SU306661A1 - Automatic scanning unit to measure body radioactivity - Google Patents

Description

The invention relates to devices for the radioactive diagnosis of the whole body with its counter, specifically, to scanning devices for measuring its radioactivity.

The known automatic installations for these purposes contain several detectors located on the ring with free movement in three directions. Their disadvantage is that they do not automate the measurement process.

In the proposed installation, the detecting system is connected to an electronic digital computing machine (ECLB. Lastly, after processing the data with io, the feedback power transmits to the detecting system commands that control the process of measuring and moving detectors.

To simplify the device, the amplitude-time converter of the system is connected directly to that part of the storage device of the ECM where the measurement of the measured spectra occurs.

The detector detectors are equipped with collimators that can be filled with mercury. This makes it possible to extend its range of use, since it becomes possible to measure radioactivity not only of the whole body, but also of its individual parts at any predetermined points.

Pa drawing presents a block diagram of the proposed installation.

It contains several detectors 1-4 which can move freely in three directions. The detectors are equipped with removable collimators, each of which is a hard aluminum shell, where mercury is poured to collimate the incident gamma radiation. The envelope volume is connected by pipes with an additional reservoir away from the detector. Mercury can be poured into it. When mercury is in this tank, the radiation penetrates the detector from all sides, since the shell practically does not interfere with the cooling of the radiation. This provides for the possibility of iiiocTb measurement by the same detector of the "wide and" narrow beams of radiation alternately, i.e. using the whole body count detectors to measure local sources of radioactivity accumulation.

Detectors detecting radiation can be moved along three coordinates in a cylindrical coordinate system (r, z, f).

The detection system is connected to an electronic digital computer (ECM) 5 by an external execution register 6, to which the collimation switching unit 7 is connected and the aerosm control unit 8 is connected to the detectors. Through- unit 8, the engines are powered; 9-movement of detectors along the bed with an iziikent of axis 2, 10 - rotation of the detectors by an angle φ and AND-changing the distance of the detectors from the bed with the patient to a radius of G. The current position of each coordinate is removed by the corresponding coordination counters 12-I and fed through register 15 and a PC. The signals from the detectors 1-4 are mixed in system 16, amplified by amplifier 17 and through a transformer 18 and transformer 18 are loaded into the oiarative memory of the RAM of the ECL. The power supply of the detectors is carried out by the power supply unit 19. Timer 20 is set for setting time intervals to the digital computer, and a set of output devices 21 is used for outputting the information contained in the RAM.

After the subject has been prepared for the study and is placed in bed between the sensors, the programs of the long-term storage memory of the computer are included, for example, for each individual or group of subjects. The measurement cycle begins with the installation of sensors in a similar position. Motors 9-11 move the unit of detectors 1 --- 4 until, while counters 12-14 are not in cc, the coordinate values provided for by the computer program. After that, it is necessary to measure the radioactivity of the patient’s entire body, block 7 to disable the detector collmation and turn on the engine 9 for ekening sensors along the body of the subject. At the same time, the amplitude-time transformer 18 is turned on, and in a dedicated part of the RAM, the digital computer starts a spectrum of the amplitude distribution of gamma quanta. From the moment of the start of the game, TAM is also included, and the measurement time is accumulated in the same RAM cell. As the values of the Z coordinate in counter 12 are changed by block 8, the voltage on the motor 9 changes to a given program. This causes a change in speed and movement of the detectors on the z axis, i.e., variable speed scanning.

After the measurement of the radioactivity of the body is completed, and if the program provides for the measurement of radio activity, the parts of the body are collimated -,

the detectors include the motors moving the detectors to the point e with the coordinates specified by the program. At the same time, the information obtained during the previous measurement is processed and the results are output by the output devices 21 or the recording of them in the DZU. After that, the RAM is updated () to record the next measurement. When the required coordinates are obtained, the collimation of the detectors is turned on and the amplitude spectrum is measured at a given point in the same way as described above.

The spectrum is measured at a predetermined timer 20 times the frequency of a given number of pulses in any canaste (RAM cell). At the end of the measurement, the detectors are moved to the next point, and the results are processed. This happens until all the points, provided by the program, are measured.

If repeated measurements are needed on the next days, the previous results will be stored in the DZU, and after the end of the study, the ECM will retrospectively process the entire cycle and produce the final results (for example, the speed and initial amplitudes for removing the radioactive label from the body and individual organs).

Form m u ol a and 3 o b e te n u

Claims (3)

1. Automatic scanning of a body radioactivity measuring system with several detectors, resolved 1; ennp1m on a ring with free movement in three measurements, characterized in that, in order to automate the measurement process, the detection system is connected to a digital computing machine, and a processing computer data with help1, through feedback on the detecting system of the command, which guides the process; -sizing and transferring: a series of detectors. 2. Installation but also. 1, characterized in that, in order to simplify the device, the amplitude-time transducer detectors of the scopes removed. We are connected not directly with that part of the restoring device of the digital electronic computer in KOTOpoii, the tip of the measured spectra is produced. 3. Utae11ka p. 1, characterized with diabazone forging extensions, siabjela detectors eaten up: -: ollimators, which, if necessary, can be used to measure body parts; i; mercury. w and sh w