DE2338517B2 - X-RAY SYSTEM WITH AN X-RAY TELEVISION DEVICE FOR TELEVISION ILLUMINATION AND FOR RECORDING, STORING AND REPLAYING X-ray images - Google Patents

Description

The invention relates to an X-ray system according to the preamble of claim 1.

Such an X-ray system is in the journal "Advances in the field of X-rays", Vol. 118, 1973, pp. 91 to 95. A similar X-ray machine, but with no X-ray film recorder is available, also shows the DT-GM 66 02 767.

With an X-ray system according to the preamble of claim 1, it is possible from an ongoing X-ray fluoroscopy to electronically save particularly important scenes at any time and still images on a monitor in addition to the existing one for playback of the current one To display the fluoroscopic image available further monitor. This allows z. B. in a surgical Fluoroscopy, the changes made to the object with a previous state be compared. In the known X-ray systems, however, it is not possible to send images electronically that correspond to so-called target images recorded on an X-ray film. Such a co-storage but is for a direct assessment of individual investigation phases, i. H. for an evaluation without the time delay for the film development process, in many cases for an immediate one Decision on the further course of the investigation is of considerable importance. It fails with the known X-ray systems mainly because the image sampling frequency of the television image pickup tube the network frequency is coupled and a field scan therefore lasts 20 msec. The achieved today Acquisition times are of this order of magnitude, so that when the X-ray exposure is exposed the signal plate of the image pick-up tube is part of the due to the finite duration of the charge image build-up Image would be lost. This effect could only be avoided if the duration of the X-ray exposure was the Duration of several image scans would reach, which is because of the motion blur that then occurs would not be justifiable. In addition, the dose rate required for the X-ray exposure per image compared to that in fluoroscopy is so much higher that the signal plate of the image pickup tube would be significantly overdriven during recording. This would have the consequence that the stored television picture would be practically useless because of its low contrast. The installation of a second television picture pick-up tube but encounters considerable technical difficulties and is mostly from spatial Reasons not to be realized.

In DT-OS 20 32 780 an X-ray system with a television chain and a film camera is described, in which the image pick-up tube acts as an automatic exposure device to control the image brightness in a dominant area in the sense of keeping constant the exposure of the storage plate of the pickup tube over the Image intensifier works. With this X-ray system it is

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■ not possible to record an image electronically, ^{a 'ζΓ} em enfilmbild corresponding means of the film camera recorded ^that, since the Fernsehaufnahmeka- ^RON while shooting a movie as Belichtungsmeseschaltet and thus not available is an electronic image pickup ntr invention has for its object, e -ne. Enanlaee to train the type mentioned in the generic term of the patent ^RÖ hsl so that the Römsenaufnahme on a film corresponding images ι C fnnically stored and immediately after the f Sme on the television monitor can be displayed and viewed as still images

This problem is solved according to the invention by the; _m characterizing part of claim 1 indicated training.

ei this embodiment it is achieved that Rontgenauf- can be made men whose Behchtungs, _{e aH} can be determined at rect on of the _X-pr an optimum of the requirements, and that immediately thereafter corresponding images on a monitor of the X-ray Fernseheinnchtung for evaluation as a still image appear and are therefore still available during the examination to make a decision about In the further course of the study. Because of the higher dose rate available, the quality of a stored image is considerably better than that of a stored fluoroscopy. Therefore, a more precise assessment of the question of whether a pathological change suspected during the fluoroscopy is confirmed can also be seen immediately whether the correct one Phase of the orean movements of the target recording was recorded ^ It Ssen sSn Avoid superfluous film recordings if you would otherwise have to make for safety reasons. This is also associated with reduced radiation exposure for doctor and patient. Furthermore, through the instantaneous presentation of the yiel recording, a statement can quickly be made about whether the associated recording is diminished in its statement, for example due to blurring of the movement

The characterizing part of claim 1 is ", note that it is known in a device with X-ray pictureveSer television image pickup tube and monitor to provide an iris diaphragm controlled by a fire device in front of the pickup tube, the opening b ^{8 of which is} a recording in the ratio of its lubrication ^ _{recording or} . Duichlighting

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erigKeiien smu "* -> - · ■ -. ,"""", measured according to claim 2 avoided.

