SU706805A1 - Scintillation gamma-chamber - Google Patents

Description

(54) SCINTILLATION GAMMA CAMERA

The proposed camera stubble relates to devices of nuclear physics and medicine and can be used in dp studies - distribution of flux density, gamma radiation, in

in particular, in medical radioisotope diagnostics for the study of pctctp separation and redistribution of radioactive drugs in living organisms

Scintillation gamma-chambers are known, which consist of a scintillation crystal: an optical fiber, a light guide ;, a photomultiplier assembly and a signal processing system 1

The principle of operation of such devices is as follows. / Gamma quantum, interacts with the substance of the detector, causing a crystal, a radiation in a crystal that is observed by several PMTs. Since the magnitude of the luminous flux that has reached this photomultiplier depends on the distance, then comparing the amplitudes of the signals from different photomultipliers, you can determine the coordinates of the location of the flash light. The determination of the coordinates is made by an electronic device. At this device, it produces coordinate signals, the amplitude of the cochory is uniquely related to the coordinates of the scintillation,

Blindness to the present invention is a device that includes a crystal chip, an assembly of a photomultiplier and a signal processing system 2. The disadvantage of the optical device is the inability to automatically adjust the gamma camera during the investigation. The need for such an adjustment is caused by high electrical stability, line shift with high loads, which impairs simple, early resolution, linear image transmission and uniformity of sensitivity, according to the field of view of the detector. The gamma camera setting applied in the present mode is. by means of radioactive sources, decayable at a number of points on the detector plane, does not provide the required tuning accuracy (i since

5 it is impossible in the process of research of the patient. In addition, sets of radioactive sources are necessary for tuning, which create additional pressure on the service personnel.

The purpose of the invention. is the provision of high accuracy settings of the gamma camera during the research process.

This goal is achieved by introducing light diodes, pulse generators, sources of reference voltages, comparison circuits, and a signal processing system control unit into the gamma camera, the light diodes being disconnected at a number of points of the fiber or a crystal chip and connected to the pulse generators, Wahjda processing systems are connected to comparison circuits connected via voltage sources with pulse generators, and the outputs of the comparison circuit through the control unit of the processing system are connected to the processing system,

The drawing shows the block diagram of the proposed camera.

The camera contains a scintillation crystal 1, a light guide 2, a photomultiplier assembly 3, a light guide 4, a pulse generator 5, a signal processing system B, a processing system control unit 7, a comparison circuit 8, a source NIKI 9 reference voltages,

 The light diodes 4, located for example in the light guide 2, receive in an arbitrary sequence pulses from the oscillators 5, the parameters of the output pulses of the oscillators 5 are chosen so that. the characteristics of the light flashes from the LEDs were similar to the characteristics of scintillations in crystal 1. If Na3 (T8) crystal is used, the duration of the output pulses from the generators 5 is chosen equal to 1 of the ISS with a duty cycle of, for example, 1000. In this case, a properly configured signal processing system 6 should produce coordinate signals proportional to the coordinates of the location of the LEDs. The output pulses from the generators 5 also trigger the sources of the reference voltages 9. The magnitudes of the reference voltages are proportional to the coordinates of the location of the light diodes. The outputs of the sources of voltage sources 9 and processing systems 6 are connected to comparison circuits 8. If the voltages supplied to the comparison circuits from blocks 6 and 9 are unequal, the comparison circuits 8 produce error signals. These signals are sent to the control unit of the processing system 7, the output voltages of which change the gains of the nodes of the signal processing system b until the output voltages from blocks b and 9 are

0 will be equal.

Since the duty cycle of the pulses is; Vegator nerator, gamma camera auto-tuning occurs together with gamma-quanta registration. Wherein

5, there is no interference in the operation of a gamma camera, and the device can improve the accuracy of gamma-ray image transmission.

Claims (2)

1. Levkovich A, D. et al., Isotope, biointroscopy, M, Atomizdat, .1973, s, 134. 2. US Patent 3,723,735, cl. 250-71.5, publ. 1972 (prototype).