DE102007025448A1 - X-ray detection system for capturing x-ray photographs of test object, has two digital x-ray detectors with partly closed housing - Google Patents

Abstract

The x-ray detection system has two digital x-ray detectors with a partly closed housing. The sensor surfaces (8,9) of the x-ray detectors have a specific, fixed geometrical allocation. The x-ray detectors are exposed by a x-ray terminal. A complete x-ray image is captured by combining single x-ray images, which forms a complete surface larger than the sensor surface of the largest x-ray detectors. Independent claims are also included for the following: (1) a x-ray recording system (2) a method for collecting a complete x-ray image with a x-ray recording system.

Description

The The invention relates to an X-ray detector system for taking x-rays an examination object according to the claim 1 and an X-ray system according to the claim 21 and a method for taking a total X-ray image according to the claim 25th

In x-ray imaging, x-ray detectors for recording digital x-ray images of an object are known, in which x-ray radiation is converted by a scintillator layer or a direct converter layer and subsequently as an electrical charge by means of an active detector matrix, for example of amorphous silicon, constructed from a plurality of pixel read-out elements (a-Si), read out electronically, converted analog-digitally and further processed as a so-called raw X-ray image for the image production. Frequently, such X-ray detectors are designed as flat detectors. Flat panel detectors are generally constructed in a few, fixed formats, for example 43 x 43 cm ² or 30 x 40 cm ² . To accommodate objects that exceed these formats, costly specialty sized detectors must be used or the corresponding detector moved after taking a first image so that a second shot can be taken.

It The object of the present invention is an X-ray image recording device providing a flexible mapping of both small as well as big ones and special image formats; Furthermore, it is an object of the invention, a suitable X-ray system provide.

The The object is achieved by an x-ray detector system for taking x-rays an examination object according to the claim 1, by an X-ray system according to the claim 21 and by a method according to the claim 25; advantageous embodiments of the invention are each the subject the associated under claims 2 to 20 and 22 to 24.

The X-ray detector system according to the invention has at least two digital X-ray detectors auf, which are common and after an execution of the Invention also independent are usable from each other. The X-ray detector system ensures a big Flexibility, there X-rays can be created in different image formats.

The at least two X-ray detectors are can be used together in such a way that the sensor surfaces of the X-ray detectors have a predefinable, have solid geometric association with each other that the x-ray detectors through a single X-ray shot are illuminable, and that a composite of single X-ray images composable Total X-ray image is receivable, which has a total area larger than the sensor area of largest of the X-ray detectors maps.

The at least two X-ray detectors can have a standard standard format, for example 30 × 40 cm ² , 43 × 43 cm ² or 17.6 × 17.6 cm ² . As a result of the predefinable, fixed geometric assignment, the sensor surfaces of the at least two X-ray detectors can be used like a single, enlarged X-ray detector in that the individual X-ray images can be assembled automatically in a simple manner. Thus, for example, an image processing unit arranged in the image system, which has or receives information about the geometric assignment, the individual X-ray images to the total X-ray image composed.

By the illuminability of the X-ray detector system by means of a single x-ray shot after an execution of invention is ensured that the single X-ray images be recorded at the same time. This will prevent changes and movements of the examination subject can cause the individual X-ray images no longer match exactly and thus the overall X-ray image is falsified.

The at least two x-ray detectors of the x-ray detector system fulfill both the function of individual small and a large x-ray detector, so that on the acquisition of a large, special-format X-ray detector can be dispensed with and yet in a simple way for example Entire Body and Skoliosensnahmen can be made.

Advantageously, the at least two X-ray detectors can be detachably coupled to one another. For this purpose, various approaches are possible. According to one approach, the X-ray detectors can advantageously be coupled directly to one another by means of one or more detachable plug connections in the housing of the X-ray detectors. The detectors may also be coupled via magnets, for example. According to another approach, the X-ray detectors can be arranged in one or more devices in such a way or can be inserted or inserted into a device such that they have a defined geometric association. This can be achieved for example by a table with several prefabricated slots for X-ray detectors. The Röntgen Detectors can also be moved into position via stepper motors. Alternatively, the X-ray detectors can also be permanently coupled to one another at a special workstation.

