RU197335U1 - Corneal Reflex Excitation Device - Google Patents

Abstract

The utility model relates to medicine, and more specifically to ophthalmology, neurology, as well as to the physiology of humans and animals and allows you to identify changes in the activity of the organ of vision, in particular the latent time of the corneal reflex. The technical result, which is achieved by the claimed utility model, is to increase the efficiency of the device: increase the accuracy of the impact; expansion of the ability to use. The excitation device of the corneal reflex contains an air chamber 1, which is a conical container with a hole at the top of the cone. The base of the cone is a flexible membrane, in the center of which is attached a rod 2 of non-magnetic material with a tip of steel or other magnetic material. The rod passes through the solenoid 3 so that the magnetic tip is on the other side of the solenoid (blackened). The input of the device is the input of the coil of the solenoid 3, and the output is the hole in the air chamber 1. The device for the excitation of the corneal reflex is realizable and efficient, as a result of changing the time intervals between pulses it is possible to achieve high accuracy in determining the characteristics of this reflex and to obtain quantitative data, in particular, the latent time corneal reflex, the rate of closure of the eyelids by determining the beginning and end of the closure, i.e. more complete information about the functioning of this reflex. This allows you to understand the causes of the violation of the corneal reflex. 1 s.p. f-ly, 2 ill.

Description

The utility model relates to medicine, and more specifically to ophthalmology, neurology, as well as to the physiology of humans and animals and allows you to identify changes in the activity of the organ of vision, in particular, the latent time of the corneal reflex.

A known method for determining the blink reflex (L.A. Medvedev, A.V. Syrovegin, G.N. Avakyan, A.V. Gnezdilov, O.I. Zagorulko, Methodology for the study of the blink reflex and its normative parameters / Journal of Neurology and Psychiatry, 2011, v. 111, issue 1, pp. 62-67), which consists in the fact that stimulating electrodes are placed on the frontal surface above the eyebrows, and discharge electrodes are placed under the eyes. Then, an electrical impulse is supplied to the stimulating electrodes, and voltage is measured at the discharge electrodes. As a result of muscle contraction, the eyelids close, and this causes voltage changes on the discharge electrodes. The time interval between the stimulating impulse and the response, defined as the beginning of potential changes in response to stimulation, is called the latent time of the blinking reflex.

The implementation of this method has a number of disadvantages: high laboriousness and considerable waste of time for carrying out the actual measurement: it is necessary 1) to apply electrodes, 2) to select the magnitude of the stimulating signal, 3) to take measurements with eyes closed to ensure that the system is working, and 4) only then take the measurement, and the time interval between repeated measurements should be at least 10-20 seconds in order to avoid addiction. Further, the nature of the voltage changes at the discharge electrodes is complex and therefore there is uncertainty in the determination of latent time regarding the precise determination of the moment of start of blinking,

For comparison with the claimed utility model, a device is selected that implements a method for determining the corneal or corneal reflex. The device is a soft material, for example, a soft piece of paper or a piece of cotton wool. By gently touching the cornea with a soft piece of paper or a piece of cotton, the eyelids close. The presence of a reflex is determined by the presence of closing of the eyelids. (Big Medical Encyclopedia under the editorship of Acad. B.V. Petrovsky / M, 1979, v. 11.).

This device is characterized by low efficiency: manual execution of corneal irritation allows you to make single measurements; it does not allow a metered effect; it allows us to conclude only about the presence of a reflex.

The technical result, the claimed utility model is aimed at, is to increase the efficiency of the device: increase the accuracy of the impact; expansion of the ability to use.

The technical result is achieved by the fact that in the excitation device of the corneal reflex containing the source of excitation of the corneal reflex, it is new that the source of excitation of the corneal reflex is an air chamber communicating with the external environment, one of the walls of the chamber being a flexible membrane to which a non-magnetic membrane is attached the rod passing through the solenoid and ending at the other end with a magnetic tip protruding from the solenoid, while the input of the device is a coil of the solenoid, and the output house - a hole in the air chamber.

In the device, the air chamber is a conical container with a hole on the top of the cone, and the flexible membrane is the base of the cone, a wall opposite the top.

The essence of the utility model is shown in FIG. 1.

The excitation device of the corneal reflex contains an air chamber 1, which is a conical container with a hole at the top of the cone. The base of the cone is a flexible membrane, in the center of which is attached a rod 2 of non-magnetic material with a tip of steel or other magnetic material. The stem passes through the solenoid 3 so that the magnetic tip is on the other side of the solenoid (blackened). The input of the device is the input of the coil of the solenoid 3, and the output is the hole in the air chamber 1.

The utility model works as follows. The device is located in front of the subject so that the distance from the source of pulsed air supply and the eye of the test person is 4-7 cm. When a voltage dosed by the magnitude of the voltage and duration of the voltage pulse is applied to the winding of the solenoid 3, a pulsed magnetic field arises that draws the steel end of the rod 2 into solenoid 3, as a result, the rod 2 pushes the flexible membrane into the conical chamber 1, and air leaves the hole at the top of the cone 1, falling on the subject’s eye. The device creates strictly dosed air pulses in speed and time, it is easily automated by adding to it a controller that sets the number of pulses and the time interval between pulses according to the program, which allows you to determine the characteristics of the corneal reflex.

The operability of the device is shown in the following example: the cat was laid on its belly and the position of the body and head was fixed. Before the eyes of a cat, a device was installed. A series of stimuli was conducted with a range of times between air pulses from 100 to 4000 ms. The waiting time is the time interval from the previous blink to the stimulating impulse of air, and the latent time of the corneal reflex is from the stimulating impulse to the next blink. The results are shown in FIG. 2, which shows that the latent time of the corneal reflex in a cat does not depend on the waiting time. It varies within small limits randomly. The average latent time here is equal to 14.6 ± 4.76 ms.

Thus, the device for the excitation of the corneal reflex is feasible and workable, as a result of changing the time intervals between pulses, it is possible to achieve high accuracy in determining the characteristics of this reflex and to obtain quantitative data, in particular, the latent time of the corneal reflex, eyelid closure rate by determining the beginning and end of closure, t .e. more complete information about the functioning of this reflex. This allows you to understand the causes of violation of the corneal reflex.

Claims (2)

1. The device of excitation of the corneal reflex, containing a source of excitation of the corneal reflex, characterized in that the source of excitation of the corneal reflex is an air chamber communicating with the external environment, moreover, one of the walls of the chamber is a flexible membrane to which is attached a non-magnetic rod passing through the solenoid and ending at the other end with a magnetic tip protruding from the solenoid, while the input of the device is the coil of the solenoid, and the output is an opening in the air chamber. 2. The excitation device of the corneal reflex according to claim 1, characterized in that the air chamber is a conical container with a hole on the top of the cone, and the flexible membrane is the base of the cone, a wall opposite the top.

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