DE3234735A1 - Method and device for producing radiological tomographic images - Google Patents

Abstract

The radiological method is used for producing both linear and panoramic tomographic images using an apparatus consisting of a stationary stand (1) having a film cassette (4) supported in a moving manner and a radiation source (2) arranged in such a manner that the object to be photographed can be arranged between them and such that the X-ray beam passed through the object is always focused onto the film at the same angle. The radiation source (2) and the film cassette (4) are rotated through the magnitude of a predetermined angle about a common axis (7) while the object is being irradiated. The size of said angle is dependent on the selected presentation method and size, a correspondingly bounded X-ray beam being focused onto the object and the film being exposed during the rotation, to be precise in such a manner that, in the case of linear tomography, the complete region of the object to be presented and the film, which is held stationary during exposure, are exposed simultaneously. In the case of panoramic tomography, only a part of the region to be presented and the correspondingly, continuously transported film are exposed at one time. <IMAGE>

Description

Method and device for producing radiological tomograms The invention relates to a method for producing radiological tomograms according to The preamble of the main claim and also relates to a device for driving through of the procedure.

Torrent rams or slices show of a photographed person Subject sharp images only from one layer. Others, from the X-rays Pierced parts are shown weakened or weakened in Follow a simultaneous movement of the radiation source and the film cassette during of the procedure.

A distinction is made between linear and panoramic tomography and because there are and also notable differences in the results regarding the parameters used. With linear tomography, in a sense only one frame exposed to the X-ray, with only the photographed parts give a sharp image in relation to the center of rotation of the X-ray beam are focused or that go through the central plane. The strength of the photographed The layer is determined by the angle of rotation. In known devices are the X-ray source and the Silm cassette are not connected to one another in a stationary manner, and accordingly changes is the angle between the X-ray and the film plane and / or the distance between the X-ray source and the film cassette during the procedure.

Usually the movements are both the filin cassette and the the radiation source set up so that they take place linearly.

In the case of panoramic tomography, on the other hand, the angles of rotation are common rather big. The film is transported in the film cassette at the same time as the Rotation of the film cassette and the radiation source, and the film becomes continuous exposed through a narrow slot in the front surface of the film cassette assembly in the timing of the film advance and the object to be moved.

The sharply photo-grained panorama layer is determined by the Film transport speed, i.e., these points of the photographed object let the image become sharp at an equivalent speed to that of the film can be projected.

Especially in the case of skull radiography, both linear and Panorama tomography can be used with success because there is one in this area There is a multitude of different subjects. Versatile possibilities of radiography can only be guaranteed if facilities for both the linear as well as the panoramic tomography are available, but what a represents quite an expensive solution.

On the other hand, it is difficult in the case where from one and the same Subject a linear and a panoramic tomogram is needed, two separate ones To aim devices exactly at the same point of the object to be photographed.

The invention is accordingly based on the object mentioned above , to eliminate the disadvantages existing with known technology, i.e. both linear as well as being able to produce panoramic tomographies with one device that also simple, easy to handle and operationally reliable with the proviso that it should be more versatile tomographic possibilities.

This task is accomplished with a method of the type mentioned at the beginning the invention solved by what is covered in the characterizing part of the main claim. The device to carry out the method results from claim 6.

Advantageous developments or preferred embodiments with respect to of the method result from subclaims 2 to 5 and with regard to the device according to claims 7 to 13.

The invention is explained below on the basis of the drawing of execution examples explained in more detail.

It shows schematically Fig. 1 a front view of the invention Device; Fig. 2 is a side view of the device according to Fig. 1; 3 shows an embodiment of collimation elements suitable for the film cassette; 4 shows a solution principle for the film cassette and FIG. 5 shows an example of a solution for collimation elements Limitation of the X-ray beam in front of the object to be photographed.

In the figures, 1 denotes the stationary frame on which the radiation source 2 and the film cassette device 4 are movably arranged.

As can be seen from Fig.1,2, the radiation source 2 and the Cassette 4 is arranged on a carrier 15 which is rotatable about an axis 7. The carrier 15 is itself mounted with lasers on a movable slide 16, which in relation is arranged vertically movable on the frame 1.

The rotation of the carrier is made by a rotary drive and the movement of the carriage 16 is effected by a stepper motor 12 and a spindle 13. That The device also contained a film transport device 3, first collimation elements 8, installed in connection with the radiation source 2 to form an on the Object 5 focused beam, and second collimation elements 9, arranged on the film cassette device 4, the access to the passed through the object Determine the radiation to the film, i.e. these limit the gap 1o. With panoramic tomography the collimation elements limit the entry of harmful, diffuse radiation to the movie.

The device also has light projectors 11, the non-marking lines generate, according to which the object can be repositioned to the desired one I.a.e to be able to take photos and to be able to repeat the process.

