RU99696U1 - DEVICE FOR X-ray-scintigraphic marking of zones of anatomical object - Google Patents

Abstract

 A device for X-ray scintigraphic modeling of zones of an anatomical object, characterized in that the marker is made in the form of a cylindrical container, which is closed with a threaded cap made of a polymer material, at the bottom of the device is a material that effectively delays x-ray radiation (lead), and a removable insert is placed in the cavity of the device from an absorbent material with a liquid radiopharmaceutical, and the marker is fixed on the patient’s body with adhesive tape.

Description

The utility model relates to medicine, namely to devices used in radiation diagnostics, and can be used for examination by x-ray and scintigraphy.

A device for conducting topographic and anatomical studies, made in the form of a mesh structure consisting of a main and auxiliary spokes, equipped with fixing elements (1).

The disadvantage of this device is that it cannot be used when conducting scintigraphic studies and obtaining combined X-ray radionuclide images (alloys) in multimodal imaging.

A device is known - x-ray locator for puncture biopsy of the lung, containing a centering device with radiopaque landmarks (2).

The disadvantage of this device is that it cannot be used to obtain marking marks on scintigrams necessary for obtaining combined images (alloys) in multimodal imaging. In addition, the use of the device is limited to one anatomical region, namely, the determination of the coordinates of intrapulmonary formations.

A device in the form of a test object intended for stereophotogrammetry containing reference marks in the form of parallel radiopaque filaments (3) is known.

The disadvantage of this device is that it cannot be used during radionuclide imaging (scintigraphy) and cannot be used to obtain combined images (alloys) in multimodal imaging.

A device for interstitial labeling of a breast tumor is known, consisting of a puncture needle and an interstitial marker made of titanium nickelide wire (4).

The disadvantage of this device is that it cannot be used in scintigraphic studies and is limited to use in one anatomical area, namely for interstitial labeling of a breast tumor.

A device is known for x-ray marking of areas of an anatomical object when examined on a computer tomograph, mainly of the abdominal cavity, made of an elastic polymer material and filled with a radiopaque substance "Omnipack-240" (5).

The disadvantage of this device is that it cannot provide marking of the zones of anatomical objects during scintigraphy, which does not allow to obtain combined X-ray-radionuclide images (alloys) with the help of a known device during multimodal imaging.

This device is the closest in technical essence, and it is accepted as a prototype.

The technology of obtaining combined medical images in multimodal imaging is an important area of radiation imaging, the task of which is to increase the accuracy of diagnosis by combining images in one image (alloy), which reflects various properties of the organ or system under study. For example, by combining the anatomical structures visualized on the x-ray, with their functional state, which reflects the scintigram. In this case, it is necessary to ensure the exact anatomical combination of the x-ray and scintigrams, as well as the possibility of hardware correction of projection and non-linear transformations that occur during the registration of medical images.

Thus, the proposed device should be able to label both shadow anatomical images (radiographs) and scintigrams that reflect the functional accumulation of radiopharmaceuticals in organs and tissues.

The purpose of creating a useful model is to increase the efficiency of diagnostics by accurately comparing the results of x-ray and radioisotope studies when obtaining combined (fused) medical images.

This goal is achieved by the fact that the marker is made in the form of a cylindrical container, which is closed by a threaded cap made of a polymer material, a material is located at the bottom of the device that effectively delays x-ray radiation (lead), and a removable insert made of absorbent material with a liquid radiopharmaceutical is placed in the cavity of the device, and the marker is fixed on the patient’s body with adhesive tape.

Comparison of the proposed device with others known in the field of medicine, showed its compliance with the criteria of a utility model.

A useful device is illustrated in graphic material. The figure 1 shows a marker made in the form of a cylindrical container with a sealed threaded cap made of a polymer material. In figure 2 - section aa in figure 1. In figure 3 - section bb in figure 2.

The proposed device for x-ray scintigraphic marking of the zones of the anatomical object is made in the form of a cylindrical container 1 of polymer material, the outer diameter of which is 15 mm, the height of the marker is 15 mm, the diameter of the cavity is 11 mm, and the height of the cavity is 13 mm. The bottom of the tank is lined with substance 2, which effectively retains x-ray and gamma radiation (for example, lead), 3 mm high and 11 mm in diameter. The marker is closed by a threaded cap 3 made of a polymeric material that is good at transmitting x-ray and gamma radiation, with a sealed gasket 4. A removable liner of absorbent material 5 is placed in the cavity of the device, into which, immediately before the start of the study, a liquid radiopharmaceutical (RFP) is introduced. The marker is fixed on the patient's body using adhesive tape 6.

The device is used as follows.

Before starting the study, the proposed device is prepared for use by introducing 0.1-0.2 ml of liquid radiopharmaceutical based on technetium-99m with an activity of 10-20 MBq into the adsorbing material. On the patient’s body, covering the studied region, several marker devices are placed. After fixing the devices, an X-ray examination is performed, then, without changing the location of the markers, scintigraphy is performed.

During an X-ray examination, the lead located at the bottom of the device delays X-rays, forming a shadow mark on the X-ray diffraction pattern, and during scintigraphy, gamma radiation from a liquid radiopharmaceutical located in the cavity of the device marks this point on a scintigram.

The positive effect of using the utility model is expressed in the fact that it provides the presence of reference marker marks on x-ray and scintigrams, which allows for accurate hardware or semi-automatic combination of images with correction, if necessary, of geometric and projection distortions. The proposed utility model can be used in various fields of radiation diagnostics, for example, in osteology for accurate comparison of structural changes in bone tissue with the level of osteoblastic activity, for localization of the accumulation of tumor-like radiopharmaceuticals on chest radiographs, for a coupled assessment of impaired excretion of nephrotropic radionuclide indicators with anatomical changes pyelocaliceal system of the kidneys.

INFORMATION SOURCES

1. USSR author's certificate No. 1053823, cl. A61B 19/00, 1983.

2. USSR author's certificate No. 554858, cl. A61B 6/10, 1977.

3. USSR author's certificate No. 644463, cl. A61B 6/02, 1979.

4. Certificate for utility model of the Russian Federation No. 33855, cl. A61B 17/00, 2002.

5. Certificate for utility model of the Russian Federation No. 65746, class. A61B 6/00, 2007.

Claims (1)

A device for X-ray scintigraphic modeling of zones of an anatomical object, characterized in that the marker is made in the form of a cylindrical container, which is closed with a threaded cap made of a polymer material, at the bottom of the device is a material that effectively delays x-ray radiation (lead), and a removable insert is placed in the cavity of the device from an absorbent material with a liquid radiopharmaceutical, and the marker is fixed on the patient’s body with adhesive tape.