■ - "waiiJren A ** - * * r M-JJJl-- -. In the further development according to claim 4 can also be used, the inventively constructed X-ray equipment to detect the distribution of an introduced in a vasculature contrast agent You may be several film images an X-ray film image series or the fluoroscopic scene during a test injection can be summed up on the signal plate of the image pickup tube so that the distribution of the contrast agent in the vascular system can be fixed on a single electronic image a test injection with contrast agent and the contrast agent distribution recognizable on the electronic image when subtracting this image with that of the ongoing fluoroscopy, the filled vascular system is shown so that it is possible to get a catheter under fluoroscopy in a relatively simple manner to the) to bring to the nearest point of the vascular system.

In the embodiment of the invention according to claim 6, it occurs particularly when photographing from the screen of the display unit no disturbing rough line structure due to the fact that there is "i transform the electronically stored television Fields acts on. This allows the subjective impression of sharpness of the generated on the monitor Television picture can be increased significantly.

Regarding claims 5 and 6, it should be noted that the DT-AS 11 23 410 provides an X-ray television device with subtractive mixing device and through the DT-AS 11 69 501 an X-ray television device a device for generating an intermediate line are known per se.

Based on an embodiment described below and shown in the drawing, the Invention explained in more detail. It shows

F i g. 1 an X-ray system in block form, and FIG. 2 is a block diagram of a circuit arrangement to create a "pseudo-interline".

The in Fi g. 1 shown X-ray system exists the radiation generation side from an X-ray generator 1 with a control panel 2 and an X-ray tube 3 with radiation diaphragm 4. An X-ray beam 5 generated by the X-ray tube arrives X-raying a patient 6 on the side of the image generation and image processing. For the so-called A film cassette 7 is provided for direct imaging, which contains an X-ray film and image intensifier foils for the Immediate conversion of the X-ray relief into a latent film image. Instead of the X-ray film cassette A so-called X-ray target device can also be present, which the film in a known manner divided so that two, four or six recordings can be accommodated on one film. For the correct exposure of these direct exposures is ensured by an X-ray exposure machine, the chamber 8 of which is in the X-ray path is arranged between patient 6 and · film cassette 7 and in a dominant area measures the x-ray dose and when it reaches a level corresponding to the desired film blackening X-ray dose the X-ray generation by switching off the X-ray generator 1 completed.

For what is known as the indirect recording technique, a single-image camera 9 is available, which is based on a film format of, for example, 70 χ 70 or 100 χ 100 mm that on the output luminescent screen 10 of an X-ray image intensifier

kers It appears to be a reduced X-ray image of the patient 6 via a partially transparent deflecting mirror 12 records. Another automatic X-ray exposure machine is required to expose these indirect images correctly with a photomultiplier 13 available to which the light of the dominant via a deflection mirror 14 in the optical beam path of the X-ray image intensifier is fed. Upon reaching the one desired The amount of light corresponding to the blackening of the film is either the flow of electrons from the X-ray image intensifier 11 or the X-ray radiation interrupted.

For displaying the X-ray image in the case of fluoroscopy with television technology means is in the optical beam path of the X-ray image intensifier as another Element is a television image pick-up tube 15 of the charge storage type. It is part of a X-ray television device with a center 16 and a television monitor 17. In addition, the X-ray television device an optionally switchable video tape memory 18, the motion picture playback can be switched to single image reproduction, a second television monitor 19 for the fluoroscopic image separate playback of a stored single image, one assigned to the television image pickup tube, iris diaphragm 20 controllable by a motor, a control device 21, a switching device 22 with associated switches 23, 24, 25 and 26, an image mixing device 27 and a circuit arrangement 28, whose function in connection with FIG. 2 is described in more detail.

In order to produce an X-ray exposure, an adjustment element 29 is first used on the control panel 2 the tube voltage and, by means of pushbuttons 30, that of the selected recording voltage and constitution tube power adjusted to the subject and used in the case of an X-ray exposure. Then the X-ray generator 1 is initially used for fluoroscopy by actuating a pushbutton 31 of the patient 6 switched on. At the same time, the iris diaphragm 20 is opened by the control device 21. In the illustrated state of the switches 23 to 26, this is then shown on the output fluorescent screen 10 of the X-ray image intensifier 11 appearing fluoroscopic image on the television monitor 17 of the X-ray television device reproduced.

