SU993912A1 - Apparatus for diagnosis of intraocular tumours - Google Patents

Description

The invention relates to medicine, namely to ophthalmology, and is intended for the detection of a choriociliary intraocular tumor and for its localization in the eye.

A device for the diagnosis of intraocular tumors, containing a light source and conjunctive device 1, is known.

In the device, the contact zone with the glaome is shaped like a spoon or consists of two parts in the form of a clamp, with optical fibers connected to the source of light passing through the center of the contact light. When the light source is turned on, the pupil shines in a uniform pink color, which makes it possible to inspect the fundus of the eye and retinography and U.

However, this device does not contain information processing systems, and therefore cannot be used for objective transpupillary diaphanoscopy.

The purpose of the invention is the detection of a choriociliary intraocular tumor and the refinement of its localization in the eye.

The goal is achieved by the fact that the device for the diagnosis of intraocular

The tumors, which contain the light source and the conjunctival fixture, are equipped with radiation detectors. Associated with the latter is a secondary instrument and a reflector, with the kojunktival device made in the form of a cap having corneal and scleral parts, the radiation detectors are made as isolated from one another and meridionally located on the inner surface of the scleral part of the conjunctive device of bands from a light-sensitive material, reflector, and an reflector from the photosensitive material, reflector, and the reflector from the photoelectric material. corneal part of the conjunctive device, at the top of which a light source is installed, with radiation detectors with They are connected to the secondary device through a switch and an amplifier, and the switch has a number of contacts equal to the number of radiation detectors.

In addition, the number of radiation detectors is a multiple of 12.

The drawing shows schematically a device for the diagnosis of intraocular tumors in two projections.

Claims (2)

The device contains a conjunctival Hcte device and a secondary instrument. Conjunctival adaptation is made in the form of a cap, tightly worn on the anterior segment of the eye block, and having a corneal 1 and scleral 2 parts, forming the limb angle 3 when moving one to the other. The conjuncture is made of an opaque material. The light-receiving system of the device is represented by radiation detectors made in the form of isolated from one another and meridional strips 4 of photosensitive material on the inner surface of the scleral part 2 of the conjunctive device. The radiation detectors in the form of photosensitive strips 4 are light insulated from each other by partitions 5 and do not reach the edge 6 of the conjunction device. Each of the radiation detectors is connected via a thin wire 7 to the secondary device 8 via a switch 9 and an amplifier 10, with switch 9 having a number of contacts equal to the number of radiation detectors. All wires 7 at the top 1.1 of the conjunctival are assembled into one cable. 12 The number of radiation detectors is a multiple of twelve, since in ophthalmology it is common to localize intraocular pathological processes in the watch meridians of the clock dial. The lighting system of the conjunctive fixture is represented by the reflector 13 in the corneal part 1 of the conjunctive devices and a light source 14 installed in the hole 15 in the center of the reflector 1 The device operates as follows. After anesthesia, the eye unit and the onset of mydriasis on the anterior segment of the eye block, opening the eyelids, put on the conjunctive device so that the corneal part 1 falls on the cornea, the scleral part 2 fits tightly to the conjunctiva of the eye block, and the limbal angle 3 coincides with the eye limb. Turn on the light source. 14, which, thanks to the reflector 13, sends a beam of light through the pupil into the eye. In the absence of an intraocular choriociliary tumor, all radiation detectors will be equally illuminated, which is recorded by the secondary device 8 when the switch 9 is activated. In the presence of an intraocular tumor of the choriociliary zone, some of the radiation detectors turn out to be darkened, since the Bnut Riglasena tumor plays the role of an eslion and prep There is no light coming from the eye to the radiation detectors. The position of the switch 9 is judged on the location of the intraocular tumor. The number of darkened radiation detectors indicates the magnitude and extent of the intraocular tumor. A device for diagnosing intraocular tumors makes it possible to objectify transpupillary diaphanoscopy, to make this study standard, and also to document its results (records of the secondary device are recorded in the history of the disease). The device is applicable not only for the diagnosis of intraocular tumors, but in a number of cases for other volumetric processes of the choriociliary zone (congloberate tubercles, formed exudate, local primordial hemophthalmia) and large foreign bodies of the eye. This device does not require, as with conventional diaFanoscopy, a complete darkening of the room and can be used in a semi-dark; outpatient conditions. Claim 1, A device for diagnosing intraocular tumors containing a light source and a conjunctive device, characterized in that, in order to detect a choriociliary intraocular tumor and to clarify its localization in the eye, it is equipped with radiation detectors associated with the latter secondary device and reflector, the conjunctive device is made in the form of a cap having a corneal and scleral part, the radiation detectors are made as isolated from one another and meridionally p located on the inner surface of the scleral part; a conjunctive fixture of bands of photosensitive material, a reflector is located in the corneal part of the conjunctive fixture, at the top of which a light source is installed, the radiation detectors are connected to the secondary device through a switch and an amplifier, and the switch has a number of contacts equal to the number of radiation detectors, 2. Device by. Claim, 1, characterized in that the number of radiation detectors is a multiple of 12. Sources of information taken into account in examination 1, French Application 2248815, cl. A 61 B 3/12, published. 1975. / J