RU190038U1 - TEST OBJECT FOR MAMMOGRAPHY - Google Patents

Abstract

The inventive test object refers to the section of medical technology, more specifically to X-ray, and is designed to assess the possibility of detecting calcinates during mammography. The proposed test object for mammography simulates the lactic iron affected by calcinates. of calcium carbonate, having the form of a ball with a diameter of: 10 mm, 5 mm, 4 mm, 3 mm, 2 mm, 1 mm, 0.5 mm. The technical result of the utility model is expressed in expanding the arsenal of technical tools for I simulate a calcinated mammary gland. It is achieved by the fact that in a test object for mammography containing test elements, each of which is made in the form of a sphere of calcium carbonate, fixed in a radiolucent body having the shape of a semi-cylinder, in the form of rows, in each of which the centers of the test elements are on one straight, parallel to the base of the radiolucent body, at a depth equal to 0.5 of its thickness, the test elements are placed at intervals, their diameters are: 10 mm, 5 mm, 4 mm, 3 mm, 2 mm, 1 mm, 0.5 mm, while the rows of test items are located in the zone interest.

Description

The inventive test object refers to the section of medical technology, more specifically to X-ray, and is designed to assess the possibility of detecting calcifications in mammography.

The proposed test object for mammography simulates the mammary gland affected by calcinates.

Calcinates - accumulations of calcium salts, which are formed on the site of dead or irreversible tissue changes. The detection of calcifications in the chest speaks of the pathological processes that occur there. Calcinations in the mammary gland, found during mammography, should be the reason for further research. Identifying the causes of necrotic processes and their removal will help prevent further salt deposits in the chest, as well as recognize a number of diseases.

Calcinates often accompany cancer processes, so a thorough examination and regular monitoring of the dynamics of the formation of salt deposits will help to recognize a malignant tumor in time.

The reason for the formation of calcifications are also the evolutionary changes in the glandular tissue. These processes are associated with age, wilting of tissues and are natural. In this case, the characteristic form of calcinates is clearly delineated formations with a diameter of 0.5-1.0 mm. They appear singly, scattered within one lobe or several.

The shape and size of calcifications depend on the disease, against which they originated, and localization. Microcalcinates (with a diameter of 0.5-1.0 mm) are more common in malignant neoplasias, macro-formations (1 cm or more) in benign processes.

The main purpose of mammography is to obtain preliminary conclusions about the origin of calcifications. X-ray deposits usually have clear contours and shape characteristic of lobular formations. Multiple microcalcinates are considered suspicious in terms of the malignant process.

A known test object for the NUCLEAR association mammography, comprising an organic glass body, on which test elements are fixed to determine the resolution and contrast characteristics of a breast X-ray (INOVISION Company 100 Voice Road, Carle Place, NY 11514-0349 USA, 1999, p. 124-125 [1]). The well-known analogue [1] does not have calcium carbonate test elements.

Also known is a phantom for mammography 18-222, containing test elements made of calcium carbonate, fixed in a radiolucent body, having the shape of a semi-cylinder 40–50 mm thick (medmetrology.ru/products [2]).

The closest in design to the claimed object is a test object for mammography containing test elements, each of which is made in the form of a sphere of calcium carbonate, fixed in a radiolucent body, having the shape of a semi-cylinder, in the form of rows, in each of which the centers of the test elements are on one straight line parallel to the base of the radiolucent body, at a depth equal to 0.5 of its thickness (CN 202821387 U, 03/27/2013 [3]).

Analogue [3] was chosen as a prototype.

As noted above, calcinates in the mammary gland can have dimensions from 0.5 mm to 10 mm, therefore, the test object must contain test elements, the dimensions of which correspond to this range. In the prototype [3] such test elements are missing.

The purpose of this work is to create a test object for mammography containing test elements of calcium carbonate having the shape of a ball with a diameter of 10 mm, 5 mm, 4 mm, 3 mm, 2 mm, 1 mm, 0.5 mm.