To an embodiment of the invention are the sensor surfaces of at least two x-ray detectors can be arranged in one plane or in parallel planes. This is guaranteed that the main radiation direction of the X-ray beam is relative to all X-ray detectors is the same and that the Röntgenstrah ment comparable on the X-ray detector system with a single, big one X-ray detector incident.

To In a further embodiment of the invention, the sensor surfaces of at least two x-ray detectors tilted to each other such that the sensor surfaces an obtuse angle include each other. For example, you can the x-ray detectors so individually on the focus of the X-ray emitting X-ray source be aligned, which is particularly useful when the distance between X-ray source and x-ray detectors is relatively small.

In Advantageously, an uninterrupted coherent Total X-ray image receivable, allowing an examination subject without disruptive interruptions and gaps can be displayed. Also for this are various advantageous embodiments possible. For such a complete overall X-ray image For example, the X-ray detectors are particularly easy to implement formed such that their sensor surfaces are at least in each case one side to the edge of the detector housing of the respective X-ray detector extend. With a coupling of, for example, two X-ray detectors the corresponding sides of the first X-ray detector to the corresponding Side of the second X-ray detector just added or coupled.

A further, effortless possibility to produce an uninterrupted overall X-ray image in it, X-ray detectors to use in which areas of the detector housing X-ray transparent side of the sensor surfaces are. In a coupling of, for example, two X-ray detectors, an X-ray detector, which is X-ray transparent on one side of its sensor surface, so partially overlapping arranged in front of another X-ray detector, that the x-ray radiation through the transparent area through to the sensor surface of the another x-ray detector can fall.

To Another embodiment of the invention is an overall X-ray image receivable, which has a total area of substantially the sum the sensor surfaces the individual X-ray detectors maps. This can be advantageously realized, for example, that the sensor surfaces the at least two X-ray detectors in terms of the main radiation direction of the X-ray radiation flush with each other adjoin.

To Further embodiments of the invention comprises the X-ray detector system at least one mobile X-ray detector and at least one fixed-installed X-ray detector on and / or is from three or more X-ray detectors assemble.

Conveniently, can itself the sensor surfaces the at least two X-ray detectors with respect to Main radiation direction of the X-radiation also overlap or spaced apart.

To A further embodiment of the invention has at least one X-ray detector X-ray marker elements on. The x-ray marker elements are for example, arranged such that they are in an overlapping area at the upper X-ray detector are arranged, in the main radiation direction in front of each arranged another X-ray detector is in such a way that it from the sensor surface of the other X-ray detector be imaged. Is the position of the x-ray marker elements of the upper X-ray detector in terms of its sensor surface an image processing system, which processes the individual x-ray images, so can the image processing system by the in the single X-ray image of the lower x-ray detector X-ray marker elements in a simple way, the individual X-ray images automatically to form a total X-ray image. It can also x-ray markers on an external device, for example a patient table be arranged.

The Invention and further advantageous embodiments according to features the subclaims become below with reference to schematically illustrated embodiments explained in the drawing, without that's a limitation the invention to these embodiments he follows; show it:

1 a view of an inventive X-ray detector system of two flat panel detectors;

2 a front view of the X-ray detector system according to the invention 1 ;

3 a side view of an attachment between two flat panel detectors;

4 a side view of another he inventive X-ray detector system consisting of three flat panel detectors;

5 a side view of another X-ray detector system according to the invention consisting of three flat panel detectors;

6 a plan view of another inventive X-ray detector system consisting of two flat panel detectors whose sensor surfaces extend on one side to the edge of the housing;

7 a side view of another X-ray detector system according to the invention consisting of three flat panel detectors and a patient table;

8th a sequence of a method according to the invention.

In the 1 an X-ray detector system according to the invention is shown, wherein a permanently installed flat-panel detector 1 and a mobile flat-panel detector 2 are fastened together by means of a plug connection, not shown, that the sensor surface 8th of the permanently installed flat-panel detector 1 and the sensor surface 9 of the mobile flat-panel detector 2 together form a total sensor area which corresponds approximately to the sum of the two individual areas. The sensor surfaces 8th . 9 are arranged in parallel planes and offset from each other, with a slight overlap of, for example, 1 cm is provided.