Because the same starting position in relation to the subject with great Accuracy for the beam source 2 and the film cassette adjustable again and again is, it is a simple one that is required for the inclusion of different layers Steps to be programmed, for example with a microprocessor, which is in the switch housing (Fig.1) can be built in or integrated, in which the control system 6 for the whole device.

This control system 6 then selects, according to the selected program and the chosen photography method, the operating methods and / or positions geeicrret for different elements and also for parametric values for different movements (slide 16, rotating movement of the Tr 15, Silmtransport) and also takes care of the display and Coordination of movements, so that the recording process can be carried out fully automatically. The selection the methods are explained in detail below.

device The Fig.3 shows the principle of the formation of a film cassette 4, as it comes into question in the present case.

The device 4 has a carrier or a cassette 22 and furthermore guide plates 23, between which the collimation elements 9 are arranged are. The delimitation plates of the X-ray beam, which in this case act as collimation elements serve, can be moved in the direction of the arrow, whereby the freedom of movement is determined by the guide elements 20 and 21. The adjustment can of course with suitable and known elements are automatically designed.

As can be seen from Figure 3, the size of the opening 10 through which the X-rays pass through, determined by the respective position of the collimation elements anytime.

At its greatest width, the opening 1o can accommodate an entire recording field capture in the same time. The field to be developed is then slightly curved corresponding to the radius of curvature of the film carrier 22. It can also be a separate Film cassette 30, if necessary, can be used with the field in a Level is located .. One of these alternative possibilities is illustrated in Fig. 4, in which the outer plate 23 is provided with elements 24 which the film cassette 30 wear. In this case, the collimation elements 9 do not have to be in different Operational positions are moved because these elements 9 have no effect as a result of the stationary film cassette 30 and cause no film development.

5 shows a particular embodiment with regard to the collimation element 8. As can be seen, an electrical mechanism 25 acts on lever arms 26 on which Bearing 29 sit over which then the boundary plates 27 for the X-ray beam are rotated, wherein the width of the opening 28 changes. Such an x-ray limit can of course also be done in other ways, a variety of which are known.

A panoramic tomography is carried out as follows: The collimation elements 8, 9 are set so that they remove the rays emanating from the radiation source 2 so limit that a relatively narrow fan of rays arises or is formed. The desired position or layer of the object to be photographed is chosen by selecting the film transport speed, i.e. the Jesch speed of the film is increased during recording through the opening 10, and further through by selecting the parameters for other movements.

In cases where all the necessary parameters for the recording process programmed in advance, as mentioned above, nothing else is required as the desired program to choose, the control system 6 for all necessary Settings and controls.

As a result of a linear movement (carriage 16) the simultaneous takes place with a much more extensive rotational movement and as it does in a If panoramic tomography is required, the X-ray bundles1 can be vertical be directed and adjusted to the layer or position that are recorded target. This will significantly reduce the image distortion in the case where the Layer differs from an arc of a circle, as is often the case.

The change to linear tomography is easily accomplished on the device by since the collimation elements are brought into a position in which they pass through allow an X-ray beam whose size corresponds to the whole frame. As previously mentioned, the collimation elements 9 do not necessarily have to be moved in a case where separate film cassettes are used as shown in FIG. Also the film transport device is made ineffective, so that the entire frame or the entire recording field dem X-ray beam is exposed during the bug tomographic process. The thickness of the layer to be recorded is selected with the angle of rotation.

With the device described, it is also possible to use the Move the layer at a certain distance from the axis of rotation 7. This is done by moving the axis of rotation 7 with the carriage 16 at the same time as the rotary movement will. The speed for this movement results from the formula v = w.r where w is the angular velocity of the rotary motion and r is the distance of the selected and layer to be photographed from the axis of rotation.

Also the different parameter values that are required for a linear tomography can of course also be programmed in advance to accommodate different Kinds of standard programs to form.

Furthermore, the exposure time of the film can with linear tomography be kept constant by changing the rotational speed accordingly at the selected angle of rotation.

Claims (13)

