RU169239U1 - Device for monitoring and evaluating vestibular (statokinetic) stability - Google Patents

Abstract

The utility model relates to diagnostic equipment that allows you to objectively assess the level of development of vestibular stability. Device for monitoring and evaluating vestibular (statokinetic) stability, including a graduated platform from 0 to 360 degrees with dimensions of 1500x1500 mm, a rotating disk with an arrow, a metal cone-shaped structure welded from metal pipes with a diameter of 25 mm, and the height of the structure is 850 mm, lower the diameter is 1000 mm and the upper diameter is 600 mm. The technical result is that the accuracy of the measurements increases to 1 degree, this allows you to more objectively evaluate and differentiate the individual capabilities of the vestibular functions of a person. 1 ill.

Description

The utility model relates to diagnostic equipment that allows you to objectively assess the level of development of vestibular stability. It is designed to control and evaluate vestibular function in athletes, children and adolescents, when choosing areas of sports specialization (sports selection), and also to conduct special training aimed at improving vestibular stability.

It is known that for the study of vestibular function for clinical purposes, the “Barani” swivel chair is used [http://medical-enc.ru/2/barani_kreslo.html].

Barani chair is a classic example of medical diagnostic equipment and is a special rotating chair designed to diagnose and study the functional state of the vestibular apparatus - the balance organ located in the inner ear. The single criterion for evaluating this function is the duration of the upcoming sequential "nystagmus", which can only be determined by a specially trained employee. With this technique, passive rotation is carried out, which is not characteristic of sports, where active rotational movements predominate.

To train the vestibular analyzer, the simulators of the scientist V.G. Sagittarius "Vertical" [RF patents №№ 2004274; 2064310]. All these devices are aimed at training the vestibular analyzer and do not allow an objective assessment of the level of development of the vestibular analyzer.

In modern clinical medicine and psychophysiology, stabilometric platforms are most often used to assess vestibular (statokinetic) stability: Posturograph, Stabilo-MBN and others [Skvortsov D.V. Stabilometric study. - M.: Mask, 2010, 176 p.].

These platforms give the most objective assessment of the state of vestibular functions, but this is expensive, stationary laboratory equipment that requires special knowledge and professional training during operation.

The main significant difference of the proposed utility model from analogues is that in the inventive object, active rotation is not used, but passive, i.e. the test is carried out by the subject himself, he can, at the command, adjust the speed, direction and number of rotations.

The proposed utility model can be used not only as a diagnostic equipment, but also as a means of training the vestibular apparatus.

Of the known technical solutions, the closest in technical essence to the claimed object is the "Barani chair" - a device that allows you to determine the functional state of the receptor apparatus of the vestibular analyzer by assessing the duration of the nystagmus that appears in the subject after rotation in the chair for 20 seconds. This method was proposed by the Austrian scientist R. Barani [ http://medical-enc.ru/2/barani_kreslo.html ], and it is widely used for clinical medical purposes, as well as for medical examination of pilots, astronauts and people of other professions, where the condition the vestibular apparatus is important.

A significant technical difference of the claimed model from the “Barani chair” is that the subject performs the rotation in it, i.e. active rotation occurs. Another significant difference is that the claimed utility model has a graduated scale, which shows the degree of deviation from the starting position or a given point after the rotation. Performing such studies is not difficult, it can be mastered by all those interested in the diagnosis of vestibular functions, while with the rotation technique in the “Barani chair” only specialists with special education can evaluate the duration of nystagmus.

The essence of the claimed utility model is that a device has been developed for monitoring and evaluating vestibular (statokinetic) stability, including a graduated platform from 0 to 360 degrees with dimensions of 1500x1500 mm, a rotating disk with an arrow-pointer, a metal cone-shaped structure welded from metal pipes with a diameter of 25 mm, construction height 850 mm, lower diameter 1000 mm and upper diameter 600 mm.

The claimed utility model allows you to objectively assess the state of the vestibular functions of both young and qualified athletes, especially in sports where high demands are made on vestibular stability (difficult coordination, playing, martial arts, etc.).

The inventive utility model is used in the selection and diagnosis of sports predisposition of children and adolescents, for this purpose, stage-by-stage model values of vestibular stability in individual sports have been developed.

Differences of the proposed model from analogues: simplicity of design, high accuracy of the assessment of vestibular stability, the possibility of individual dosing of the vestibular load. In this utility model, unlike others, an active rotational load is used, i.e. through the efforts of the subject himself.

In FIG. 1 shows a General view of the claimed device. The device consists of the following components:

1 - The upper hoop (metal with a foam rim) - 600 mm;

2 - Bottom hoop (metal) - 1000 mm;

3 - Racks vertical (metal) - 4 pcs., 850 mm;

4 - Disk "Health" (on bearings);

5 - Arrow (plastic);

6 - Graduated scale - 1500 mm;

7 - Platform (pressed coated foam rubber) - 1650 mm.

Diagnostic procedure

The test subject stands on disk 4, a blindfold is put on his eyes, then he performs, in the classic version, 5 rotations. Arrow 5, on disk 4, shows the number of degrees by which the subject was mistaken. For this type of test (5 rotations), standards and rating scales have been developed. They are designed for both the average person and representatives of various sports, where high demands are placed on vestibular stability.

The technical result is that the accuracy of the measurements increases to 1 degree, this allows you to more objectively evaluate and differentiate the individual capabilities of the vestibular functions of a person.

Claims (1)

Device for monitoring and evaluating vestibular (statokinetic) stability, including a graduated platform from 0 to 360 degrees with dimensions of 1500x1500 mm, a rotating disk with an arrow, a metal cone-shaped structure welded from metal pipes with a diameter of 25 mm, and the height of the structure is 850 mm, lower the diameter is 1000 mm and the upper diameter is 600 mm.

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