RU183466U1 - Videonistamography Device - Google Patents

Abstract

The utility model relates to the field of medicine, namely to medical equipment and can be used autonomously for video nystagmography, as well as when performing vestibulometric tests, positional maneuvers, remote diagnostics and when registering a nystagmal reaction from one or both eyes. The technical result of the utility model is to develop a device for video nystamography based on available hardware with the possibility of autonomous operation when performing vestibulometric tests, positional maneuvers, with reg nystagmus response from one and both eyes, increasing reliability and ease of use. The device consists of a case, which is a virtual reality glasses for smartphones, which contains: two cameras with autofocus, infrared light, power source and the ability to write data to a card memory, aspherical lenses, interpupillary distance adjusters, retractable smartphone mount, front opaque cover, obturator, providing a snug fit to the face we examine Wow, adjustable elastic straps to secure the device to the patient’s head.

Description

The utility model relates to the field of medicine, namely to medical equipment and can be used autonomously for video nystagmography, as well as when performing vestibulometric tests, positional maneuvers, remote diagnostics, and when registering a nystagmal reaction from one and both eyes.

The prototype of this model is a SmartCam device (manufacturer: Synapsys, France) containing a mask, a removable unit for an eyepiece frame, an infrared video camera built into the unit, an autonomous power supply, a wireless data transmission module, characterized in that it contains a unit built into the ocular frame inside which an infrared video camera is located, operating from an autonomous power source, and the location of the unit with a video camera can be changed depending on the eye being examined, transmitting data wirelessly (Wi-Fi), adjustable elastic strap for locking the device on the patient's head, the obturator closing the slit to the eye.

The disadvantage of this device for video histamography is the need to use a wireless communication channel for data transfer (Wi-Fi) and, as a result, increased power consumption and the need for an additional device for receiving data via Wi-Fi, the dependence of the quality of the transmitted data on the environment, and the fact that the device is designed to register a nystagmus reaction simultaneously with only one eye.

An analogue of this model is a helmet mask for video nystagmography (utility model patent No. 136312), containing an eyepiece frame designed to be fitted with a recording camera, and an occipital fixator connected to an ocular frame, characterized in that two remote radio waves are installed in the ocular frame cameras, and the helmet-mask is additionally equipped with a temporal-temporal latch, consisting of a headband and two protective ear pads attached to it from the inside, on the headband connected to the eyepiece Ava by a fastening element, set the wireless power supply allows you to use it remotely, as well as in the performance of positional maneuvers and registration nistagmennoy reaction with both eyes.

The disadvantage of this device for video nystamography is the need to use a wireless communication channel for data transfer and, as a result, increased power consumption and the need for an additional device for receiving data, which is why the device is not completely autonomous. Another disadvantage of the analogue is the dependence of the quality of the transmitted data on the environment, as well as the extremely complex design and limitation of patient mobility due to the fact that the helmet mask is additionally equipped with a temporal-temporal latch, consisting of a headband with a wireless power source and attached to it from the inside two protective ear pads.

The technical result of the utility model is the development of a device for video histogram based on available hardware, with the ability to work autonomously when performing vestibulometric tests, positional maneuvers, when registering a nystagmenic reaction from one or both eyes, increasing reliability and ease of use.

To solve this problem, a device for video histogram is proposed. The device consists of a housing (1), which is a virtual reality glasses for smartphones, which contains: two cameras with autofocus, infrared light, a power source and the ability to write data to a memory card (2), aspherical lenses (3), interpupillary distance adjusters (5), a retractable mount for a smartphone (7), a front opaque cover (6), an obturator (4), which ensures a snug fit of the device to the head of the subject, adjustable elastic straps (8) to fix the device on the patient's head (f 1 g).

The device for video nystamography works as follows: the case (1), which is a virtual reality glasses for smartphones, is fixed on the person’s head and fixed with elastic straps (8) so that the ocular frame (4) fits snugly against the face of the subject. Using the regulators (5), the necessary interpupillary distance is established. Memory cards are inserted into video cameras (2) located inside the housing (1) and video cameras are connected to power sources, after which the image of both eyes is recorded on memory cards. If it is necessary to present visual stimuli to the patient, a smartphone is installed in a special mount (7) located inside the case, the screen of which can be used instead of a monitor or a projector, and one of the cameras must be removed by removing the front cover (6). The data recorded on memory cards can be interpreted in the necessary way.

It is possible to install one camera or two in the device case, and the interpupillary distance is easily adapted to a particular patient with the help of regulators. Aspherical lenses used in the manufacture of glasses avoid distortion of the data recorded on the video, while the effect of increasing the image of the lens allows to increase the accuracy of the measured parameters of the eyeball.

The presence of a special mount allows you to use the smartphone screen to present visual stimuli instead of a monitor or projector when performing a number of vestibulometric tests (“fixed-sight” test, “smooth tracking” test, saccade test, optokinetic test, etc.).

Claims (1)

A device for video nystagmography, consisting of a case with video cameras inside, adjustable elastic straps for fixing the device on the patient’s head, characterized in that the case consists of virtual reality glasses for smartphones with aspherical lenses, interpupillary distance adjusters, a retractable mount for using the smartphone screen for the presentation of visual stimuli, while the cameras are autofocus and are autonomous devices with infrared full backlight, power source and the ability to write data to a memory card.

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