RU83681U1 - DEVICE FOR REDUCING THE DOSE OF IRRADIATION OF THE PATIENT WITH X-RAY DIAGNOSTICS - Google Patents

Abstract

1. A device for reducing a patient’s radiation dose during an X-ray diagnostics, including an X-ray fluorography apparatus comprising an X-ray emitter, a high-voltage generator connected to an X-ray emitter, a fluorography camera with a luminescent screen, a protective tube, an imaging system and a photographic attachment, an exposure relay including a signal receiving means proportional to the dose rate of the x-ray radiation, an integrator connected to its output and connected to the output the integrator has an actuator connected to a high-voltage generator, as well as a means for marking images by entering on the card the patient’s credentials in the field of action of the imaging system of the fluorographic camera, characterized in that the device is equipped with a microchannel amplifier having its own power supply and integrated into the focusing device of the system image formation. ! 2. A device for reducing a patient’s radiation dose during X-ray diagnostics, comprising an X-ray emitter with a high-frequency type power supply and an X-ray image receiver in the form of a digital fluorographic camera having an X-ray and light-tight housing with an input window, a closed scintillation screen, with which an optical fast forming system is optically coupled images connected via an analog-to-digital converter to a computer equipped with a video monitor and printer, characterized in that the device is equipped with a microchannel amplifier having its own source

Description

The proposed utility model relates to medical x-ray technology.

One of the most widespread methods of x-ray research in medicine is fluorography, in which the X-ray optical conversion and optical transfer of the image of the object under study are studied with a decrease in the photographic fluorographic film.

The closest technical solution to the proposed one is an X-ray fluorography apparatus containing an X-ray emitter, a high-voltage generator connected to an X-ray emitter, a fluorography camera with a luminescent screen, a protective tube, an imaging system and a photographic attachment, an exposure relay including means for receiving a signal proportional to the dose rate of the X-ray radiation, an integrator connected to its output and connected to an integrator output will execute an integral element connected to a high-voltage generator, as well as a means for marking images by entering on the card the patient's credentials in the field of action of the imaging system of the fluorographic camera.

(see AS of the USSR No. 915296, publ. 23.03.82., Cl. H05G 1/60; АВВ 6/00;)

Such a fluorographic apparatus is produced today by X-rayprom and is used in medicine. Industrial name: 12F9. (see http://www.roentgenprom.ru/products/catalogue/12f9/

However, in the known x-ray fluorography apparatuses of the type described, the patient receives a significant dose of x-ray radiation. Because of this, no more than one fluorogram per year is allowed for each patient.

The technical result of the proposed utility model is to significantly reduce the dose of x-ray radiation to the patient.

This object is achieved in that the device for reducing the dose of the patient during x-ray diagnostics, includes an x-ray apparatus containing an x-ray emitter, a high voltage generator connected to the x-ray emitter, a fluorographic camera with a luminescent screen,

a protective tube, an imaging system and a photographic prefix, an exposure relay, including means for receiving a signal proportional to the dose rate of X-ray radiation, an integrator connected to its output and an actuator connected to the integrator output, connected to a high-voltage generator, as well as a means for marking images by introducing card of patient credentials in the field of action of the imaging system of the fluorographic camera.

In accordance with the inventive step of the utility model, the device is equipped with a microchannel amplifier having its own power supply and integrated into the focusing device of the imaging system.

The microchannel amplifier significantly increases the brightness during image formation, which provides a significant reduction in the dose of x-ray radiation to the patient.

According to the second variant of the proposed utility model, a digital X-ray diagnostic apparatus for lung examination containing a X-ray emitter with a high-frequency type supply device and an X-ray image receiver - a digital fluorographic camera can be taken as a prototype. The digital fluorographic camera has an x-ray and light-tight housing with an entrance window covered by a scintillation screen, with which an optical optoelectronic system is optically coupled, connected via an amplifier and an analog-to-digital converter to a computer equipped with a video monitor (see US patent 5465284, publ. 1995-11- 07; class IPC А61В 6/00; H04N 5/225).

In industrial X-ray technology, a similar device in the form of a digital X-ray digital apparatus is manufactured today by AMIKO under the industrial name: Prograf-7000.

(see http://www.roentgenprom.ru/prod/print.php&subsec=prograf7000)

The main disadvantage of X-ray diagnostic devices equipped with digital fluorographic cameras is their low resolution, not more than 2.5 pairs of lines / mm, as well as a rather high dose of radiation received by the patient.

The technical result is the same - reducing the radiation dose during x-ray diagnostics. This object is achieved in that the device for reducing the patient’s radiation dose during X-ray diagnostics includes an X-ray emitter with a high-frequency type supply device and an X-ray image receiver in the form of a digital fluorographic camera. This camera has an X-ray and light-tight housing with an entrance window covered by a scintillation screen, with which a fast optical optoelectronic system is optically coupled

Images. This system is connected via an analog-to-digital converter to a computer equipped with a video monitor and printer.

