HU194726B - Sensor for sight-testing - Google Patents

Abstract

The invention relates to medical devices that find application in ophthalmology, but in particular the investigation of the eye hemodynamics. In order to increase the masticatory accuracy of the compression pressure by reducing the compressive force, the Fehlergehaeuse is equipped with an additional wall 1, which is a contact lens, the walls are hermetically connected to each other along the circumference and form a cavity which is coupled to a nozzle 2; on the base wall are continuous openings 4 to find. figure

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sensor for eye examination, which can be used to test the circulation of the eye, and to register the resistance of the eye. .

The recording of the impedance changes of the ocular tissue plays an important role in the examination of the blood circulation of the eye, and the construction of the sensor used for this is crucial.

The Batterheim sensor, which has a housing made of electrically insulating material with an inner spherical surface where the inner surface cooperates with the surface of the eyeball, is generally known. Electrodes are arranged on the inner surface of the sensor housing. The sensor is further provided with a vacuum connection for connecting the housing to the vacuum.

Such a sensor is known, for example, from A.P. Nesterov et al., Entitled "Vnutriglaznoe davlenie" (Internal pressure of the eye), published in 1974 in the "Physiology and Pathology" published by Nauka (Moscow) Publisher. 194-207. During the application of this sensor, contact between the surface of the eyeball and the electrodes, and the attachment of the sensor housing to the eye, is accomplished by applying a vacuum between the inner surface of the sensor housing and the surface of the eyeball. When the vacuum is created, the eye is compressed, which causes the blood circulation in the eye to change, and the resulting resistance diagram shows false results. In addition, it is difficult to achieve uniform contact of the electrodes with the eye. Tests show that only the middle part of the sensor housing is tightly attached, while the edge is tightened to the eye due to the impedance being more dependent on the contact surface than on the eye's circulation.

SUMMARY OF THE INVENTION The object of the present invention is to provide a sensor for eye examination, which uniformly clamps the electrodes to the eyeball during measurements and eliminates the effect of the formation of a vacuum on the intraocular pressure and blood circulation.

To solve this problem, we have developed a sensor for eye examination which has an electrically insulating material casing that cooperates with the surface of the eye, an electrode arranged on its inner surface, and a vacuum coupling connector. According to the invention, the casing is formed by two layers which are hermetically joined to one another along the circumference of the casing, and a cavity is formed between the layers which communicates with the stub. The inner layer is shaped as an eyeball and has a plurality of through holes.

The sensor of the present invention ensures that the electrodes lie flat on the surface of the eyeball during the measurements and excludes the effect of the degree of vacuum on the intraocular pressure. This makes it possible to examine the blood circulation of the eye without error and to make an accurate diagnosis. The sensor of the present invention is simple in design and reliable in operation.

The invention will now be described in more detail with reference to the drawings, in which a preferred embodiment of the sensor according to the invention is shown in cross section.

The sensor according to the invention has an enclosure (1) with an inner layer (4) and an outer layer (5) made of electrically insulating material, with a connection (2) for connection to a vacuum source (not shown) and arranged on its inner surface. (3) equipped with electrodes.

The inner layer (4) and the outer layer (5) of the cover (1) are hermetically joined to one another at the connection point (6) along the circumference of the cover (1). A cavity (7) is formed between the inner layer (4) and the outer layer (5), which communicates with the stub (2). The inner layer (4) is shaped as an eyeball and has a plurality of through holes (8). The electrodes (3) are hermetically removed from the housing (1) and connected to an external conductor (9) connected to a resistance recorder (not shown).

The sensor according to the invention operates as follows:

Apply the sheath (1) to the eye so that the cornea of the eye is centered on the sheath (1). Subsequently, a vacuum is created in the cavity (7) between the inner layer (4) and the surface of the eyeball through a nozzle (2) and openings (8) by means of a vacuum source. Thus, the inner surface of the inner layer (4) fits closely to the surface of the eye and a uniform, close contact is formed between the eye tissue and the entire surface of the electrodes (3).

The strength of the inner layer (4) is selected so that it is not deformed under vacuum and prevents deformation of the anterior part of the eye, which is an important aspect for performing the circulatory examination of the eye. The inner layer (4) is formed, for example, from polymethyl methacrylate. The inner layer (4) is shaped like an eyeball and has openings (8) thereby ensuring that the cover (1) is correctly fitted. Otherwise, a portion of the openings (8) would not lie snugly on the outer surface of the eyeball so that a proper vacuum would not be formed in the cavity (7) and the sensor housing (1) would not adhere to the eye.

The external wires (9) are connected to a resistor recorder and recording of resistance diagrams can begin 45. At the end of the test, the vacuum is turned off and the sensor is removed from the eye.

Claims (1)

A patent claim 50 Sensor for eye examination, having an electrically insulating cover (1) with an inner spherical surface cooperating with the outer surface of the eyeball, an electrode (3) on the inner face of the cover (1) and a vacuum source (1) 55 having a connecting piece (2), characterized in that the housing (1) is formed by an inner layer (4) and an outer layer (5) enclosing the cavity (7), which are hermetically connected to one another along the circumference of the housing (1). , where the cavity (7) travels with the stump (2), Furthermore, the inner layer (4) of the casing is shaped like an eyeball and has a plurality of through holes (8).