SU1586684A1 - Apparatus for decoding roentgenograms - Google Patents

Abstract

The invention relates to medical technology. The purpose of the invention is to improve the quality of decoding radiographs by determining the localization of morphological structures on the radiograph and obtaining the largest number of measurement parameters characterizing the size, position and relative position of the morphological structures relative to each other. For this, the device is equipped with a variable scale grid, a limb of transparent material moving relative to the screen, including a graduated scale, a central lens, a fixed and rotatable lens ruler, with a rotating ruler movably fixed around the central lens with the possibility of fixing the linear and angular parameters of the morphological structures under investigation on the roentgenogram . 2 Il.

Description

The invention relates to the field of medical technology and is intended to determine the size, position and relative position of the morphological structures on radiographs.

The purpose of the invention is to improve the quality of decoding radiographs by determining the localization of morphological structures on the radiograph and obtaining the largest number of measurement parameters characterizing the size, position and relative position of the morphological structures relative to each other.

FIG. 1 shows the device, front view; in fig. 2 - movable limb, top view.

The device for decoding radiographs consists of a housing 1 within which the electrical parts are located; fluorescent lamps, starters, throttles, mechanism 2 for adjusting the angle of inclination of the body relative to the horizontal plane, stand 3, screen 4, metal lifting frame 5 with a window attached to the body 1 on one side. Screen 4 freely accommodates a variable variable grid 6 and is movable relative to screen limb 7, made of transparent material. Limb 7 consists of a ring 8 with a graduated scale, the circumference along which the magnets 9 are fixedly mounted for fixing the limb 7 with the metal frame 5, the fixed lens-line 10, which is fixedly connected with the end of the limb ring 8, and at the other end has a fixedly mounted central lens 11 of the rotating lens-ruler 12, which is at one end movably connected to the central

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1 on 11, with the other end freely moving around the circumference of ring B.

The device works as follows.

The housing 1 is installed on the horizontal surface of the table and with the help of the regulating mechanism 2 is placed at an angle O - 90 °. On a luminous screen | 4, a scale variable grid 6 is placed, over which the radiograph is placed and fixed with a metal lifting frame 5 with a window. The movable limb 7 is then installed so that the central lens 11 and the lens ruler 10 and 12 are located on the radiograph, and the ring of limb 7 is on the metal frame 5. The limb 7 is moved to the studied region of the radiograph, using the central lens 11 the structure and localization of the anatomical formation and set the limb 7 in this position with the center of fixation at the point Xi. Then, rotating the dial 7 at the ring B (with the center of rotation at the point Xi, fix the fixed ruler-lens 10 on the other morphological structure Xa under study and determine the distance from the point Xi to the point X2. After that, the position of the limb 7 does not change the ruler-lenses 12 determine the localization of the morphological structure, the distance from the point Xi to the point Xs, and at the same time determine the size of the angle XzXtX on the graduated scale of ring B. Further movement of the rotating ruler lens, 12 around the circumference allows you to determine The morphological structures X4, HB located on the radiograph in the radius of the ring 8. Having received a certain number of informative measuring parameters characterizing the size and position of the morphological structures relative to the structure Xi, limb 7 is transferred to another region of the radiograph and the central lens 11 is installed on the new structure YI. the central lens 11 and the ruler lenses 10 and 12 in the same manner as for the Xi structure, reveal the localization of the Y2, Uz structures. V4, .., and determine the linear and angular parameters characterizing the size and position of these structures relative to the V1 structure.

After obtaining quantitative characteristics of the relative position

a check and straight lines (lengths and angles) are compared with the existing regulatory data, deviations from the norm are determined, and on this basis, the diagnosis of violation of the size and position of the morphological structures of the anatomical object is made.

The use of limbus 7 in combination with the scale grid 6 makes it possible to reveal the localization and measure only the coordinates of the morphological structures (points) being studied. Using special formulas, the linear and angular dimensions of the morphological structures are calculated from the coordinate values. Moreover, depending on the compiled 5 computer programs, one can analytically obtain a greater number of diagnostic measurement parameters with a smaller number of measurements on the radiograph.

The device allows radiographs to be encrypted either with or without drawing a preliminary drawing on the image, which ensures the safety of the x-ray image for repeated studies and reduces the cost of working 5 times to decode the radiograph. Accelerating the processing of radiographs with the greatest possible receipt of the initial diagnostic parameters is an important condition in the work of the physician, as well as in scientific 30 studies in the processing of a larger number of radiographs.

Claims (1)

Invention Formula 35The device for decoding radiographs, comprising a housing with undergrowth, a screen, a mechanism for adjusting the angle of inclination of the housing relative to the horizontal plane, characterized in that, with 40 to improve the quality of decoding radiographs by determining the localization of morphological structures on the radiograph and obtaining the largest number of measurement parameters characterizing the size, position and relative position of the morphological structures relative to each other, the device is equipped with a scale variable grid that is movable relative to the screen A 50 limb of transparent material, including a circular graduated scale, a central lens, two lens rulers, one of which is fixed and the other is fixed for rotation around 55 of the central lens in the plane of the limb. Fy i2