DE4210124C1 - Diagnostic X-ray appts. for examining heart function - has x-ray images each combined with difference image to amplify heart movement in displayed image provided on television monitor - Google Patents

Abstract

The X-ray appts. uses a television signal path for transmission and visualisation of the successive X-ray images. A difference image is obtained in the television signal path, from two successive x-ray images of the examined organ (7), corresp to different movement phases of the latter and is combined with the actual x-ray image, so that the movement appears amplified. The difference image and the actual x-ray image may each be amplified before being combined via respective electrical circuits. The amplification factor for the difference image can be controlled in dependence on a brightness signal obtained from the preceding x-ray image. USE - For visual examination of heart function using pulsed x-ray beam.

Description

The present invention relates to an x-ray diagnostic arrangement, the at least one x-ray apparatus and a television signal path for transmission and display of successive different x-ray images includes.

Such an X-ray diagnostic arrangement is from the US 46 36 850 known. In this known arrangement two successive pictures (first and second picture dern) formed the difference. This diffe obtained After an intermediate processing, the border picture becomes one of the additively added to both output images. At this known X-ray diagnostic arrangement are the one another the following different x-ray images generates a pulsed x-ray radiation. Therefore, the Images only at relatively large intervals follow.

If you display different x-rays, e.g. B. with pulsed Fluoroscopy, the sluggishness of human vision occurs apparates clearly in appearance. The different X-rays contain individual phases of movement faster movements, such as z. B. by a schla heart.

On the other hand, because of the sluggishness of human vision apparatus with continuous fluoroscopy, e.g. B. one  Heart, with a fast recording tube with z. B. 50 Images / second that shown in the X-ray images Heart reduced contrast and above all felt blurred.

To avoid this disadvantage, use the Representation of fast moving objects a pulsed X-ray gene radiation for fluoroscopy. As a consequence, that there is no perceived smearing effect, but because of the sluggishness of the human visual system sharp residual images of the previous phases of movement stand. Although such residual images in the successive the X-ray images are not included, are residual images consequently solely because of the sluggishness of human vision apparatus felt. Even with a low pulse repetition frequency the x-ray images of e.g. B. 12.5 frames / second, that occurs disturbing residual image sensation (after-image sensation) very clear Lich on. As a result, the indolence of man visual apparatus at least two movement phases as at the same time visibly perceived what is visual Evaluation of the successive X-ray images very much is irritating.

The invention has for its object an x-ray diagnostic arrangement of the type mentioned at the beginning with which by the sluggishness of human vision perceived and irritating afterimages (rest pictures) are suppressed, but at least reduced.

This task is accomplished through an X-ray diagnostic arrangement solved according to claim 1.

The invention is based on the knowledge that the only perceived - but not existing - afterimages each contrasting - but really depicted - pictures  can be counteracted. This is in the fiction X-ray diagnostic arrangement according to the television signal path from a current and a previous one the x-ray image with different movement phase of an object with pulsed x-rays is examined, a difference image is first formed. The difference image becomes the current x-ray image additively mixed that a by the movement of the Ob jektes caused change in the current x-ray image intensified and the previous X-ray image with nega tive polarity in the mixed image when it is reproduced is pictured. The result of this mixture Mixed picture is z. B. on a television picture display device presented for visual inspection. This allows the perceived by the sluggishness of the human visual system suppressed and irritating afterimages, but at least least be reduced. The mixed image shown includes Accordingly, image information from two on the television X-ray images of a signal to be displayed object.  

The invention can also be particularly effective in X-rays Diagnostic systems are used where the picture repetition frequency in the television signal path is greater than the pulse repetition frequency of the x-ray emitted by an x-ray tube gene impulses. If by the X-ray repetition frequency z. B. 12.5 frames / second are generated and in the television signal path with a standard frame rate of 50 images / Second worked, each contain four television pictures the same movement phase. Thereby of the Viewers see an increase in contrast during the first felt two to three pictures. If the TV picture information due to a newly arriving X-ray image means the viewer particularly clearly afterimage to see what was created by the previously and currently perceived contrast of the previous same Chen pictures is conditional. Because at the same time the contrast of the new movement phase - the new (different) television Image has only been displayed once so far - still weak is pronounced, the viewer becomes indolent of the human visual apparatus think that it is always two Sees phases of movement at the same time. The one that occurs and particularly serious irritation with the visual Evaluation of the X-ray images shown on a Television picture display device can with the invention min significantly reduced or even completely missed that will.