Claims: 0 Process for the production of radiological linear and panoramic tomograms with a device consisting of a stationary frame or frame, a radiation source, a film cassette device movably mounted in relation to the frame and arranged in such a way that the object to be photographed can be positioned between these parts of the device and that of the radiation source outgoing X-ray beam after passing through the object to be recorded is focused at the same angle, preferably as perpendicular as possible to the film to be exposed, characterized in that after mutual focusing of the device and the object in accordance with the selected and to photographic layer the radiation sources. and the filin cartridge device be rotated with simultaneous irradiation around a common axis, which the Position, which determines the position to be photographed, depends on a predetermined angle of the chosen display method and the display area and that further an X-ray beam is focused on the object to be photographed, whereby the x-ray beam is so limited and the film in the cassette during the Rotary movement is exposed that with linear tomography the entire display area of the object to be photographed as well as the film exposed to the rays at the same time are with stationary holding of the film during the whole exposure and that with panorama tomography only part of the tarstella surface of the object and the film are exposed to the rays at a time when the film is in is conveyed in a known manner continuously and at a speed required for the selected layer to be photographed. 2. The method according to claim 1, characterized in that, to the move the layer to be photographed at a certain distance from the axis of rotation, the rotation axis is adjusted simultaneously with the rotary movement in the direction of the plane which is determined by the selected position to be photographed and that the Speed for moving the axis of rotation is obtained from the formula v = w.r 3. Process according to claims 1 and 2, characterized in that the photographed Layer of the object is marked by light line coordinates, so that that of lines of light incident in vertical directions show the axis of rotation. 4. The method according to claim 3, characterized in that the same Starting position of the radiation source and the film cassette device in relation on the subject or patient to be photographed is always selected by Positioning of the origo of the said light line coordinates and also of the Starting position of the rotary movement through elements of these lines of light in relation on the patient's anatomy, for example, the axes of the patient's skull, so that a certain Map direction can be repeated by using a numerically preprogrammed one Selection. 5. The method according to any one of claims 1 to 4, characterized in that that with linear tomography the exposure time of the film is kept constant by changing the speed of rotation according to the selected angle of rotation. 6. Apparatus for performing the method according to any one of the claims 1 to 5 for linear and panoramic tomography, consisting of a stationary frame (1), a radiation source (2) and a film cassette device (4) with a film transport device (3), which elements are arranged in such a way that the X-ray beam that goes through the object to be photographed always goes down meets or is focused on the film to be exposed at the same angle, preferably as vertical as possible, characterized in that the device is equipped with elements (14) and a control system (6) for the rotation of the X-ray source (2) and the film cassette device (4) about an axis (7) at a predetermined angle, the size of which depends on the selected display method and the display area, so that the object to be photographed (5) is between the beam source (2) and the filkassette device (4) is located and that the device with first collimation elements (8) for limiting the radiation to a narrow compartment in front of the entry into the object is provided and further with second collimation elements (9) which are to be adjusted between the object (5) and the film cassette device (4) which has a slot (10) has, in principle only corresponding to the narrow fan beam and permeable for the rays, and that elements for the actuation of the collimation elements (8,9) and the pilm transport device (3) are provided for panoramic tomography, e.g. through their movement into a certain operating position, whereby the film, transported continuously exposed within the film cartridge device (4) is through the slit (lo) and through the tightly collimated rays that the to be photographed Subject have happened and finally that elements for the realization of effects are provided with respect to a linear tomography, for example. By their disengagement from the operating position, with the film stationary within the film cassette device (4) is kept exposed and that the entire display area through at once the X-ray beam that passed the object. 7. Apparatus according to claim 6, characterized in that the film cassette device (4) for linear tomography with elements (24) for a separate film cassette (3o) is, in which the whole display area of the film, which at one time the rays suspend is a uniform level of representation. 8. Apparatus according to claim 7, characterized in that the elements (24) are mounted stationary on a film support (22), provided for the movable Film or on an element (23). 9, device according to claim 7 or 8, characterized in that the elements (24) are arranged between the collimation elements (9) and the object (5). 10. Apparatus according to any of claims 6 to 9, characterized in that that it is with luminous line coordinates to indicate or mark the to be photographed Layer is provided in such a way that the axis of rotation (7) is indicated by luminous lines entering in vertical directions from projectors (11). 11. Apparatus according to claim lo, characterized in that the Origo these luminous line coordinates and the starting position for the rotary movement 3 device by means of the luminous lines are arranged to be irmer in the same proportion to the Anatomy of the patient (5), for example the axes of his skull, to stand, to be tomographed is, so that a certain direction of representation can be repeated by using preprogrammed numerical selection. 12. Apparatus according to any of claims 6 to 11, characterized in that that for the transfer of the layer to be photographed in a certain distance to Axis of rotation (7) the axis of rotation (7) is arranged such that it is simultaneous with the Rotational movement in the direction of the retracted position to be photographed tranaferred and that the speed of the transfer movement is selected according to the formula v = w. where w is the angular velocity and r is the distance of the selected and layer to be photographed from the axis of rotation. 13. Apparatus according to any of claims 6 to 12, characterized in that that the control of the device in the form of a microprocessor is provided in such a way, that the control and display (monitoring) of the rotary evaluation is effected by Speedometer pulse elements that are connected to a rotary motor (14) and that possibly Transfer movements of the axis of rotation (7) are provided during the tomography namely to appear synchronized with the rotational movement, preferably by one Stepper motor (12) and a spindle mechanism (13). ~