FR2621764A1 - Radiology apparatus equipped with a displaceable slotted screen under video synchronisation - Google Patents

Abstract

Radiology apparatus including a radiological image-intensifier tube 2 subjected to X radiation having passed through a part of a body 3 to be observed, an X-ray tube 1 followed by a slotted screen 7, which tube scans the body to be analysed with an X-ray pencil 8, the image intensifier providing a visible image on a visualising means consisting of a camera and a television, the slotted screen 7 being displaced in synchronism with the scanning of the visualising means.

Description

RADIOLOGY APPARATUS HAVING A SLOTTED SCREEN WITH
VIDEO SYNCHRONIZATION.

 The invention relates to a radiology device comprising, an X-ray image intensifier tube having passed through a part of a body to be observed, an X-ray tube followed by a slit screen, which scans an X-ray brush the body to be analyzed, the image intensifier providing an electronic signal giving a visible image on a display means composed of a camera and a television.

 Such an X-ray device is known from patent 2,490,479. The device described comprises a photosensitive device composed of N photosensitive elements placed in line.

The analysis of the X emission is carried out line by line, the photosensitive device receiving successive signals emitted during the movement of the slit screen. When the screen provided with the slots is removed, it is possible to send the overall image transmitted by the intensifier to a photographic plate or a photosensitive plate followed by a television camera.

 So the operator can use the image intensifier tube without a slit screen as he is used to, and when he wants a better quality image, he then uses a slit screen with the photosensitive device consisting of elements photosensitive aligned.

 The evolution of image intensifier tubes has meant that the online photosensitive device has been replaced by microchannel wafers giving an electronic image, on the surface, at the output of the image intensifier tube.

This development has made the techniques of the slit screen cooperating directly with a linear photosensitive device lost its interest, the electronic image on the surface no longer requiring the use of a scan of a limited X-ray beam. by a slit screen associated with a linear photosensitive detector device.

 The definition of video images given by an image intensifier tube with microchannel pancake associated with a display means composed of a camera and a television is disturbed throughout the measurement chain formed by an X-ray device. The order of magnitude of this definition is 15 pairs of lines per centimeter (pdl / cm).

By analyzing the losses of definition all along the measurement chain we note that they are mainly due to the scattering radiation X as well as to the distribution of the electrons emitted on all the photosensitive surface of entry of the tube of the intensifier d 'picture.

 The subject of the invention is a radiology device, the X-ray tube of which is provided with a screen having slots, the movement of the screen and the scanning of the display means being synchronized. The definition of the image seen in slices at the output of the image intensifier tube is increased by a better distribution of the path traveled by the electrons in the intensifier tube and a reduction in the influence of the backscattering effects X, the synchronization allowing slice by slice video analysis of the image on the surface of the output of the image intensifier tube.

 The improvement is obtained thanks to the characteristics of a "leadicon1" camera tube. On a television camera tube, the overall image is an image analyzed line by line. The non-analyzed part of the image is therefore not useful when the object is completely irradiated. The irradiated parts in question do not participate in the processing of the video signal because a lead-tube has practically no afterglow (residual signal of 3 to 5 8 after 60 ms), its response time is very short. The 'leadicon' type tube therefore does not take account of the residual image so that the slit screen reduces the effects of X-ray diffusion without it being necessary to increase the emission dose X.

On the other hand, the absorbed dose is reduced for a patient in the ratio of the surfaces between the overall image surface and the image surface of the brush X which crosses the slots of the screen, the exposure time not being not reduced.

 In one form of the invention, the scanning of the display means is controlled by the displacement of the slit screen.

 In another form of the invention, the movement of the slit screen is controlled by scanning the display means.

 Synchronization makes it possible to expose a part of the body to be analyzed only when the display chain analyzes a line of the image of the corresponding slice of the electronic image on the surface. The part of the overall image on either side of said slice image is not recorded by the display chain when it is received by the leadicon tube, the screen being absent.

 The description below, all given by way of nonlimiting example, will make it clear how the invention can be implemented.

 Figure 1 is a diagram showing the radiology apparatus according to the invention.

 FIG. 2 shows the different image parts which, at a given instant, are irradiated, not irradiated, analyzed.

 FIG. 1 represents an X-ray apparatus according to the invention comprising an X-ray tube 1 facing which an image intensifier tube 2 is placed. The image intensifier tube is associated on the one hand with photographic recording means, and on the other hand, a display means composed of a camera placed at the image output of the image intensifier tube and of a television associated with the camera, said means not being represented on the sins. A patient support plate 5 is inserted between the X-ray tube 1 and the image intensifier 2. Between a body 3 to be analyzed placed on the plate 5 and the X-ray tube 1 is placed a screen provided with slots 7 which in the exemplary embodiment is a rotary cylindrical drum 6 provided with longitudinal slots. Between the drum 6 and the patient support plate 5 is placed a locator 4 delimiting a radiation cone. The rotating cylinder causes a brush 8 of X-rays to sweep out of a slot 7, a brush which crosses in a direction of movement F a part of the body 3 to be analyzed. Synchronization is arranged between the rotation of the drum motor 6 and the scanning of the display system comprising a camera and a television so that only a slice of the image emitted by the image intensifier tube is received by the leadicon tube of the camera and sent to the TV screen. The synchronization tops are produced by a system 9 of cells, placed on either side of the wall of the drum 6 and influenced by the movement of the slots in front of the cells, during the rotation of the drum 6.

 FIG. 2 shows the different image parts which, at a given time, are not irradiated, irradiated or irradiated analyzed and recorded by the display chain. Synchronization makes it possible, with the use of the slit screen, to expose only a part of the body to be analyzed, part corresponding to a slice 10 of the global image 11, while the display chain analyzes a line 12 of the image of the slice 10. The displacement of the image X of the slice 10, forms the scan giving the overall image 11. This displacement is synchronized with the displacement of the line 12 of analysis by scanning of the image X of section 10, line recorded by the leadicon tube of the camera and the display chain.

Thus with an absorbed dose reduced by a factor of about 10, the definition of the image is improved by - the reduction by collimation of the X-rays scattered before the
input side of the image intensifier tube.

- improving the path of electrons in the in tube
image intensifier.

 Said definition can then reach approximately 50 pairs of lines per centimeter.

Claims (4)

1. Radiology device comprising, a radiological image intensifier tube subjected to radiation X having passed through a part of a body to be observed, an X-ray tube followed by a slit screen, which scans the body to be analyzed with an X-ray brush, the image intensifier providing an electronic signal giving a visible image on a display means composed of a camera and a television, characterized in that the movement of the slit screen and the scanning of the display means are synchronized.  2. X-ray apparatus according to claim 1, characterized in that the scanning of the display means is controlled by the movement of the slit screen. 3. X-ray apparatus according to claim 1, characterized in that the movement of the slit screen is controlled by the scanning of the display means. 4. X-ray device according to claims 1, 2 and 3, characterized in that the slit screen consists of a rotary cylindrical drum placed around the X-ray tube.