RU168524U1 - STANDARD FOR X-RAY X-RAY SITOMETRY - Google Patents

Abstract

The utility model relates to the field of medical technology, more specifically to x-ray technology, and is intended to determine the optical density of the x-ray image. The objective of the proposed technical solution is to create a standard for x-ray densitometry, which can change its geometry, while its calibration elements can be placed close to the object of study. The task is achieved in that the standard for x-ray densitometry, containing a set of calibration elements of a flat shape, has a body in the form of a ribbon holder of rigid material consisting of movably connected cells in which calibration elements are fixed, while the base of all cells and the lower planes of the calibration elements fixed in cells, are constantly located in one geometrical plane. The technical result of the utility model is expressed in increasing the accuracy of the measurements. The proposed technical solution can be used to identify bone pathology, for example, in the diagnosis of vibration disease. It can also be used to determine the contrast sensitivity of the X-ray diagnostic apparatus and to calibrate the densitometric scale of the X-ray osteodensitometer. The proposed standard for x-ray densitometry can be widely used in clinical radiology. 1 n.p.f.

Description

The utility model relates to the field of medical technology, more specifically to x-ray, and is intended to determine the optical density of the x-ray image.

A well-known standard for X-ray densitometry made of aluminum in the form of a wedge (Shik Y. L. Ways of development of X-ray densitometric studies of the morphology and function of human organs. Bulletin of radiology and radiology, 1971, No. 5, pp. 85-89).

A standard for X-ray densitometry made of wedge-shaped aluminum is also known (Nuclear Associates Diagnostic imaging and radiation therapy catalog, 1999, p. 50).

The closest in design to the claimed object is a standard for X-ray densitometry, containing a set of parallel-mounted calibration elements made of a homogeneous material, for example, aluminum, in the form of plane-parallel plates of various thicknesses (Chikirdin E.G., Mishkinis AB, Technical encyclopedia of the radiologist , M., MIPI, 1996, p. 170,) - prototype.

A disadvantage of the known standards for X-ray densitometry, including the prototype, is that they have a rigid structure that does not allow changing the geometry of the standard and placing calibration elements in the immediate vicinity of the object of study, which leads to a decrease in measurement accuracy.

The objective of the proposed technical solution is to expand the arsenal of technical means of X-ray densitometry, namely, the creation of a standard for X-ray densitometry, which can change its geometry, while its calibration elements can be placed close to the object of study.

The technical result of the utility model is expressed in increasing the accuracy of the measurements.

The task is achieved in that the standard for x-ray densitometry, containing a set of calibration elements of a flat shape, has a body in the form of a ribbon holder of rigid material consisting of movably connected cells in which calibration elements are fixed, while the base of all cells and the lower planes of the calibration elements fixed in cells, are constantly located in one geometrical plane.

Studies on patent and scientific and technical information sources have shown that the design of the proposed standard for x-ray densitometry is unknown and does not follow explicitly from the studied prior art, i.e. meets the criteria of "novelty."

The proposed standard for x-ray densitometry is simple and can be manufactured in modern domestic production, i.e. industrially applicable.

The proposed technical solution is illustrated in the drawing.

In FIG. 1 shows a link of three cells included in the ribbon holder of the standard, top view, in FIG. 2 is a section along A-A of the ribbon holder of the standard for X-ray densitometry, FIG. 3 shows the standard for x-ray densitometry near the object of study at the time of x-ray densitometry.

The standard for X-ray densitometry is made in the form of a tape holder of hard material, for example, stainless steel, consisting of leads 1 and cells 2 of a cylindrical shape. Inside each cell 2 there is a through cylindrical hole 3 of a stepped form. The geometric axis of the through hole 3 coincides with the geometric axis of cell 2. Inside each cell 2, a calibration element 4 is fixed. Each calibration element 4 is made of a uniform material, for example, aluminum of the same brand in the form of a stepped cylinder. As cell number 2 increases (from 1 to n, where n is the total number of cells 2 included in the ribbon cage), the thickness of the calibration elements 4 changes stepwise by Δh, for example, equal to 1 mm, which characterizes the accuracy of the standard.

In FIG. 1 shows a link of three cells 2 included in a ribbon clip. All cells 2 included in the tape clip are connected by a lead 1 with the possibility of movement relative to each other. Structurally, this connection is formed by a groove 5 of an annular shape made on the outer surface of each cell 2, to which, by means of a sliding fit, a ring 6 is connected rigidly connected to one side of the lead 1. The other side of the lead 1 is rigidly connected to an adjacent cell 2. A sliding fit between the ring 6 and a groove 5 in each cell allows you to deploy cells 2 and change the geometry of the tape holder of the standard.

In FIG. 1, one of the cells 2 is rotated relative to the neighboring cell 2 by an angle α. The base of all cells 2 and the lower planes of the calibration elements fixed in cells 2 are in the same geometric plane. Mutual reversal of cells 2 does not change this position.

In FIG. Figure 3 shows an example of the use of the proposed standard for x-ray densitometry of the bone structure of the hand, carried out with the aim of determining decalcification in persons suffering from vibrational disease. The patient’s hand K is placed on deck 7 of the X-ray table. A flexible ribbon holder of the standard allows you to place its calibration elements 4 near the object of study, which provides optimal conditions for x-ray densitometry.

The measurement of the optical density of the x-ray image is performed on a digital display, which is part of modern digital x-ray machines. X-ray densitometry is performed by comparing the optical density of the zone of interest (for example, images of the phalanges of the hand) with the optical density of the image of the calibration elements 4.

Practical application of the proposed technical solution allows the radiologist to quickly and accurately determine the degree of decalcification of bone tissue in the patient, as well as to assign the patient the most effective treatment.

The proposed technical solution can be used to identify bone pathology, for example, in the diagnosis of vibration disease. It can also be used to determine the contrast sensitivity of the X-ray diagnostic apparatus and to calibrate the densitometric scale of the X-ray osteodensitometer.

The proposed standard for x-ray densitometry can be widely used in clinical radiology.

Claims (1)

A standard for X-ray densitometry, containing a set of calibration elements of a flat shape, characterized in that it has a housing in the form of a ribbon holder of a rigid material consisting of movably connected cells in which calibration elements are fixed, while the base of all cells and the lower planes of calibration elements are fixed in cells, constantly located in one geometric plane.