SU1009417A1 - Apparatus for investigating eye bottom blood circulation - Google Patents

Abstract

DEVICE FOR THE RESEARCH OF AIRCONNECTING SURVEY: THE EYE BOTTOM, containing a source of light, which forms a practical optical monitoring system, a television camera, the first output of which is connected to the monitor inputs of the video recorder, ot-. l and h a k) w ee s. so that / in order to improve the quality of diagnostics of pathological changes in the fundus by increasing the contrast, the image, it contains a modulator, sequentially connecting a row frequency divider and a synchronization unit, as well as a blanking element, the input of the row frequency divider connected to the second output of the television camera, the first output of the synchronization unit is connected to the modulator input, and the second output through the blanking element to the monitor input, and the light source is made in the form of a laser, connected with the release of MO blew torus.

Description

The invention relates to medical equipment and can be used in ophthalmology.

The closest in technical essence is a device for the study of blood circulation of the eye fundus, which contains a light source and located along the radiation forming an optical system, as well as an optical monitoring and recording system, including a brightness amplifier, a television camera, a monitor and a VCR . This device allows to obtain a continuous image of all stages of the process, observed and recorded by television means fl).

The disadvantages of this device are the low contrast and increased noise level of the resulting image, associated with a low acceptable level. Illumination of the eye: fundus, which makes it difficult to observe its pathological changes.

The aim of the invention is to improve the quality of diagnosis of pathological changes in the fundus, by increasing the contrast of the image.

This goal is achieved by the fact that in the device for the study of blood circulation of the fundus containing a light source, forming an optical system 7 optical monitoring system, a television camera, the first output of which is connected to the inputs of a monitor and a VCR, a modulator and series-connected line frequency divider and block are introduced synchronization, as well as a blanking element, and the input of the line frequency divider is connected to the second output of the television camera, the first output of the synchronization unit is connected chen to the modulator input, and the second output through the blank? the element to the monitor input, and the light source is made in the form of a laser connected to the output of the modulator.

The drawing shows a structural diagram of the device.

A device for studying the ocular fundus blood circulation contains a light radiation source, a hand-held optical system 2, an optical observation system 3, optically d by a television camera 4, the first output of which is connected to the inputs of the monitor 5 and VCR 6. The light radiation source 1 is made in the form laser and connected to the output of the modulator 7. The device also contains a series1, razformopodistochno connected frequency divider lines 8 and a synchronization unit 9, as well as a blanking element 10. In the stroke of the frequency divider of lines 8 is connected to the second output of the television camera 4, the first output of the synchronization unit 9 to the input of the modulator 7, and the second output through the blanking element 10 to the input of the monitor 5.

The device operates as follows.

A pulsed modulated beam is- ^. point 1 optical forming system 2 is sent to the patient’s eye. The image of the mesh shell _{about the} eyes by the optical surveillance system 3 is directed to the camera 4, from the output of which the video signal is sent to the monitor 5 and the VCR 6. The frequency pulses of the lines from the television camera 4 are fed to the input of the frequency divider of the lines 8, which reduces their frequency by N times, where N = = 1,2 ..., is determined by the characteristics of the studied eye and may vary during the study. From the output of the divider 8, the pulses are fed to the input of the synchronization unit 9, which generates signals that control the operation of the laser radiation modulator 7 and the blanking element 10. The modulator 7 generates radiation pulses of the source 1 with a duration equal to the time of each Nth line of the television raster. The blanking element generates a signal that unlocks the monitor 5 and VCR 6 for the duration of each line's forward stroke and locks them for the rest of the time by applying a blanking pulse at black level.

Additional gain can be obtained by blanking the radiation source for the duration of the field quenching pulses.

Thus, the use of a priori processing of the light flux allows one to increase the image contrast due to the use of a pulsed modulated laser source for illumination of the fundus (since the pulsed illumination power of the fundus increases while maintaining the average power at an acceptable level), and through the use of a laser source e wavelength corresponding to the maximum absorption of the dye used. ^

The proposed device allows you to quantify the changes in the vascular system of the fundus, and can also find application in medical diagnostics not only pathological changes of the eye itself, but also for evaluating a number of common human diseases.

VNIIIPI _3akaz_253 3/3 ____ 2yE ^ 5_711 ___ Subscribed ___

Branch of PPP Patent, Uzhhorod, st. Project 7 ~ 4

Claims (1)

A device for studying the EYE BOTTOM BLOOD CIRCULATION, containing a light source that forms an optical monitoring system, a television camera, the first output of which is connected to the inputs of a monitor and VCR, about M > It is wild that, in order to improve the quality of diagnosis of pathological changes in the fundus by increasing the contrast. image, it contains a modulator, series-connected line frequency divider and synchronization unit, as well as a blanking element, and the input of the line frequency divider is connected to the second output of the television camera, the first output of the synchronization unit is connected to the modulator input, and the second output through the blanking element to the monitor input and the light source is made in the form of a laser connected to the output of the modulator.