In accordance with the inventive step of the utility model, the device is equipped with a microchannel amplifier having its own power supply and integrated into the focusing device of the imaging system.

Figure 1 presents a device for reducing the radiation dose during x-ray diagnostics (option one).

In Fig.2 - the same (option two).

The device for reducing the patient’s radiation dose during X-ray diagnostics is made in the form of an X-ray fluorography apparatus and contains an X-ray emitter 1 connected to a high-voltage generator 2. A deep diaphragm 3 is connected to the emitter 1. The radiation transmitted through object 4 (of the patient) enters the luminescent screen 5 of the fluorographic camera equipped with a protective tube 6, a focusing system 7, in which a microchannel amplifier 8 is built, having its own power supply 9. The device has a photodetector rate 10. Attached to it is a means 11 for entering patient credentials in the image field, as well as a dose rate meter 12 connected to an integrator 13. An actuator 14 connected to a high-voltage generator 2 is connected to the integrator 13.

The device operates as follows.

A card with patient data and the current picture number is inserted into a special pocket of the patient credential input means 11, then the high-voltage generator 2 is turned on at the specified settings for the anode voltage and anode current.

The radiation passed through patient 4, enters the fluorescent screen 5 of the fluorographic camera. In this camera, using a focusing device 7 with a built-in microchannel amplifier 8, a reduced image is formed on the film of the set-top box 10, while significantly increasing its image brightness through the microchannel amplifier 8, which ensures a significant reduction in the dose of x-ray exposure of the patient.

The signal of the dose rate meter 12 is integrated by the integrator -13. The signal from the integrator - 13 is fed to the actuator - 14, in which the radiation dose value required for the image is set in the form of a certain voltage. Upon reaching this value, the actuating element 14 is activated and turns off the high-voltage generator 2. This completes the x-ray diagnostic procedure.

According to the second embodiment, a device for reducing a patient’s radiation dose during X-ray diagnostics is made in the form of a digital radiographic apparatus and

contains an X-ray emitter 1 with a high-frequency type power supply device 2 and an X-ray image receiver in the form of a digital fluorographic camera for taking an X-ray photograph of a patient 3. This camera has an X-ray and light-tight housing with an input window 4, closed by a scintillation screen 5, to which the fast optical system is optically coupled 6 imaging, equipped with a focusing system 7, which is integrated microchannel amplifier 8 having its own source lektropitaniya 9. The system 6 is connected via an analog-to-digital converter to a computer 10 equipped with a video monitor 11 and a printer 12.

Connected to system 6 is a means 13 for inputting patient credentials into the image field, as well as a dose rate meter 14 connected to an integrator 15. An actuator 16 is connected to the integrator 15 and connected to a high-frequency type power supply device 2.

The device operates as follows.

A card with patient data and the current picture number is inserted into a special pocket of the patient credential input means 13, then the high-frequency type power device 2 is turned on at the specified settings of the anode voltage and anode current.

Passing through patient 3, the radiation enters the scintillation screen 5 of the digital fluorographic camera. In this camera, using a focusing device 7 with a built-in microchannel amplifier 8, a thumbnail image is formed, which is output to a fast optoelectronic system 6, and from it to the screen of a video monitor 11 or to a printer 12.

The signal of the dose rate meter 14 is integrated by the integrator 15. The signal of the integrator 15 is supplied to the actuator 16, in which the radiation dose value required for the image is set in the form of a certain voltage. Upon reaching this value, the actuating element 16 is activated and turns off the power supply device 2. At this point, the picture ends.

Claims (2)

1. A device for reducing a patient’s radiation dose during an X-ray diagnostics, including an X-ray fluorography apparatus comprising an X-ray emitter, a high-voltage generator connected to an X-ray emitter, a fluorography camera with a luminescent screen, a protective tube, an imaging system and a photographic attachment, an exposure relay including a signal receiving means proportional to the dose rate of the x-ray radiation, an integrator connected to its output and connected to the output the integrator has an actuator connected to a high-voltage generator, as well as means for marking images by entering on the card the patient’s credentials in the field of action of the imaging system of the fluorographic camera, characterized in that the device is equipped with a microchannel amplifier having its own power source and integrated into the focusing device of the system image formation. 2. A device for reducing a patient’s radiation dose during X-ray diagnostics, comprising an X-ray emitter with a high-frequency type power supply and an X-ray image receiver in the form of a digital fluorographic camera having an X-ray and light-tight housing with an input window, a closed scintillation screen, with which an optical fast forming system is optically coupled images connected via an analog-to-digital converter to a computer equipped with a video monitor and printer, characterized in that the device is equipped with a microchannel amplifier having its own power source and integrated into the focusing device of the imaging system.