SU839491A1 - Stand for medical examinations with aid of radiopharmaceutic preparations - Google Patents

Description

one

The invention relates to medical technology, namely to radiological IMD diagnostic devices, and can be used in the study of the cardiovascular and other body systems.

A well-known stand for medical research using radiopharmaceuticals, which contains a table for placing the subject, collimated radiation detectors and an electronic measuring system.

However, in a known test bench, each detector registers radiation not only of a body part, but also radiation of the whole body, which makes it difficult to measure the distribution of activity over body areas, as well as determine the dynamics of activity distribution over body areas, as well as determine the dynamics of radioactivity distribution in different areas of the body. subject to stress test conditions.

The purpose of the invention is to provide a determination of the dynamics of the distribution of radioactivity in various areas of the body of the subject under the influence of stress tests.

This goal is achieved by the fact that in the stand consisting of a table for placing the subject, collimated radiation detectors from the bracket and an electronic measuring system, the table is equipped with a rotating device, sealed by the camera and guides, with the brackets of the detectors perpendicular to the plane of the table and rigidly connected with directions, with the possibility of moving parallel to the plane of the table%

The drawing shows a stand for medical research using radiopharmaceuticals, section.

The stand contains table 1, collimator detectors 2 radiation, field of view defining screens 3, sealing chamber 4 with sealing gasket 5, clamps 6, frame 7, axial rotary device 8. Table 1 is connected to frame 7 by 5 gate device 8, allowing me its angle of inclination with respect to the horizontal. Screens 3 and detectors 2 are rigidly connected to table 1 along the normal to its plane by means of brackets 9 and guides 10, along

0

by which they are able to move parallel to the plane of the table 1.

In addition, the device contains an electron-measuring system (not shown) associated with the detectors 2.

The stand works as follows. Patient 11 is placed on table 1, placed in; To measure 4, a sealing pad 5 is applied. Patient 1 and chamber 4 are fastened on table 1 with fixatives b. By moving the screens 3 and the detectors 2 on the brackets 9 along the guides 10 with their subsequent fixation, the field of view of each of the detectors 2 is set in accordance with the selected research areas (head, chest, stomach, legs). The table 1, connected to the bed 7 through the rotary device 8, is moved under the angle necessary for the study (from 0 to 90 °).

Patient il was given a radiopharmaceutical (RFP) and, at the same time, radiometry of each of the study areas and the whole body was performed. The electronic measuring system records the counting rate of the detectors 2 over time and its change as. redistribution of radiopharmaceuticals due to some processes or effects. At each time point, the count rate of each detector and the total count rate of all detectors are recorded. Comparing the results of measuring a separate detector with the sum over all the detectors, one obtains the distribution of activity over the body regions of the subject at any given time, i.e. in dynamics.

Example. The study of blood redistribution under the influence of stress tests.

A set of five detectors is used: three detectors measure radioactivity in the head, chest and abdomen, and another two radioactivity distributed in the legs (by sum). The distance between the detectors and the table with the surveyed was experimentally chosen to be O, 7 m, based on the requirement that the sensitivities of the detectors be the same for different areas. The patient is injected intravenously with an RFP that is continuously circulating in the vascular bed, for example, albumin, is labeled (s 1-131), and the redistribution of radioactivity in different areas is measured (and thus the distribution of blood volume due to direct proportionality between the blood volumes contained in radioactivity), when exposed to various stress tests that cause the effects of blood flow.

The reliability of the obtained results of blood distribution is controlled by the total count rate of all detectors, which was constant within ± 2%, regardless of how the contributions of individual detectors changed due to the redistribution of blood volumes.

A clear limitation of the field of view of each detector provides separate measurement of radiation from each area of the patient’s body with a minimum contribution from neighboring areas and at the same time allows measurement of radiation from the entire body as a sum of measurements of all detectors, which makes it possible to determine the quantitative distribution of radioactivity in different areas body of the subject. A rigid connection of detectors and screens with a bed, with the possibility of their movement parallel to the plane of the bed, ensures that the measurement geometry is reproduced and reproduced individually for each subject, and the selected geometry is maintained at any change in the bed tilt angle relative to the horizontal.

The application of the proposed device significantly expands the possibilities of functional diagnostics and research, since it allows to obtain quantitative information about the distribution and redistribution of radiopharmaceuticals in the human or animal body over time.

The advantage of the proposed device lies in the possibility of quantitative registration of any measurements in the distribution of radiopharmaceuticals directly at the time of their occurrence. This makes it possible to study the redistribution of radiopharmaceuticals under the influence of different load samples and effects, which provides the most complete information about the state of various body systems. In particular, when using a hemodynamic device, it is possible to determine the functional reserves of the cardiovascular system using various stress tests.

Claims (1)

1. Gabuni r.i. The method of radiometry of the whole body in clinical diagnostics. M., Medicine, 1975.