DE10019242A1 - X-ray diagnostics unit with solid state body image converter for mammography - Google Patents

Abstract

Control unit (14) controls high voltage generator (1) so that output signal of solid state image converter (5) near areas (15) of direct X-ray beams (3), is near but still below maximum excitation of the solid state image converter. As converter has expanded linear range, so the control does not need to start from an optimum value. Control unit has table memory (17) containing optimum values of parameters for imaging. Parameters are determined during calibration at area of direct X-ray radiation. Measuring device (11,13), which determines thickness of mamma, is connected to control unit.

Description

The invention relates to an X-ray diagnostic device a high voltage generator, with an x-ray generating x-ray tube, with a digital solid-state image transducers with areas with direct and through a subsu object of weakened radiation, with an image processing system, with a monitor and with a control device device for the high voltage generator. Such an x-ray diagnostic equipment can be installed in the mammo, for example use graphics.

Known mammography x-ray devices are based on film-foil Systems. The films used require that the x-ray dose is adjusted very precisely so that the film is optimally exposed. The automatic regulation of the off control (AEC = automatic exposure control) was carried out by the above systems with a sensor in the beam path is arranged behind the film and which is System measures non-absorbed radiation. The must spectral composition of the radiation is taken into account who the.

There are currently new devices with digital solid-state screens learn in development. Because the X-rays are almost complete is absorbed by the solid-state image converter, one can Do not insert the sensor behind the solid-state image converter. A Measurement of the transmitted radiation would be too imprecise. A However, measuring the dose in front of the solid-state imaging device would a sensor that is largely transparent to X-rays require. Such a sensor is for those with the Mammo graphie used low-energy radiation difficult to re alize.  

The invention is based on the task of an automatic re control and thus the x-ray dose in one To enable solid-state image converter.

The object is achieved in that the Control device controls the high voltage generator in such a way that the output signal of the solid-state image converter is in range with direct X-rays, but still below the full control of the solid-state image converter is. The Invention was based on the idea that digital solid per image converter have an extensive linear range. Therefore, the control does not have to be optimal Value as in the film. Rather, the Ü Overdrive of the solid-state image converter and the image of the Important criteria. That is why the inventor solution according to the dose in those areas of Solid state imager exposed to direct radiation are set such that an output signal of the fixed body image converter just below full scale is aimed. As a result, according to the invention, the dose no longer becomes behind the object as a determining criterion as the film required, but rather the Dose in front of the object or the dose that occurs on direct incidence meets the solid-state image converter, a constant one Value regulated.

The radiation parameters of the X-ray system, such as anode materials al, filter, tube voltage, current, radiation duration, are with known geometry of the system depending on the Thickness of the compressed breast chosen such that the Kon trast detail recognizability is optimal. This can complete parameter sets influencing the recording in advance during a calibration process in the area with direct X-ray radiation determined, mathematically optimized and in one day bark memory of the control device can be stored. The The high voltage generator is then set during the recording without the need for a measurement. Important is,  that not the dose in the direct x-ray area radiation - measured and then regulated - the fin only takes place during calibration - but fixed, optimal Values can be used.

It has proven to be advantageous if the thickness of the Breast-determining measuring device with the control device is connected so that it influences the parameters Size can be measured exactly. The measuring device device have a compression device on which a guide ler is arranged to measure the thickness of the compressed breast.

In order to influence the beam quality, the beam interchangeable filters arranged his.

The optimal values stored in the table memory for anode material, tube voltage and / or tube current X-ray tube, material and thickness of the filter and / or the duration of the X-ray pulse should depend on the Thickness of the mom and / or of the age and climacteric depending on the patient's likely tissue composition be calculated in such a way that diagnostically relevant Show details with maximum contrast.

The optimal values stored in the table memory for the tube current of the x-ray tube and the duration of the x-ray gene radiation pulse depending on the known Geomet rie of the distance tube focus solid-state image converter and the other, set parameters should be calculated in this way be that the output signal of the solid-state image converter in directly irradiated areas between 80% and 100% of the off control range, with the values in a calibration tion of the solid-state image converter and / or by the intervention who is corrected by means of an external user interface that can.  

The invention is based on one in the drawing illustrated embodiment explained in more detail.

In the figure, a mammography X-ray device according to the invention is shown with an X-ray tube 2 supplied by a high-voltage generator 1 with high and heating voltage, which generates a conical X-ray radiation 3 which penetrates the breast 4 of a patient to be examined and is sensitive to X-radiation 3 digital solid-state image converter generates 5 radiation images. The solid-state screen ler 5 contains, for example, switching elements made of amorphous silicon (a-Si: H) and has pixels arranged in a matrix.

Exchangeable filters 6 are arranged in the x-ray radiation 3 near the x-ray tube 2 . The output signal of the solid-state image converter 5 is fed to an image processing system 7 which can have converters, image memories and processing circuits. It is connected to a monitor 8 for reproducing the acquired X-ray images. The operator surface 9 is connected via a system control and communication 10 to the other components of the x-ray diagnostic device.

The breast 4 to be examined is pressed by a compression plate 11 against a cover plate 12 on the entry side of the solid-state image converter 5 . A sensor 13 measures the thickness of the compressed breast 4 . The measured thickness is transmitted to a control device 14 , which can also be part of the high voltage generator 1 or the image processing system 7 . The X-ray radiation 3 partly penetrates the breast 4 and falls weakly on an area 16 of the solid-state image converter 5 . Part of the X-ray radiation 3 strikes the side of the breast 4 without attenuation, ie directly onto an area 15 of the solid-state image converter 5 .