In a number of applications of the invention, it is advantageous if the x-ray image corresponds to the current x-ray image in this way is mixed in that the difference image in the with a Playback device shown mixed image on the same The place appears at which the previous X-ray previously gene image was shown.

Trials have shown that with certain changes  the successive x-ray images e.g. B. in a row Movement of the object is advantageous, the difference do not display the image in the position described above. Therefore, according to a variant of the invention, add the difference image to the current x-ray image in this way mix that the difference image in the with the replay appears in one place, those within - preferably approximately in the middle - one local deviation, which is due to (movement-related te) Differences between the current and the previous X-ray is created. With this invention Such irritating afterimages can also be a variant that the human visual system (eye, Optic nerve, brain) as a result of certain movements in a place that feels between the previous ones and the current x-ray image.

The point at which the mixed image with the playback area is represented, can by interpolation of the (bewe general) horizontal and / or vertical sub differentiate between the current and the previous one X-ray image to be determined. This can be done in the X-ray diagnostic arrangement a circuit for motion-dependent Interpolation of the two images can be provided.

Further advantages and details of the invention result itself from the following description of execution examples based on the drawings and in connection with the claims.

Show it:

Fig. 1 shows an X-ray diagnostic arrangement with a television signal path according to the invention and

Fig. 2 shows an X-ray diagnostic arrangement with a television signal path according to the invention, which has additional means for adapting the difference image to the inertia of the human visual apparatus.

In Fig. 1, an X-ray diagnostic arrangement is illustrated with an X-ray apparatus 1. The X-ray apparatus 1 comprises in this embodiment at least one X-ray tube control circuit 2 , with which, in addition to the pulse train frequency, the pulse duration and the pulse amplitude (dose) of an X-ray tube 3 can also be set. The Roentgen gene tube 3 gives a pulsed X-ray radiation 4 in a known manner via an aperture 5 , via a Pa tientenkörter 6 , - the a moving object 7 , z. B. a heart contains - and from a grid 8 to an X-ray image intensifier 9 . In a beam path 10 emerging from the x-ray image amplifier 9 , a semi-transparent mirror 11 is arranged, which on the one hand reflects the x-ray image via a cinema iris 12 onto a film camera 13 and on the other hand transmits it via a television iris 14 to a television camera 15 . The television camera 15 and a television image display device 16 are part of a television image signal path which is used to process the x-ray images recorded by the television camera 15 , for which purpose a television center 17 is provided in particular. The television center 17 outputs on the output side of the television camera 15 taken x-ray images to an image memory 18 , to a differential circuit 19 and to an additive mixing circuit 20 . The image memory 18 is on the input side via a line 21 with a first input 22 and on the output side coupled to a second input 23 of the differential circuit 19 . The image memory 18 is also coupled on the input side to a first input 24 of the additive mixing circuit 20 . The differential circuit 19 is coupled on the output side to a second input 25 of the additive mixing circuit 20 .

If from the television camera 15 successive under different X-ray images are taken, each X-ray image via the television center 17, the image memory 18 of the differential circuit 19 and the additive mixing circuit 20 is supplied. A previous x-ray image is then fed from the image memory 18 to the differential circuit 19 simultaneously with the current x-ray image. The output of the previous x-ray image from the image memory 18 can be controlled by the television center 17 , as can the input of a current x-ray image into the image memory 18 . The image memory 18 can also be designed as a delay line, the delay duration of which corresponds to the period of time required for the transmission of a current image.

At the differential circuit 19 , an electrical signal is available on the output side, which contains the differential image. This difference image is added to the current X-ray image in the mixing circuit 20 additively. The electrical signal which can be obtained at the output of the mixing circuit 20 contains the mixed image to be displayed on the television picture display device 16 . It is possible according to the invention, multiple admix the 19 available at the output of the differential circuit difference image to the current x-ray image in the additive mixing circuit 20th As a result, particularly strong perceived afterimages can be compensated for particularly effectively by stronger negative images of the previous X-ray images.