The fluoroscopic progress can be made by storing the video signals on the video tape memory 18 be held. For this purpose, a push button 32 is actuated, the with the help of the switching device 22 the Switch 23 closes and by means of the control device 21 the video tape memory 18 for "motion picture recording" turns on. The recorded fluoroscopy scene is played back by pressing a Button 33. As a result, the video tape memory 18 is switched to "motion picture playback" by the control device 21. switched. At the same time, the switching device 22 actuates the changeover switch 25, so that the stored The fluoroscopic scene appears on the monitor 17.

Will the doctor now during the pass-through procedure certain scenes that appear diagnostically important to him either directly on the X-ray film of the Film cassette 7 or indirectly via the X-ray image intensifier 11 on the film of the still camera 9, he actuates a foot switch 34. Thereby the following functions are triggered at the same time: The X-ray counter 1 guides the X-ray tube for the Recording mode to preselected values, while the control device 21 the scanning beam of the television picture

recording tube 15 interrupts, the iris diaphragm 20 closes so far that the opposite in the X-ray X-ray fluoroscopy has a significantly higher radiation dose rate and the resulting brighter output image of the X-ray image intensifier 11 does not override the signal plate of the television image pickup tube 15, the Video tape storage 18 switches to single recording mode and also with the aid of the switching device 22 the switch 23 closes. The output image of the X-ray image intensifier is used for the X-ray exposure that now follows 11, which is identical to the X-ray film image, on the signal plate of the television image recording meröhre 15 saved. When a sufficient blackness of the film is achieved, the X-ray is taken by switching off the X-ray generator from one of the automatic exposure machines via the chamber 8 or the Photo multiplier 13 interrupted. In the case of direct recording by exposing the film of the film cassette 7 The automatic X-ray exposure machine with chamber 8 always ends the exposure. But before that the The automatic exposure machine with the photomulliplier 13 interrupts the flow of electrons from the X-ray image intensifier 11; because due to the greater brightness of the output image of the X-ray image intensifier 11 was the amount of light required for the exposure of the signal plate of the television image pickup tube 15 already reached earlier. In the case of indirect exposure, i.e. the Exposure of the film located in the still camera 9, only ends the automatic exposure with the Photomultiplier 13 the recording, because in this case the exposure of the film takes place like the signal plate TV pickup tube from the same light source. Immediately after the end of the recording it switches the control device 21 the scanning beam of the television image pickup tube again, so that the already on Frame storage switched video tape memory 18 stores the image and this image as a still image appears on one of the television monitors 17 or 19.

It is often necessary to visualize vessels by injecting a contrast medium and to bring the tip of a catheter to a specific point in the vascular system. Introducing such a catheter into certain positions of the vascular system under fluoroscopic control is often very difficult because the vessels only become visible in the fluoroscopic image after the contrast agent has been introduced, but the contrast agent is flushed out very quickly, so that the introduction is practically always carried out "blindly" got to. This disadvantage can be eliminated with the present arrangement in that first a test injection is carried out into the vascular area to be catheterized and, after the injected contrast agent has been distributed, a summary image is produced in the manner described and a single image is written on the video tape storage device 18. By subsequently pressing a pushbutton 35 of the control panel 2, the video tape memory 18 is switched to single image playback, the switch 2 is switched on with the aid of the switching device 22 and the X-ray generator 1 is switched to fluoroscopic mode. Now both the stored image of the video tape memory 18 and the image from the ongoing fluoroscopy are supplied to the image mixing device 27, which mixes the two images subtractively, so that the vascular system shown on the recording is negatively subordinated to the current flow image. Thereby, it is niöglic ¹ the catheter individual in its passage through the

Observe vessels and insert them into the correct branching of the vessels. In this way Of course, several series recordings can also be saved and subtractively superimposed so that For example, in the case of a very rapid flow of contrast agent, the individual phases can be summed up to form an overall image are.

