SU1266519A1 - Tv camera for fundus of the eye - Google Patents

Abstract

FOUNDATION CAMERA TELEVISION, containing a lighting channel, a projection channel that includes an ophthalmoscope lens, an annular mirror and a projection lens and a television channel connected by means of two flat mirrors with the axis of the projection channel unit through the analysis unit, characterized in that, in order to increase the accuracy of recording the fluorescence brightness in the fundus vessels by reducing nor is the image mobility of the latter, it is equipped with an additional light source and a condenser arranged in series on the same axis optically conjugated with the axis of the projection channel and a block of the next gating, while the additional light source is mounted for movement in a plane perpendicular to the axis of the condenser, optically conjugated with the focal plane of the cornea, and the transmitting television camera is additionally connected to the video i O) control unit through the follower unit ation, and the input and output of the last associated with the analysis unit.

Description

The invention relates to medicine, namely to medical instrumentation, and is intended to monitor and study hemodynamics in the ointment bottom vessels during fluorescent anglography.

The aim of the invention is to improve the accuracy of recording the fluorescence brightness in the fundus vessels by reducing the mobility of the image of the latter, for which the fundus camera television is equipped with an additional light source and a condenser arranged in series on the same axis optically conjugated with the axis of the projection channel, and a gating unit with an additional light source mounted for movement in a plane perpendicular to the axis of the condenser optically conjugated with the focus noy corneal plane, wherein a television camera peredayusha further connected to Videocontrol unit via gating block servo and the input and output of the last associated with the analysis unit.

The drawing shows a block diagram of a television camera fundus.

The television package television camera contains an illumination channel 1, a projection channel that includes an ophthalmoscopic lens 2, an annular mirror 3 and a projection lens 4, and a television channel connected with two flat mirrors 5 and 6, including a collective 7, a reproduction object 8 and rie ) A monitoring camera 9, the outputs of which are connected to the video monitoring unit 10, respectively, through the analysis unit 11 and through the tracking unit 12. In addition, the device is equipped with an additional source of light 13 and a condenser 14 arranged in series on one axis optically conjugated with the axis of the projection channel. The additional light source 13 is mounted for movement in a plane perpendicular to the axis of the condenser 14, optically conjugated to the focal plane of the cornea.

Fundus-camera television works as follows.

The light source 13 through the condenser 14, the ophthalmoscopic lens 2, the projection lens 4, the flat 5 and 6 mirrors is projected into the focal plane of the patient's cornea. After reflection from the cornea surface, like a convex mirror, a parallel beam of rays with an ophthalmoscope lens 2 through an annular mirror 3, a projection lens 4, a team 7, a reproduction lens 8 through mirrors 5 and 6 is projected into the transmitting television camera 9. Thus, the image of the fundus and The imaginary image of the source - the flare formed by the cornea will be aligned in the same plane. The image of the source 13 of light, when turning the eye, is moved by an amount proportional to this angle. The selected video signal in block 11 of the analysis is fed to the input of block 12 of the next gating, which controls the strobe control in block 11 of the analysis. In the side gate 12 of the subsequent gating, the flare signal is converted into a corresponding electrical signal, causing the strobe position to shift by the same magnitude as the suction of interest. Thus, the average size of the arteries and veins of large caliber, to be measured at the fundus, is 5 angular degrees. The mobility of the eye block when fixing a fixed point (corresponds to the conditions of measurements on the fundus) - 1 angular degree for 1 minute of fixation. Therefore, the width of the fixed gate will be approximately 0.54-2X1 2.5 degrees. When controlling the position of the strobe using this device, which has an accuracy of issuing angular coordinates of the eye block of about 15 minutes (0.25 °), the strobe width will be 0.5-J-2X 0.25 1 degrees. The accuracy of recording the brightness is proportional to the width of the strobe and will be increased in the first proposed device by 2, 5 times. As a result, the relative stability of the strobe position and the image of the vessel on the fundus, the brightness of which is recorded, is achieved. The fundus of the eye and the next strobe are visible on the screen of the video monitoring unit 0. By moving the radiation source in a plane perpendicular to the axis of the condenser, it is possible to remove the image of the corneal highlight from the strobe.

As a result, the use of this television basebreak makes it possible to virtually stabilize the image of the blood vessels of the fundus of the eye in relation to the strobe, which significantly improves the accuracy of recording the fluorescence brightness.

Claims (1)

A FUNDUS CAMERA TELEVISION containing a lighting channel, a projection channel including an ophthalmoscopic lens, an annular mirror and a projection lens and a television channel coupled by a pair of flat mirrors to the axis of the projection channel, including a team, a reproducing lens and a transmitting television camera, the output of which is connected to video control unit through the analysis unit, characterized in that, in order to improve the accuracy of recording the brightness of fluorescence in the vessels of the fundus by reducing The latter has an additional light source and a condenser located sequentially on the same axis, optically conjugated to the axis of the projection channel, and a tracking gating unit, while the additional light source is mounted to move in a plane perpendicular to the axis of the condenser, which is optically conjugated with the focal the plane of the cornea, and the transmitting television camera is additionally connected to the video-d control unit via a tracking gating unit, and q and output of the last associated with the analysis unit. SU ₍₁ „1266519