The permanently installed flat-panel detector 1 and the mobile flat-panel detector 2 be in coupled form simultaneously during an X-ray shot of one of a focal point 6 outgoing X-rays 7 completely exposed. In this case, two individual X-ray images are generated, which can be combined to form an overall X-ray image. The permanently installed flat-panel detector 1 is on a wall mount 3 attached, it may be, for example, a raster wall unit. A patient 5 is for example standing on a so-called Orthostand 4 in front of the flat panel detectors and is detected by the X-ray 7 rayed. Will the connector between the mobile flat-panel detector 2 and the permanently installed flat-panel detector 1 solved, both flat panel detectors can be used independently again. For example, the flat panel detectors each have an active matrix of a-Si and a scintillator of cesium-iodide.

2 shows a front view of the two by means of two locking pins 10 attached flat panel detectors while in 3 a side view of the attachment is shown. The flat panel detectors have outside their sensor surfaces, for example in the housing, holes, in each of which a socket pin 10 is insertable. The size of the holes is exactly the size of the pin 10 adjusted, so that an exact geometric assignment of the sensor surfaces is guaranteed to each other.

4 shows a further inventive X-ray detector system consisting of three flat-panel detectors, wherein on a fixed flat-panel detector 1 a mobile flat screen detector 2 and in turn another mobile flat panel detector 2 are attached. Adjacent flat-panel detectors form an overlap such that a continuous overall X-ray image can be recorded.

The flat panel detectors are arranged such that their sensor surfaces are arranged parallel to one another, in particular in one plane, in which case different arrangements are possible. 4 shows an arrangement in which the first and the third of the three flat panel detectors lie in a plane and the central flat panel detector in parallel and in the radiation direction of the X-ray beam 7 is arranged in front of the other two flat panel detectors. It can also be the middle flat-panel detector in parallel and in the radiation direction of the X-ray beam 7 be arranged behind the other two flat panel detectors or the second flat-panel detector is in the radiation direction of the X-ray beam 7 arranged in front of the first flat-panel detector and the third in front of the second flat-panel detector in a stepwise arrangement. There may also be more than three flat panel detectors in common.

In 5 another X-ray detector system according to the invention is shown consisting of three flat panel detectors, wherein a fixed flat-panel detector 1 and two mobile flat panel detectors 2 are arranged in a row and an overlap is provided such that the sensor surfaces of the flat detectors perpendicular to the planes in which the sensor surfaces are flush with each other.

It may also be contemplated that adjacent flat panel detectors overlap each other by the width of their enclosure edges 11 form, leaving a gap of the width of the case edge 11 the sensor surfaces separates. All the adjacent flat panel detectors may also lie in one plane and adjoin one another with their housings, so that one gap in each case changes from the width of two housings 11 the sensor surfaces separates. For these cases, a reconstruction of the missing areas of the overall X-ray image is recommended.

For the in 4 and 5 shown off It is particularly advantageous if, during the recording of the individual X-ray images, a signal amplification in partially shaded edge regions is particularly advantageous 12 the sensor surfaces is made to the loss of intensity due to the shadowing of the X-ray beam 7 and to correct a correction of a possibly missing X-ray image part between the individual X-ray images particularly precisely. For the latter purpose, it may also be advantageous to carry out a signal amplification in edge regions of the sensor surfaces if they themselves shadow the x-ray-sensitive surface of an adjacent flat-panel detector.

It is advantageous, such flat panel detectors as in the beam direction of the X-ray Front-mounted flat-panel detector to use whose case edge at least in the overlap area radiolucent are formed.

It is particularly advantageous if the flat-panel detectors have at least one side on which the sensor surface extends to the outermost edge of the detector. 6 shows two mobile flat panel detectors 2 which have no housing edge on each side and are fastened to one another such that their sensor surfaces form an uninterrupted surface. The two mobile flat panel detectors 2 can, for example, by means of two lateral locking pins 10 be connected to each other.

In 7 a further inventive X-ray detector system consisting of three flat panel detectors is shown. A permanently installed flat-panel detector 1 is on a wall mount 3 fixed so that it is below a patient table 13 is arranged. A mobile flat-panel detector 2 is in a suitably trained compartment 15 a table foot 14 of the patient table 13 can be used, so that the mobile flat-panel detector 2 also below the patient table 13 is arranged. Another mobile flat-panel detector 2 is parallel and offset to the two other flat panel detectors in a suitably formed trough 16 of the patient table 13 used.

