in that that the radiation sources are X-ray tubes. 14. Apparatus according to claim 12 and 13, characterized in that the x-ray tubes are arranged in a common x-ray tube tank. 15. Apparatus according to claim 12 and 13, characterized in that the radiation source arrangement consists of an X-ray tube with several focal spots. 16. Apparatus according to claim 6 and 14 or 15, characterized in that that the tubular tank about its central axis running perpendicular to the radiation source plane (E) (18) is rotatably arranged.