RU35208U1 - ELECTRODE FOR ELECTRORETINOGRAPHIC RESEARCHES - Google Patents

Description

 7 $ ::% ЩР 1ШШШЩМПК 8 А61 В 3/10

ELECTRODE FOR ELECTRORETINOGRAPHIC RESEARCHES

The invention relates to medical equipment used in the registration of bioelectric processes in ophthalmology.

A device for rheography of the eye III is known, which is a body mounted on an eyeball, in the upper base of the body there is an opening that allows access to the cornea, and the upper base of the sensor body goes into the socket, while the sensor is fixed on the eyeball using the body and an annular insert from elastic material. The disadvantage of this embodiment of the sensor is its complexity and inconvenience in maintenance.

Known electrode for ERG 121 ,. representing a rigid single-core conductor 1 with soldering 2, curved in the form of a hook made of gold or silver (figure 1). Soldering 2 provides a hook connection with an insulated conductor 3 intended for connection with a measuring unit (not shown in the diagrams). The electrode is mounted behind the lower eyelid, as shown in FIG. 2. The main disadvantage of the analogue is the inconvenience caused to the patient during the ERG procedure, because to ensure rigidity while maintaining a given shape, the thickness of the conductor cannot be less than 0.5 mm.

A known electrode for electroretinographic studies (ERG) / 3 /, the design of which is taken as a prototype, which is a piece of nylon thread coated with a thin layer of silver. The thread is located behind the lower eyelid and a special clip type "micro-crocodile is connected to the measuring unit. The use of an electrode of this type reduces the likelihood of injury to the patient’s eyeball, but requires a special expensive thread, the manufacturing technology of which is quite complicated. However, the connection of the measuring unit with the electrode

occurs through the mechanical contact of the clamp, which significantly reduces the reliability of the device.

The technical result of the proposed utility model is to reduce the cost of the electrode, which is achieved by eliminating the use of expensive metallized nylon thread, as well as to increase the reliability of the device by replacing the mechanical contact with the electrode by soldering. In addition, the use of the proposed electrode design is more convenient because it allows you to choose options for its placement during the ERG.

This result is achieved due to the fact that the electrode for electroretinographic studies, containing a silver-plated conductor with soldering, is made of a flexible stranded micro wire, one end of which is formed in the form of a loop, the loop being formed by soldering, closed by an insulating tube that can be moved along the conductor with slight friction.

In FIG. 3 shows the components of the design of the electrode for electroretinography, figure 4 shows the assembly drawing of the electrode.

The electrode consists of (see FIG. 3) a silver-plated multicore flexible micro-conductor 1, which, by soldering 2, forms a loop 3. The conductor 1 has insulation 4 and is connected to the measuring unit (not shown) in the opposite end to the loop 3. An insulating tube 5 moves along the conductor 1 with some friction, allowing both to protect the solder 2 from mechanical damage and to change the size and shape of the loop 3 (see Fig. 4) by moving the tube 5 along the conductor 1.

The assembly of the proposed utility model is as follows. The silver-plated micro conductor 1, which is a piece of insulated flexible wire, is released from insulation 4 at one end.

the section is formed in the form of a loop 3 and sealed at point 2. A piece of insulating tube 5 is selected on the conductor 1 so that it can move along the conductor 1 with some friction. The tube 5 moves along the conductor 1 to the soldering point 2, several blocking it.

Work with the electrode is as follows. Depending on the clinical tasks, by moving the tube 5 along the conductor 1, the loop size is set corresponding to the required size, and a prerequisite for such an installation is to protect the soldering 2 with an insulating tube. Then the shape of the electrode (hook, piece, etc.) is formed, which is located behind the lower eyelid of the patient. Conductor 1 is connected to the measuring unit, and basic research begins.

Using the proposed utility model allows, in comparison with known technical solutions, to reduce the cost of the electrode, increase the reliability of the device, make its use more convenient.

Claims (1)

An electrode for electroretinographic studies containing a silver-plated conductor with soldering, characterized in that the conductor is made of a flexible multicore microwire, one end of which is formed in the form of a loop, the loop being formed by soldering, closed by an insulating tube that can move along the conductor with little friction.