Since the individual images stored on the video tape memory 18 are only television fields, ie images with half the number of lines of a normal television image, the coarse line structure is particularly disturbing in the case of photographs from the television monitor. By shifting the position of the second half image vertically by half the line spacing, an intermediate line (pseudo intermediate line) can be obtained, which restores the usual image impression. Of course, the information content is the same as that of a single field. However, the viewer of the monhor picture, especially when taking photographs of this picture, has a more favorable subjective impression of sharpness. In order to generate such a pseudo intermediate line, the circuit arrangement 28 is present, which can be inserted into the video channel by actuating a push button 36. For this purpose, a switch 37 is brought into the position shown with the aid of the switching device 22 and the video tape memory 18 is switched over to single-frame reproduction. The image scanning synchronous signal (BAS) thus passes through the circuit arrangement 28 shown in FIG. 2 is shown in more detail.

Within this circuit arrangement, the BAS first arrives at a separating stage 38, which separates the synchronous component from the BAS and thus controls a monostable multivibrator 39. This multivibrator generates a corresponding pulse at the beginning of each incoming horizontal pulse, which is fed to a gate circuit 40 together with the synchronous component of the BAS. In this gate circuit, the two signals are mixed out of phase so that they cancel each other out. So only the vertical pulses remain at the output of the gate circuit. These are sent to a frequency divider in the form of a! Flip-flop stage 41 is supplied, which suppresses every second vertical pulse. The remaining synchronous signal controls a further non-stable multivibrator 42, which consequently emits a short control pulse at the beginning of every second venical pulse. with a width of about 30 [ls] , which is thus sth; corresponds to the duration of a hold line. Servant Inipul is mixed in phase opposition to the original BA in a mixer 43, so that every second image pulse begins at this 30 \ .is, i.e. half a line later. As a result, every second field is written between the line of the first field.

1 sheet of drawings

Claims (6)

Patent claims: 1. X-ray system with an X-ray amplifier and an X-ray television device for the Television fluoroscopy and for recording x-ray images on electronic image storage and displaying them as still images on a television monitor, the television equipment a charge storage type television image pick-up tube and one from the control panel of a X-ray generator from influenced, a switching device comprising control device having the image pickup tube for recording a television memory image for the duration of Scanning of the X-ray image stored on its signal plate connects with the image memory, and in which the switching device uses the image memory after recording for image reproduction a television monitor, an x-ray film recorder and one on the control panel connected, user-operated switch for triggering film recordings, characterized in that the control device (21) can be controlled by this switch (34) and is adapted to scan the beam of the during the duration of an X-ray film exposure TV image pickup tube (15) blocks and at the same time the opening of one in the beam path of the Image recording tube (15) present iris diaphragm (20) in the ratio of the X-ray dose rate the exposure is reduced to that of fluoroscopy and the image memory (18) is set to single exposure mode switches, and that after the end of a recording, the scanning beam of the television picture pick-up tube (15) switches on again. 2. X-ray system according to claim 1, characterized in that an exposure control device (13) is present, which the X-ray image intensifier (11) depending on its initial halo in a characteristic dominant image area by blanking its electron beam controls so that the signal plate of the image pickup tube (15) during each recording is exposed to a constant amount of light. 3. X-ray system according to claim 2, characterized in that the blanking of the X-ray image intensifier (11) during the recording process in one of the brightness of the dominant image area dependent light-dark ratio is controlled so that the constant amount of light on The end of the exposure time required for the X-ray film exposure has been reached. 4. X-ray system according to claim 1, characterized in that the control device (21) optionally switchable means are assigned to the beam current of the image pickup tube (15) Integration of several X-ray images on your signal plate to form a summation image during the Block the duration of a selectable number of consecutive X-ray film images. 5. X-ray system according to claim 4, characterized by an image mixing device (27) for congruent subtractive superimposition of the stored summation image with the television image from the ongoing x-ray fluoroscopy to a subtraction image and to display the Subtraction image on the television monitor (17). 6. X-ray system according to claim 1, characterized in that for generating an intermediate line a circuit arrangement (28) for the temporal displacement of every second during image reproduction Vertical pulse of the stored X-ray television image by a distance of half a duration TV line is available.