The technical result of the utility model is expressed in the expansion of the arsenal of technical means for modeling the breast, affected by calcinates. It is achieved by the fact that in a test object for mammography containing test elements, each of which is made in the form of a sphere of calcium carbonate, fixed in a radiolucent body having the shape of a semi-cylinder, in the form of rows, in each of which the centers of the test elements are on one straight, parallel to the base of the radiolucent body, at a depth equal to 0.5 of its thickness, the test elements are placed at intervals, their diameters are: 10 mm, 5 mm, 4 mm, 3 mm, 2 mm, 1 mm, 0.5 mm, while the rows of test items are located in the zone interest.

Further description is accompanied by drawings and descriptions of them.

FIG. 1 shows a test object for mammography (top view), and FIG. 2 shows a section A-A of FIG.

The test object for mammography has a radiolucent housing 1, made of organic glass in the shape of a half-cylinder 50 mm thick. Organic glass is often used in medical test objects and phantoms, since the density of organic glass is close to the density of water, which is quite a lot in the soft tissues of the body. Inside the body 1 are the test element 2, made of calcium carbonate 3 in the form of a ball. This form of test elements 2 was not chosen randomly. First, many calcinates are round. Secondly, it is dictated by geometrical considerations. The fact is that on the shadow X-ray image the image of the ball can be measured with smaller errors. The test elements 2 have different sizes from 0.5 mm to 10 mm. In this range, calcifications are most often found in the mammary gland. Test items 2 are located in areas of interest. In the test object of FIG. 1 there are three of them: central C and two lateral, left L and right R. The following test elements are located in the central zone C: 2 ₁ ^{С with a} diameter of 10 mm, 2 ₂ ^{С with a} diameter of 5 mm, 2 ₃ ^{С with a} diameter of 4 mm, 2 ₄ ^{С with a} diameter 3 mm, 2 ₅ ^{With a} diameter of 2 mm, 2 ₆ ^{With a} diameter of 1 mm, 2 ₇ ^{With a} diameter of 0.5 mm. The following test elements are in the left side zone L: 2 ₁ ^{L with a} diameter of 10 mm, 2 ₂ ^{L with a} diameter of 5 mm, 2 ₃ ^{L with a} diameter of 4 mm, 2 ₄ ^{L with a} diameter of 3 mm, 2 ₅ ^{L with a} diameter of 2 mm, 2 ₆ ^{L with a} diameter of 1 mm, 2 ₇ ^{L with a} diameter of 0.5 mm. The following test elements are in the right side zone R: 2 ₁ ^{R with a} diameter of 10 mm, 2 ₂ ^{R with a} diameter of 5 mm, 2 ₃ ^{R with a} diameter of 4 mm, 2 ₄ ^{R with a} diameter of 3 mm, 2 ₅ ^{R with a} diameter of 2 mm, 2 ₆ ^{R with a} diameter of 1 mm, 2 ₇ ^{R with a} diameter of 0.5 mm. In each zone of interest C, L, R, test elements 2 form a row in which the centers of the test elements are on one straight line running parallel to the base 4 of the X-ray transparent body 1, with an interval at a depth equal to 0.5 of its thickness.

The proposed test object is designed to assess the possibility of identifying calcifications and the accuracy of determining their size on an X-ray image (mammogram). The X-ray of the test object is performed on the same X-ray machine (mammograph), which is used to take a real object - the mammary gland. The radiologist finds an image of the test elements on the received test object image and measures their diameter. By comparing the obtained values with the true values, the radiologist determines the accuracy of the radiometry of the test elements in the image.

Claims (1)

Test object for mammography containing test elements, each of which is made in the form of a sphere of calcium carbonate, fixed in a radiolucent body having the shape of a half-cylinder, in the form of rows, in each of which the centers of the test elements are on one straight line parallel to the base of the radiolucent body , at a depth equal to 0.5 of its thickness, characterized in that the test elements are placed at intervals, their diameters are: 10 mm, 5 mm, 4 mm, 3 mm, 2 mm, 1 mm, 0.5 mm, while rows of test items are located in int zones heresy.

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