Several Flat-panel detectors, for example, at least four, can also mosaic-like or shingled together. Here can be provided for himself the respective flat panel detectors on at least two sides of the sensor surfaces up to the utmost Extend edge.

8th shows a schematic sequence of the method according to the invention for receiving a total X-ray image. The method comprises the following steps:
The first step 20 consists in coupling the at least two digital X-ray detectors, so that a fixed geometric assignment of the X-ray detectors is formed. The second step 21 is to emit an X-ray in the form of an X-ray shot through the X-ray source to expose the total area. The third step 22 consists in taking and reading single X-ray images by the X-ray detectors and the fourth step 23 consists in automatically assembling the single X-ray images into a total X-ray image by the image system using solid geometric mapping information.

To an execution The invention will be used to determine the fixed geometric assignment the coupled x-ray detectors Calibration radiographs recorded and from the calibration X-ray images of the geometric Assignment of the X-ray detectors calculated to each other or entered by a user. this will for example, after coupling the X-ray detectors and before actual recording performed.

This Method is taken with an X-ray recording system according to the invention, which In addition to the at least two flat-panel detectors also an X-ray source, a system controller and an image system. The image system in turn points Means for automatically assembling single radiographs the X-ray detectors to the overall X-ray image on. These funds can for example, from an image processing unit with a special one Software, in particular the so-called stitching software formed or a correction unit can be used.

According to one embodiment of the invention, the automatic assembly of single X-ray images to the total X-ray image signal amplification in the partially shaded edge regions 12 the sensor surfaces performed to compensate for a loss of quality due to the shading. This signal amplification can be provided both in the shadow region of the front X-ray detector and in the rear X-ray detector to compensate for the loss of intensity of the X-rays. The corresponding adjustment takes place automatically. It may also be provided that the distances between X-ray detectors and X-ray source and / or the patient with respect to different X-ray detectors in the automatic assembly of single X-ray images to the total X-ray image included.

The invention can be briefly summarized in the following way: For a flexible imaging of different sized image formats is an X-ray detector system for recording X-ray comprising at least two digital, independently usable X-ray detectors each having a X-ray detector at least partially enclosing housing, which X-ray detectors are used in common so that the sensor surfaces of the X-ray detectors have a predetermined, fixed geometric assignment to each other that the X-ray detectors by a single X-ray shot are exposed, and that a composite of individual X-ray images total X-ray image is recordable, which images a total area larger than the sensor surface of the largest of the X-ray detectors.

Claims (26)

