RU117611U1 - TRANSPORT FOR MEASUREMENT OF X-RAY IMAGES - Google Patents

Abstract

A protractor for measuring X-ray images, containing a disk-shaped base made of a translucent polymer with a goniometric scale from 0 to 360 °, the center of which coincides with the center of the disk, characterized in that an axis is fixed in the center of the scale, on which an arrow is mounted by means of a sliding fit, one of the the sides of which has a sharpening, the top of which is at the level of the goniometric scale, and the other side has a longitudinal groove, the middle line of which passes through the central axis of the protractor, the groove is connected to a carriage carrying a magnifying glass, the optical axis of which, marked with a cross, crosses the middle line of the longitudinal groove; The position of the optical axis of the magnifying glass relative to the central axis of the protractor is measured on a linear scale running along the groove, while the base of the protractor is electretised with an electrical potential of 3-5 kV.

Description

The proposed technical solution relates to the section of x-ray photogrammetry, and is intended for use by radiologists to quantify pathological changes in the patient’s body, for example, spinal curvature in patients with scoliosis.

Known protractor, consisting of a ruler (rectilinear scale) and a semicircle (goniometric scale), divided into degrees from 0 to 180 °. (http://www.luaz967.ru/compiz/transportir-svoimi-rukami/ [1]).

The closest in design to the claimed object is a protractor containing a base in the form of a disk of translucent polymer with a goniometric scale from 0 to 360 °, the center of which coincides with the center of the disk (Clinical and X-ray diagnosis and treatment of scleosis. - Information letter No. 9, M. : Moscow Health Committee, 2002 [2]).

To measure the curvature of the spine using an X-ray, a protractor [2] and a standard ruler that is superimposed on the protractor are used, the reference point of which (the point of intersection of the lines drawn through the angular divisions 90 °, 270 ° and 0 °, 180 °) is combined with the supporting vertebra ( usually 5 m lumbar). The ruler counts the distance from the measured vertebra (starting from the cervical) to the reference, and the deflection angle is determined by the protractor scale of the protractor. The obtained quantitative data are used to plot the curvature of the spine.

The disadvantages of the known protractor are expressed in low accuracy and duration of measurements, which is associated with the need to use an additional ruler, as well as the difficulty of measuring images that are upright on a negatoscope (most x-ray negatoscopes are mounted on the wall).

The aim of this work was to create a protractor devoid of the above disadvantages, the use of which facilitates the work of a radiologist and improves the accuracy of measurements. When creating such a device, the technical result of the claimed utility model is expressed in expanding the arsenal of technical means for measuring x-rays. It is achieved by the fact that in the protractor for measuring x-ray images, containing a base in the form of a disk of translucent polymer with a goniometric scale from 0 to 360 °, the center of which coincides with the center of the disk, an axis is fixed in the center of the scale, on which an arrow is mounted by means of a sliding fit, one side of which has a point, the top of which is at the level of the goniometric scale, and the other side has a longitudinal groove, the middle line of which passes through the central axis of the protractor, the groove is connected to a carriage carrying a magnifying glass whose optical axis, marked with a crosshair, crosses the midline of the longitudinal groove; the position of the optical axis of the magnifier relative to the central axis of the protractor is counted on a linear scale running along the groove, while the protractor is given electret properties with an electric potential of 3-5 kV.

Studies on patent and scientific-technical information sources showed that the design of the proposed protractor for measuring X-ray images is unknown and does not follow explicitly from the studied prior art, i.e. meets the criteria of "novelty" and "inventive step".

Further, our proposal is accompanied by a drawing and an explanation to it.

The protractor for measuring x-ray images contains a base 1 in the form of a disk made of a thin (1.5-2 mm) translucent polymer, for example plexiglass, with a goniometric scale 2 from 0 to 360 °, the center of which coincides with the center of the disk. In the center of the scale 2, an axis 3 is fixed, on which an arrow 4 made of transparent polymer is mounted by means of a sliding fit, one of whose sides has a pointed 5, the top of which is at the level of the goniometric scale 2. The opposite side of the arrow 4 has a longitudinal groove 6, the middle line 7 of which passes through the axis 3 of the protractor. The groove 6 is connected to the carriage 8, carrying a magnifying glass 9 with a slight increase (1.5-2.0 x). The optical axis of the magnifier 9 is marked with a crosshair 10 passing through the middle line 7 of the longitudinal groove 6. The carriage 8 can be shifted along the groove 6, while the position of the optical axis of the magnifier 9 relative to the central axis 3 of the protractor is counted on a linear scale 11 that runs along the groove 6. The base of the protractor given electret properties with an electric potential of 3-5 kV.

The methodology of using the proposed protractor, we describe on the example of measuring the curvature of the spine in patients with scoliosis.

The protractor is placed on an x-ray attached to a negatoscope. Since electret properties are given to the protractor’s base, an opposite charge is induced on the surface of the X-ray film, so the protractor is attracted to the film’s surface. By the effort of a hand, the radiologist shifts the protractor to its original position, in which the central axis of the protractor will pass through the midpoint of the upper platform 5 of the lumbar vertebra. The baseline of the protractor (the line drawn through the angular divisions 90 ° and 270 °) should be parallel to the x-axis of the x-ray image. After that, the radiologist leads the crosshair 10 of the 9 magnifier 9 sequentially to the spinous processes of the observed vertebrae, starting from 7 cervical and up to 12 thoracic. Removal of the vertebrae is determined by the linear scale 11, and the lateral displacement is determined by the goniometric scale. The obtained quantitative data are used to construct a graph of the curvature of the spine, which determines the degree of development of scoliosis.

The proposed protractor can also be used to measure flat feet and other physiological and pathological changes in the body found in an x-ray.

Claims (1)

An protractor for measuring X-ray images, containing a base in the form of a disk of translucent polymer with a goniometric scale from 0 to 360 °, the center of which coincides with the center of the disk, characterized in that an axis is fixed in the center of the scale, on which an arrow is mounted by means of a sliding fit, one of the sides of which have a point, the top of which is at the level of the goniometric scale, and the other side has a longitudinal groove, the middle line of which passes through the central axis of the protractor, the groove is connected to a carriage carrying a magnifying glass, op whose axial axis, marked with a crosshair, crosses the midline of the longitudinal groove; the position of the optical axis of the magnifier relative to the central axis of the protractor is counted on a linear scale running along the groove, while the protractor is given electret properties with an electric potential of 3-5 kV.