DE2655661A1 - Radiation diagnosis instrument for transverse plane images - uses X=ray appts. with image amplifier and patient positioned on rolling table - Google Patents

Abstract

The radiation diagnosis instrument is used for producing transverse plane images of the patient. The radiation source generates beam penetrating the investigation object at right angles to image plane. The radiation intensity is scanned on the other side of patient. The radiation beam and detector can be rotated about an axis at right angles to investigated layer plane. An X-ray tube and image amplifier are situated on opposite sides of the patient table. The amplifier is connected by video equipment to viewing instrument. The patient rolling table is moved by control system to ensure the required image.

Description

Radiation diagnostic device for the production of transverse

Layer images The invention relates to a radiation diagnostic device for the production of transverse slice images of a subject with a patient bed, a radiation measuring arrangement with a radiation source, which is the subject penetrating beam generated whose cross-sectional extent is perpendicular to the layer plane is equal to the layer thickness and with a radiation receiver, which determines the radiation intensity behind the object by scanning the projected Beam detected, with means for rotating the beam and the detector around an axis perpendicular to the examined layer, with a transducer for the transformation of the signals supplied by the radiation receiver into a layer image, and with a manually controllable motor for generating a relative movement between the measuring arrangement and the patient couch in the longitudinal direction of the couch by a desired one Measure.

To capture the slice image, the rotational movements can be reversed small equidistant angular amounts in alternating sequence, each with a shift the measuring arrangement along a straight line perpendicular to the central ray of the beam when using a single detector as a radiation receiver. It is but also possible; to forego the shifts when the radiation receiver is made up of a large number of radiation detectors, their signals simultaneously processed by the transducer, and if the beam is fan-shaped and hits all detectors at the same time.

In a known radiation diagnostic device of the type mentioned at the beginning Art, the exact positioning of a patient and the exact choice of slice are difficult. Namely, it is difficult to determine which body layer is in each case from the beam bundle is enforced.

The invention is based on the object of a radiation diagnostic device of the type mentioned in such a way that it is an exact one in a simple manner Positioning of the patient with respect to the measuring arrangement allowed.

This object is achieved according to the invention in that on each other opposite sides of the patient bed an X-ray tube and an X-ray image intensifier are arranged that the X-ray image intensifier is a television chain with a viewing device is connected downstream, and that switching means at the edge of the screen of the display device are arranged via the control device of the motor for bed displacement when actuated, cause the patient bed to be adjusted by such an amount, that the body layer shown opposite them on the screen into the Beam of the measuring arrangement is driven.

In the radiation diagnostic device according to the invention, the positioning can of the patient can be done precisely and quickly using the screen of a viewing device. The supply of the X-ray tube provided for the positioning can in the case in which the radiation source of the measuring arrangement is an X-ray tube, through the same High-voltage transformer done through which the X-ray tubes of the measuring arrangement is fed.

Details of the invention emerge from the subclaims.

The invention is illustrated below with reference to two in FIGS. 1 and 2 illustrated embodiments explained in more detail In Figure 1 is a known Radiation diagnostic device 1 shown, which contains a measuring arrangement, which from an X-ray tube 2 and a radiation detector 3. The radiation detector 3 receives the X-rays emanating from the X-ray tube 2 4. The De ## c # Qr, is connected to a transducer 5 connected to the one from the detector 3 converts the signals supplied into a slice image, which is displayed on a viewing device 6 is played. The patient to be examined lies on a patient couch 7, which has a roll-up sheet 8 that can be adjusted in the longitudinal direction of the bed. The roll sheet 8 can be moved in the direction of double arrow 9 by means of an electric motor 10. To the Electric motor 10 is a control device 11 and a switch box 12 with buttons 13 assigned.

To examine the patient, press one of the buttons 13, the motor 10 is switched on so that the patient is in the opening 14 of the radiation diagnostic device 1 is retracted until the transverse slice to be examined is affected by the X-ray radiation 4 is enforced. The X-ray radiation 4 can be a fine X-ray beam, its dimensions in all directions roughly equal to the strength of the one to be examined Body layer is. In this case, the body layer to be examined is scanned by alternately rotating and longitudinally displacing the measuring arrangement 2, 3. But it is also possible to use a fan-shaped X-ray beam, which is too examining body layer completely interspersed and on a number of individual detectors of the detector 3, the number of which corresponds to the desired image resolution is chosen. In this case, it is sufficient to turn the measuring arrangement 2, 3 around the patient for -a- examination. It is essential for both types that the cross-sectional dimension the X-ray radiation 4 perpendicular to the layer plane is equal to the layer thickness, that the detector 3 detects the X-rays emerging from the patient and that the beam and the detector around a perpendicular to the examined layer extending axis is rotatable during an examination.

For the exact positioning of the patient with the desired slice in the X-ray radiation 4 is a second X-ray tube 15 and an X-ray image intensifier 16 with a television camera 17 is provided. The X-ray tube 15 is known in Wise shadow images are generated on the input screen of the X-ray image intensifier 16, which are added by means of the television camera 17 and recorded via a television center 18 on one sight device 19 can be played. At the edge of the screen of the viewing device 19, a button 20 is arranged approximately in the middle, which is on the control device 11 is connected. In the control device 11, the distance A between the The central beam of the X-ray tube 15 and the X-ray radiation 4 are programmed and the control device 11 is designed so that the roll ruch 8 of the patient bed 7 when the key 20 is pressed by this distance A is moved so that the key 20 body layer shown opposite on the screen of the viewing device 19 is driven into the radiation 4. So lies on the screen of the viewing device 19 of the key 20 opposite that body layer whose examination by means of the Measuring arrangement 2, 3 is desired, the key 20 is pressed and the patient in the opening 14 is retracted so far that this layer is exposed to the X-ray radiation 4 is enforced. These are then scanned in a known manner Body layer and the preparation of a computer tomogram.