X-ray detector system for recording X-ray images of an examination object, comprising at least two digital X-ray detectors ( 1 . 2 ) with one each the X-ray detector ( 1 . 2 ) at least partially enclosing housing, which X-ray detectors ( 1 . 2 ) can be used together in such a way that the sensor surfaces ( 8th . 9 ) of the X-ray detectors ( 1 . 2 ) have a predefinable, fixed geometric association with one another, - that the X-ray detectors ( 1 . 2 ) can be exposed by at least one X-ray shot, and - that a total of X-ray image composable from individual X-ray images can be accommodated, which has a total area larger than the sensor area ( 8th . 9 ) of the largest of the X-ray detectors ( 1 . 2 ) maps. An X-ray detector system according to claim 1, wherein the X-ray detectors ( 1 . 2 ) can be used independently. An X-ray detector system according to claim 1 or 2, wherein the X-ray detectors ( 1 . 2 ) can be exposed by a single X-ray shot. X-ray detector system according to one of the preceding claims, wherein the at least two X-ray detectors ( 1 . 2 ) are releasably coupled to each other. X-ray detector system according to one of the preceding claims, wherein the sensor surfaces ( 8th . 9 ) of the at least two X-ray detectors ( 1 . 2 ) can be arranged in one plane or in parallel planes. X-ray detector system according to one of the preceding claims, wherein the sensor surfaces ( 8th . 9 ) of the at least two X-ray detectors ( 1 . 2 ) are tilted towards each other such that the sensor surfaces ( 8th . 9 ) include obtuse angles to each other. X-ray detector system according to one of the preceding claims, wherein the at least two X-ray detectors ( 1 . 2 ) are interconnected in such a way that an uninterrupted coherent overall X-ray image is receivable. X-ray detector system according to one of the preceding claims, wherein a total X-ray image is absorbable, which has a total area of substantially the sum of the sensor surfaces ( 8th . 9 ) of the individual X-ray detectors ( 1 . 2 ) maps. X-ray detector system according to one of the preceding claims, which comprises three digital X-ray detectors ( 1 . 2 ) having. X-ray detector system according to one of the preceding claims, which comprises at least one mobile X-ray detector ( 2 ) and at least one fixed-installed X-ray detector ( 1 ) having. X-ray detector system according to one of the preceding claims, wherein the sensor surfaces ( 8th . 9 ) of the at least two X-ray detectors ( 1 . 2 ) with respect to the main radiation direction of the X-radiation ( 7 ) are flush with each other. X-ray detector system according to one of claims 1 to 10, wherein the sensor surfaces ( 8th . 9 ) of the at least two X-ray detectors ( 1 . 2 ) with respect to the main radiation direction of the X-radiation ( 7 ) overlap. X-ray detector system according to one of claims 1 to 10, wherein the sensor surfaces ( 8th . 9 ) of the at least two X-ray detectors ( 1 . 2 ) with respect to the main radiation direction of the X-radiation ( 7 ) have a distance from each other. X-ray detector system according to one of claims 1 to 11, wherein the X-ray detectors ( 1 . 2 ) are formed such that their sensor surfaces ( 8th . 9 ) on at least one side to the edge ( 11 ) of the respective detector housing. An X-ray detector system according to one of claims 1 to 12, wherein regions of the detector housing of the X-ray detector arranged upstream in the radiation direction ( 1 . 2 ), which areas overlap with a further detector housing with respect to the radiation direction of the X-radiation ( 7 ), are formed X-ray transparent. X-ray detector system according to one of the preceding claims, wherein the X-ray detectors ( 1 . 2 ) are coupled to each other by means of detachable plug connection. X-ray detector system according to one of the preceding claims, wherein the at least two X-ray detectors ( 1 . 2 ) can be arranged in a device such that they have a defined geometric assignment. An X-ray detector system according to claim 17, wherein the device is accessible from a patient table ( 13 ) or a grid wall unit ( 3 ) is formed. X-ray detector system according to one of the preceding claims, wherein the at least two X-ray detectors ( 1 . 2 ) can be arranged in several permanently installed devices such that they have a defined geometric assignment. X-ray detector system according to one of the preceding claims, wherein at least one X-ray detector ( 1 . 2 ) Has x-ray marker elements. X-ray recording system, comprising - at least two individually usable, digital X-ray detectors ( 1 . 2 ), which can be coupled directly or indirectly to one another such that the sensor surfaces ( 8th . 9 ) of the X-ray detectors ( 1 . 2 ) have a predeterminable, fixed geometri cal association with each other and that a total X-ray image is receivable, which has a total area larger than the sensor surface ( 8th . 9 ) of the largest of the X-ray detectors ( 1 . 2 ), an X-ray source which emits an X-ray shot, by means of which the total area can be exposed, and an image system which comprises means for automatically assembling single X-ray images of the X-ray detectors ( 1 . 2 ) to the whole X-ray image. X-ray system according to claim 21, which comprises means for correcting by overlapping areas partially or completely shaded areas. X-ray system according to claim 21, comprising signal amplification means. An X-ray detector system according to claim 21, wherein the means for automatically assembling single X-ray images of the X-ray detectors ( 1 . 2 ) are formed into the overall X-ray image by an image processing unit. Method for recording an overall x-ray image with an x-ray recording system according to one of Claims 21 to 24, comprising the following steps: coupling the at least two digital x-ray detectors ( 1 . 2 ), so that a fixed geometric assignment of the X-ray detectors ( 1 . 2 ), - emission of X-ray radiation in the form of an X-ray shot through the X-ray source for exposure of the total area, - acquisition and readout of individual X-ray images by the X-ray detectors ( 1 . 2 ), - automatically assembling the single X-ray images into a total X-ray image by the image system using solid geometric mapping information. Method according to claim 25, wherein for determining the fixed geometrical assignment of the coupled X-ray detectors ( 1 . 2 ) Calibration images are recorded and from the calibration X-ray images, the geometric assignment of the X-ray detectors ( 1 . 2 ) is calculated to each other.