RU114792U1 - X-ray Label - Google Patents

Abstract

X-ray topographic label containing a radiopaque element of a spherical shape with a diameter of 1.0-1.5 mm, fixed on a radiolucent base, characterized in that the base is made of an electret with an electric potential of 3-5 kV in the form of a hollow cylinder, at the base of which two through mutually intersecting a groove with a width of 0.3-0.5 mm, while the cavity of the cylinder is filled with a coloring gel and closed with a cover made of elastic material, and the radiopaque element is fixed at the intersection of the grooves.

Description

This technical solution relates to the section of x-ray photogrammetry and is intended for marking the subject under stereoscopic x-ray diffraction.

Known x-ray label containing a radiopaque element of a spherical shape, mounted on the top of the rack of x-ray transparent material (RF Patent No. 98575 U1 from 06/01/2010, IPC G01C 11/06, G03B 42/02 [1]).

The well-known label [1] is a structural element of a test object intended for calibration of an X-ray apparatus and cannot be used to mark the subject.

The closest in design to the claimed object is an x-ray topographic label containing a radiopaque element of a spherical shape (lead ball), with a diameter of 1.0-1.5 mm, mounted on an x-ray transparent basis. An x-ray topographic mark is fixed on the patient’s body (in the zone of interest) with an adhesive plaster. The position of the radiopaque element on the patient’s body is marked with a felt-tip pen. In the future, this mark is used by the surgeon to orient the instrument during surgical treatment, which is carried out according to the stereoscopic x-ray data (Cherniy AN Development of the theory and technology of testometric X-ray topography. - The dissertation for the degree of Doctor of Technical Sciences. - M., 1988. - C .269 [2]).

An analogue [2] was chosen by us as a prototype. This analogue has two major disadvantages. Firstly, labeling on the patient’s skin with a band-aid is not always possible due to an allergic reaction of the body. Secondly, the doctor’s marking the location of the radiopaque element on the patient’s body with a felt-tip pen has low accuracy.

When creating a new design of the x-ray topographic mark, we pursued two goals: firstly, ensuring independent fixation of the mark on the patient's body; secondly, improving the accuracy of marking the position of the radiopaque element of the label on the patient’s body.

To achieve these positive results, in an X-ray topographic label containing a spherical X-ray element with a diameter of 1.0-1.5 mm, mounted on an X-ray transparent basis, its base is made of an electret with an electric potential of 3-5 kV in the form of a hollow cylinder, at the base of which two through mutually intersecting grooves 0.3-0.5 mm wide are made, while the cylinder cavity is filled with a coloring gel and covered with a lid of elastic material, and the radiopaque element is fixed at the intersection of the groove at.

Studies on patent and scientific and technical information sources have shown that the design of the proposed x-ray topographic mark 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 drawings and explanations to them. Figure 1, shows the x-ray topographic label (side view), figure 2 is the same label (bottom view, A, figure 1). Figure 1 - x-ray topographic mark on the patient's body (side view in section).

The x-ray topographic label has a base in the form of a hollow cylinder 1 of an X-ray transparent electret with an electric potential of 3-5 kV. Can be used, for example, a polycarbonate thermoelectric. A thermoelectric material is obtained by heating and then cooling the material in a strong electric field. At the same time, it is ensured that the electric charge, for example positive (+), is uniformly distributed in the plane of the base 2 of cylinder 1. The base of cylinder 2 has a diameter of 15-20 mm. At the base of cylinder 2, two through mutually intersecting grooves 3 and 4 are made of a width of 0.3-0.5 mm. At the intersection of grooves 3 and 4, a radiopaque element 5 of a spherical shape, with a diameter of 1.0-1.5 mm, for example, a lead ball, is fixed. The cavity of the cylinder 1 is filled with X-ray transparent coloring gel 6, which can be made, for example, of petroleum jelly with the addition of diamond greens. After filling the cavity of the cylinder 1 with a coloring gel 6, the cylinder 1 is closed with a lid 7 made of X-ray transparent elastic material, for example synthetic rubber.

An x-ray topographic label is placed on the skin of 8 patients in the area of the proposed surgical intervention (figure 3). Under the influence of a high positive (+) electric potential, which is charged with the base 2, a negative (-) electric charge is induced on the skin surface 8. Positive (+) and negative (-) electric charges are attracted to each other, as a result of which the x-ray topographic mark “sticks” to the skin of the patient 8 and can be held in this position for a long time. In this position of the x-ray topographic mark, stereoscopic radiography of the object of study is performed. After turning off the x-ray machine, the doctor presses the lid 7, while the coloring gel 6 partially passes through the grooves 3 and 4 of the base 2 of the cylinder 1 and leaves a green cross mark on the surface of the skin 8, which remains after removing the mark. The cruciform mark is used by the surgeon to aim the instrument into the lesion, for example, a trocar into the tuberculous cavity, which is made according to x-ray topographic data obtained as a result of photogrammetric processing of the x-ray stereo pair.

Claims (1)

X-ray topographic label containing a spherical X-ray contrast element with a diameter of 1.0-1.5 mm, mounted on an X-ray transparent basis, characterized in that the base is made of an electret with an electric potential of 3-5 kV in the form of a hollow cylinder, at the base of which there are two through mutually intersecting a groove of 0.3-0.5 mm wide, while the cylinder cavity is filled with a coloring gel and covered with a lid of elastic material, and the radiopaque element is fixed at the intersection of the grooves.