In the control device 14 , the thickness and the known. Geometry - the distance between tube focus and solid-state image converter - optimal values for anode material, filter 6 , tube voltage, tube current and duration of the X-ray radiation pulse are taken from a table contained in a table memory 17 or look-up table (LUT). According to the invention, these values are determined, for example, during a calibration process in an area 15 with direct X-ray radiation and calculated in such a way that full control of the solid-state image converter 5 is always ensured in these areas 15 . The control device 14 is connected via the system communication 10 to the high-voltage generator 1 and adjusts it during the recording in such a way that the solid-state image converter 5 is always maximally controlled without a measurement.

In order to compensate for fluctuations in the system - the high-voltage generator 1 , the X-ray tube 2 and the solid-state image converter 5 -, the values in the table memory 17 can be corrected during a calibration process of the solid-state image converter 5 .

As an additional option, that can be stored in the table 17 contained parameter set from the age of the patient and from the information whether the patient is before or after the Kli Makterium is made dependent, since it is known that the tissue composition depends on age and climacteric is pending.

If necessary, the user can reduce the dose used from his user interface 9 . This could reduce the mAs values e.g. B. from 100% to 50%, 25% etc. of the values calculated above.

A possible parameter table could look like this, for example:

Alternative uses of this concept can also be other x-rays, which also include Skin hem should be visible, such as hand or Foot shots.

The most important advantages of the X-ray diagnostic device according to the invention are:

• - An AEC measuring device is not required.
• - The dose that hits the breast becomes constant held. This will dose especially at thicker mammae saved.
• - Optimized x-ray parameters are always used, whereby the lowest possible dose and high image quality are guaranteed.
• - The Mamma is always adjusted so that the hem of the skin is visible.
• - The dynamic range of the solid-state image converter is op timally exploited.

Claims (10)

1. X-ray diagnostic device with a Hochspannungsge generator ( 1 ), with an X-ray radiation ( 3 ) generating X-ray tube ( 2 ), with a digital solid-state image converter ( 5 ) with areas with direct ( 15 ) and by an examination object ( 4 ) weakened radiation ( 16 ), with an image processing system (7), with a monitor ( 8 ) and with a control device ( 14 ) which controls the high-voltage generator ( 1 ) in such a way that the output signal of the solid-state image converter ( 5 ) in areas ( 15 ) with direct X-ray radiation ( 3 ) is below the full control of the solid-state image converter ( 5 ). 2. X-ray diagnostic device according to claim 1, characterized in that the control device ( 14 ) has a table memory (17) in which optimal values for the parameters influencing the recording are stored, which during a calibration process in the area ( 15 ) with direct X-rays ( 3 ) were determined. 3. X-ray diagnostic device for mammography according to claim 1 or 2, characterized in that a measuring the thickness of the breast de measuring device ( 11 to 13 ) is connected to the control device ( 14 ). 4. X-ray diagnostic device for mammography according to claim 3, characterized in that the measuring device (11 to 13) has a Kompressionsvor direction (11, 12), to which a sensor for Dickenmes solution of the compressed breast is positioned. 5. X-ray diagnostic device for mammography according to one of claims 1 to 4, characterized in that replaceable filters ( 6 ) are arranged in the beam path of the X-rays ( 3 ). 6. X-ray diagnostic device for mammography according to one of claims 1 to 5, characterized in that the optimal values stored in the table memory (17) for anode material, tube voltage of the X-ray tube ( 2 ), material and thickness of the filter ( 6 ) in Dependency on the thickness of the breast are calculated in such a way that diagnostically relevant details are reproduced with maximum contrast. 7. X-ray diagnostic device for mammography according to one of claims 1 to 6, characterized in that the optimal values stored in the table memory (17) for anode material, tube voltage of the X-ray tube ( 2 ), material and thickness of the filter ( 6 ) in Dependency on the likely tissue composition depending on the age and climacteric of the patient are calculated in such a way that diagnostically relevant details are shown with maximum contrast. 8. X-ray diagnostic device for mammography according to one of claims 1 to 7, characterized in that the optimal values stored in the table memory (17) for the tube current of the x-ray tube ( 2 ) and the duration of the x-ray pulse as a function of the known geometry of the distance Tubular focus solid-state image converter and the other, set parameters are calculated such that the output signal of the solid-state image converter ( 5 ) in directly irradiated areas 15 is between 80% and 100% of the modulation range. 9. X-ray diagnostic device for mammography according to claim 8, characterized in that the optimal values stored in the table memory (17) for the tube current of the x-ray tube ( 2 ) and the duration of the x-ray pulse during the calibration of the solid-state image converter ( 5 ) are corrected in such a way that the output signal of the solid-state image converter ( 5 ) in directly irradiated areas ( 15 ) is in the range from 80% to 100% of the control range. 10. X-ray diagnostic device for mammography according to one of claims 1 to 9, characterized in that the optimal values stored in the table memory (17) for the tube current of the x-ray tube ( 2 ) and the duration of the x-ray pulse by the intervention by means of an external user surface ( 9 ) can be corrected.