A common high-voltage transformer is used to feed the X-ray tubes 2, 15 21 provided to each of the X-ray tubes 2, 15 via a switching device 22 can be switched on.

In the embodiment of Figure 2, parts are with parts of the embodiment according to Figure 1 are the same, denoted by the same reference numerals. The difference compared to the embodiment of Figure 1 is that instead of button 20, a row of buttons 23 arranged on the edge of the screen to 29 is arranged, and that in the control device 11 except for the distance between the central beam of the X-ray tube 15 and the X-ray radiation 4, the distance of each of buttons 23, 24, 25 and 27, 28, 29 from the one in the middle on the edge of the screen Key 26 is programmed. The control device 11 is designed so that the Rolling sheet 8 of the patient bed 7 when the middle button 26 is pressed by the distance A between the central beam of the X-ray tube 15 and the X-ray radiation 4 and when pressing another key 23, 24, 25, 27, 28, 29 is moved by an amount, that corresponds to the sum or difference of this distance A and that distance speaks, the body layer corresponding to the actuated button 23, 24, 25, 27, 28, 29 from the body layer assigned to the middle button 26.

While in the embodiment of Figure 1 so initially by means of the keys 13 the patient in relation to the X-ray beam emanating from the X-ray tube 15 must be brought into such a position that the body layer to be examined is exactly opposite the key 20, is sufficient in the embodiment according to the figure 2 an approximate alignment of the patient.

The exact shift selection is then made by pressing a button.

The distance of the keys 23 to 29 from each other can be the same as the respective Be layer thickness. There can also be electronic means for mapping a grid be present on the screen of the display device 19, the spacing of the keys reproduces from each other, as shown schematically in FIG. This Grid then allows the keys 23 to 29 to be easily assigned to specific ones body layers imaged on the screen of the display device 19.

In the exemplary embodiment according to FIG. 2, as described above, an adjustment of the patient by means of the roll sheet 8 when actuating one of the Keys 23, 24, 25, 27, 28, 29 by an amount equal to the sum or difference of the distance A and that distance corresponds to one of the actuated key corresponding Body layer of a body layer assigned to the middle button 26. the The sum is to be formed when one of the buttons 27, 28, 29 is pressed and the Difference when one of the buttons 23, 24, 25 is pressed, so that also with this Embodiment always the desired body layer in the X-ray radiation-4 is when one of the buttons 23 to 29 is pressed.

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Claims (6)

Radiation diagnostic device for the production of transverse slice images a recording object with a patient couch, a radiation measuring arrangement with a radiation source, which a beam penetrating the subject generated whose cross-sectional extension perpendicular to the layer plane is equal to the layer thickness is and with a radiation receiver that the radiation intensity behind the object determined by scanning the projected beam, with means for rotating of the beam and the detector around a layer perpendicular to the examined layer running axis, with a transducer for the transformation of the radiation receiver delivered signals in a slice image, and with a manually controllable motor for generating a relative movement between the measuring arrangement and the patient bed in the longitudinal direction of the bed by a desired amount, which means that h -n e t that on opposite sides of the patient bed (7, 8) an X-ray tube (15) and an X-ray image intensifier (16) are arranged that the X-ray image intensifier (16) a television chain (17, 18, 19) with a viewing device (19) is connected downstream, and that at the edge of the screen of the viewing device (19) switching means (20, 23 to 29 are arranged, which via the control device (11) of the motor (10) an adjustment of the patient bed to move the bed when it is actuated (7, 8) to such an extent that those on the screen are opposite them The illustrated tboderschisht is driven into the beam (4) of the measuring arrangement (2, 3) will. 2. Apparatus according to claim 1, characterized in that the switching means a handle 420) arranged approximately in the middle on the edge of the screen and that in the control device (11) the distance (A) between the central beam of the X-ray tube (15) and the X-ray beam (4) programmed and the control device (11) is designed such that the patient bed (7, 8) when the handle is operated (20) is moved by this distance (A). 3. Apparatus according to claim 1, characterized in that the switching means have a number of handles (23 to 29) arranged on the edge of the screen that in the control device (11) the distance (A) between the central beam of the X-ray tube (15) and the bundle of rays (4) of the measuring arrangement (2, 3) and the distances between each handle (23, 24, 25, 27, 28, 29) from the handle located in the middle on the edge of the screen (26) are programmed and the control device (11) is designed so that the patient bed (7, 8) when the middle handle (26) is actuated by the distance between the central beam of the X-ray tube (15) and the beam (4) and when actuating another handle (23, 24, 25, 27, 28, 29) moved by a measure which corresponds to the sum or difference of this distance (A) and that distance, the body layer corresponding to one of the actuated handles (23, 24, 25, 27, 28, 29) of a body layer assigned to the middle handle (26). 4. Apparatus according to claim 3, characterized in that the distance of the handles (23 to 29) are equal to each other in terms of the respective layer thickness. 5. Apparatus according to claim 3 or 4, characterized in that means for mapping a grid on the screen that shows the distances between the Handling (23 to 29) reproduces from one another. 6. Device according to one of claims 1 to 5, in which the radiation source the measuring arrangement is an X-ray tube, characterized in that for the supply Both X-ray tubes (2, 15) have a common high-voltage transformer (21) is.