DE3705375A1 - OPHTHALMORHEOGRAPHIC SENSOR - Google Patents

Description

The invention relates to medical devices, which are used in ophthalmology, and esp special an ophthalmorheographic sensor for the examination of the hemodynamics of the eye is provided is.

Registration of changes in impedance of the Eye tissue represents an important method of sub search of the eye blood circulation. The decisive one The construction of the ophthalmorheo is important graphic sensor.

Known is an ophthalmorheographic sensor from Batterheim, which provides a housing made of electrical insulating material with a spherical inner surface, which is intended for interacting with the surface of the eyeball, electrodes on the inner surface of the housing and a socket for connecting the housing to a vacuum source ( see AP Nesterov et al. "Augenbinnendruck" (Vnutriglaznoe davlenie) - Physiology and Pathology - Moscow, publisher "Nauka", 1974, pages 194-207).

When using this sensor, the contact of the Surface of the eyeball with the electrodes and the  Holding the sensor housing on the eye by the Creation of vacuum between the inner surface of the housing and the surface of the eyeball.

As a result of the compression of the eye that occurs in vacuum Ren arises, however, the hemodynamics of the eye is ge bothers, and the record made of a Rheo gramms cannot be considered a lens. It is also difficult to evenly press the electrodes guarantee. The investigations show that only the central part of the sensor housing is tightly fixed, the density of the pressure decreases at the edges, making the impedance to a greater extent a radio tion of the contact area and not the change in blood isranges.

The invention is based, the construct tion of the opthalmorheographic sensor to be completed that there is a uniform density in measurements pressing the electrodes onto the surface of the Guaranteed eyeball and the influence of the degree of Vacuuming to the size of the intraocular pressure and on the hemodynamics of the eye is excluded.

The essence of the invention is that in the ophthalmorheographic sensor, which is a housing  made of electrical insulation material with spherical inner surface area used for interaction with the surface of an eyeball is suitable, electrodes on the inner Surface of the housing and a connector for connection the housing provides a vacuum source, fiction according to, the housing double-walled with hermetic Ver bond the walls to the circumference of the housing and with formation of a cavity between the walls, which communicates with the nozzle, with the inner wall in The shape of an eyeball is executed and in it one large number of through holes is executed.

An ophthalmorheographic sensor, the fiction If carried out correctly, a uniform density of the contact of the electrodes the surface of the eyeball, excludes the influence of the Degree of vacuuming to the size of the inner eye pressure, which enables the investigation of the To perform hemodynamics of an eye objectively, and to a precise determination of the respective diagnosis wearing. The design of the sensor is simple Execution and reliable in operation.

In the following the invention is described by the description an embodiment with reference to the accompanying drawing tion, an ophthalmorheographic according to the invention  Cross-section sensor shows, explained further.

The ophthalmorheographic sensor consists of a double-walled spherical housing 1 made of electrical insulation material, which is provided with a nozzle 2 for connection to a vacuum source (not indicated in the drawing) and with electrodes 3 attached to its inner surface. The inner wall 4 and the outer wall 5 of the housing 1 are hermetically connected to the circumference of the housing 1 at the point 6 . The nozzle 2 opens into the cavity 7 located between the walls 4 and 5 . The inner wall 4 is designed in the form of an eyeball and a large number of through holes 8 are made in it. Lead wires from the electrodes 3 are hermetically led out of the housing 1 and connected to the outer wires 9 , which are provided for connection to a rheograph (not indicated in the drawing).

The sensor described works as follows:

The housing 1 is placed on an eye so that the cornea of the eye lies in the center of the housing 1 . With the aid of a vacuum source, vacuum is created through the nozzle 2 and through the holes 8 in the cavity 7 and between the wall 4 and the surface of the eyeball.

The inner surface of the wall 4 is close to the surface of the eye, whereby a close and uniform contact of its tissue with the entire upper surface of the electrodes 3 is ensured. The stiffness speed of the inner wall 4 is chosen so that it does not deform under the action of vacuum and excludes the deformation of the front part of the eye, which is extremely important for the implementation of hemodynamic examinations.

The wall 4 is made, for example, of polymethyl methacrylate. The execution of the inner wall 4 in the form of an eyeball and with the holes 8 excludes the possibility of incorrect placement of the housing 1 on the eye, since part of the holes 8 will not fit closely to the upper surface of the eyeball, which leads to vacuum disturbance will lead in the cavity 7 , and the Ge housing 1 of the sensor is not fixed to the eye. The outer wires 9 are connected to the rheograph, and then rheograms are recorded. After the examination has been carried out, the vacuum is switched off and the sensor is removed from the eye.

Claims (1)

Ophthalmorheographic sensor, the

• - a housing ( 1 ) made of electrical insulating material with a spherical inner surface, suitable for interacting with the surface of an eyeball,
• - Electrodes ( 3 ) on the inner surface of the housing ( 1 ) and
• - Provides a nozzle ( 2 ) for connecting the housing to a vacuum source, characterized in that
• - The housing ( 1 ) double-walled with hermetic connection of the walls ( 4 and 5 ) on the circumference of the housing ( 1 ) and with education
• - A cavity ( 7 ) between the walls ( 4 and 5 ) is executed, which communicates with the nozzle ( 2 ), wherein
• - The inner wall ( 4 ) of the housing ( 1 ) is in the form of an eyeball and in it
• - A large number of through holes ( 8 ) is performed.