RU211663U1 - Device for videonystagmography with the ability to calibrate eye movements - Google Patents

Abstract

The utility model relates to the field of medicine, namely to medical technology, and can be used for videonystagmography, as well as when performing vestibulometric tests and when registering a nystagmus reaction from one and both eyes with the possibility of calibration. The technical result of the utility model is the development of a device for videonystagmography based on available hardware, with the ability to calibrate eye movements, register and view the nystagmus reaction from one and both eyes in real time, increase the information content of the study and ease of use. The device consists of a case, which is a virtual reality glasses for smartphones, which contains: two video cameras with infrared illumination, a removable front opaque cover, a system of calibration marks in the form of visible spectrum LEDs, an obturator that ensures a snug fit of the device to the head of the subject, elastic straps for fixing the device on the patient's head.

Description

The utility model relates to the field of medicine, namely to medical technology, and can be used for videonystagmography, as well as when performing vestibulometric tests and when registering a nystagmus reaction from one and both eyes with the possibility of calibrating eye movements.

The prototype of this model is the Insight Infrared Video Goggles device (U.S. Patent No. 10,617,566 B2; April 14, 2020), which contains a helmet-mask, video cameras with infrared illumination placed inside the case, light sources for fixing the gaze, an adjustable elastic strap for fixing the device on the patient's head, obturator with interchangeable pads.

The disadvantages of this device for videonystagmography are the inability to calibrate eye movements and, as a result, the inability to accurately quantify the amplitude and other parameters of eye movements.

An analogue of this model is a device for videonystagmography (utility model patent No. 183466), consisting of a body with video cameras placed inside, adjustable elastic straps for fixing the device on the patient's head, characterized in that the body is virtual reality glasses for smartphones with aspherical lenses, interpupillary distance regulators, a retractable mount for the possibility of using the smartphone screen for presenting visual stimuli, while the video cameras are made with autofocus and are autonomous devices with infrared illumination, a power source and the ability to record data on a memory card.

The disadvantages of this device for videonystagmography are the inability to calibrate and, as a result, the inability to accurately quantify the amplitude and other parameters of eye movements, as well as the inability to monitor eye movements in real time.

The technical result of the utility model is the development of a device for videonystagmography based on available hardware, with the ability to calibrate eye movements, register and view the nystagmus reaction from one and both eyes in real time, increase the information content of the study and ease of use.

To solve this problem, a device for videonystagmography with the ability to calibrate eye movements is proposed. The device consists of a housing (1), which is a virtual reality glasses for smartphones, which contains: two video cameras with infrared illumination (2), a removable front opaque cover (3), a system of calibration marks in the form of visible spectrum LEDs (4), obturator (5), providing a snug fit of the device to the head of the subject, elastic straps (6) to fix the device on the patient's head (Fig. 1).

The device for videonystagmography works as follows: the body (1), which is virtual reality glasses for smartphones, is fixed on a person’s head and fixed with elastic straps (6) so that the eyepiece frame (5) fits snugly on the subject’s face. During the examination, the patient's eyes are in the dark, which ensures that the gaze is not fixed. Using a system of calibration marks (4), a calibration procedure is carried out, during which the subject must alternately fix his gaze on the visible light LEDs located in the horizontal and vertical planes. Calibration LEDs (4) can also be used if it is necessary to fix the patient's gaze during the examination.

It is possible to install one or two cameras in the body of the device, while video cameras provide the ability to register and view video in real time. Aspherical lenses used in the manufacture of glasses must be removed from the body to reduce distortion in the video.

Claims (1)

A device for videonystagmography with the ability to calibrate eye movements, consisting of a body with video cameras with infrared illumination placed inside, adjustable elastic straps for fixing the device on the patient's head, characterized in that the body is a virtual reality glasses for smartphones with a removable front opaque cover and a system of calibration marks in the form of visible light LEDs for carrying out the procedure for calibrating eye movements, as well as for fixing the patient's gaze during the study, while video cameras provide the ability to record and view video in real time.

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