FIG. 2 shows a further x-ray diagnostic arrangement according to the invention, which differs from the x-ray diagnostic arrangement shown in FIG. 1 primarily by an additionally inserted detector circuit 26 , by a controllable amplifier 27 and by an amplifier 28 . With the detector circuit 26 , the image brightness of the previous X-ray image output from the image memory 18 is detected. With the brightness signal generated in this way, the gain of the amplifier 27 is controlled as a function of the brightness fluctuations within the previous image via a line 29 .

The amplifier 27 is net as a coupling element between the differential circuit 19 and the mixing circuit 20 . This coupling element designed as an amplifier 27 allows the differential image extracted from the differential amplifier 19 to be optimally adapted to the subjective after-image perception of a viewer to compensate for the after-image sensation, without the differential image having to be mixed several times with the current image in the additive mixing circuit 20 . The optimal adjustment can be achieved by adjusting the degree of amplification of the amplifier 27 . With the brightness signal supplied via line 29 , the electrical amplification of the dif ferential image in amplifier 27 is reduced with increasing brightness of the previous x-ray image. This is advantageous because the human visual apparatus has a lower inertia in lighter image areas than in darker image areas. Therefore, the negative difference image does not need to be as pronounced in bright image areas as it is in dark image areas, which is achieved automatically by the brightness control.

The adaptation of the difference image to the subjective image perception of a viewer can be supported by the additional amplifier 28 in front of the first input 24 of the additive mixing circuit 20 . In particular, it is possible to achieve different electrical gains for the difference image and for the current image before the additive mixing process, as a result of which the adaptation of the mixed image to be displayed to the subjective after-image sensation can also be optimized.

Claims (10)

1. X-ray diagnostic arrangement at least comprising an X-ray apparatus ( 1 ) and a television signal path for the transmission and display of successive under different X-ray images, wherein in the television signal path from a respectively current and from a respective previous X-ray image with mutually different movement phases of an object ( 7 ), the is illuminated with pulsed X-ray radiation, a difference image is formed and the difference image is added to the current X-ray image to create a mixed image to be displayed at least one time additively such that a change caused by the movement of the object ( 7 ) in the current X-ray image intensifies and that previous X-ray image with negative polarity is displayed in the mixed image when it is reproduced. 2. X-ray diagnostic arrangement according to claim 1, the difference image and the current image before Mixing process each electrically differently are cash. 3. X-ray diagnostic arrangement according to claim 2, the electrical amplification of the difference image in Dependence on one from the previous x-ray derived brightness signal is controllable. 4. X-ray diagnostic arrangement according to claim 3, the electrical amplification of the difference image at increasing brightness of the previous x-ray image can be reduced by the brightness signal. 5. X-ray diagnostic arrangement according to one of claims 1 to 4,
wherein an image memory ( 18 ) for X-ray images recorded via a television camera ( 19 ) is provided in the television image signal path and
the image memory ( 18 ) being coupled on the input side to a first input ( 22 ) and on the output side to a second input ( 23 ) of a differential circuit ( 19 ). 6. X-ray diagnostic arrangement according to claim 5, wherein the image memory ( 18 ) is coupled on the input side to a first input ( 24 ) and the differential circuit ( 19 ) is coupled on the output side to a second input ( 25 ) of an additive mixing circuit ( 20 ). 7. X-ray diagnostic arrangement according to claim 6,
the differential circuit ( 19 ) being coupled on the output side via an amplifier ( 27 ) to the second input ( 25 ) of the additive mixing circuit ( 20 ) and
the gain of the amplifier ( 27 ) being controllable by a detector circuit ( 26 ) which detects the brightness of the output x-ray images on the output side of the image memory ( 18 ). 8. X-ray diagnostic arrangement according to one of claims 1 to 7, wherein the difference image is added to the current x-ray image such that the difference image appears in the mixed image shown with the playback device ( 16 ) at the same point at which the previous x-ray image was previously shown. 9. X-ray diagnostic arrangement according to one of claims to 7, wherein the difference image is mixed with the current x-ray image such that the difference image is shown in the mixed image shown with the playback device ( 16 ) at a location that is within - preferably approximately in the middle - a local one Deviation lies, which arises from (movement-related) differences between the current and the previous X-ray image. 10. X-ray diagnostic arrangement according to claim 9, wherein the location at which the mixed image with the reproduction device ( 16 ) is shown can be determined by interpolation of the (motion-related) horizontal and / or vertical differences between the current and the previous x-ray image.