RU122009U1 - STABILOMETER SIMULATOR - Google Patents

Abstract

1. A stabilometric simulator, characterized in that it contains a stabilometric platform, a monitor of visual signals of the biofeedback circuit connected to a general-purpose computer, as well as handrails, a safety belt, carabiners and a protective sling. ! 2. The stabilometric simulator according to claim 1, characterized in that it further comprises an electromyographic module. ! 3. The stabilometric simulator according to claim 1, characterized in that it further comprises an electrocardiographic module. ! 4. The stabilometric simulator according to claim 1, characterized in that it further comprises an electroencephalographic module.

Description

The claimed technical solution relates to the field of medical technology and can be used for the rehabilitation of patients with impaired equilibrium function, including those caused by surgical interventions associated with endoprosthetics and transplantation.

A diagnostic complex for studying the state of the autonomic nervous system (RU 67838 U1, publ. November 10, 2007) is known from the existing state of the art.

The disadvantage of the complex is the lack of fall protection, which makes it inconvenient and dangerous to use, especially when examining patients with a serious disorder of the equilibrium function.

Closest to the claimed technical solution is a device for assessing and correcting the functional state of a person (RU 5913 U1, publ. 02.16.1998), containing a stabilograph, software unit, a standard configuration personal computer, a biofeedback signal presentation unit and a registration unit, a unit bioelectric signal sensors and a bio-signal amplifier.

The disadvantage of this device, as in the first case, is the complete absence of any means of protection against falling, which makes it inconvenient and dangerous to use, especially when examining patients with a serious disturbance of the equilibrium function.

The problem to which the claimed technical solution is directed is to increase the safety and effectiveness of the training, as well as the convenience of using a stabilometric simulator.

This problem is solved due to the fact that the stabilometric simulator contains a stabilometric platform, a monitor of visual signals of the biofeedback circuit connected to a general purpose personal computer, as well as handrails, a safety belt, carbines and a protective sling.

The technical result provided by the given set of signs of increasing the maximum allowable amplitude of the oscillation of the center of gravity of the body in conditions of guaranteed protection from falling.

The essence of the claimed technical solution is illustrated in figure 1, which shows the main functional units of the stabilometric simulator and the location of the examined patient on it.

The stabilometric trainer contains a stabilometric platform 1, a monitor of visual signals of the biological feedback loop 9 connected to a general purpose personal computer 8, as well as handrails 6, 7, a safety belt 5, carbines 2, 3 and a protective sling 4.

The stabilometric simulator can be equipped with an electromyographic module (not shown in the drawing).

The stabilometric simulator can be equipped with an electrocardiographic module (not shown in the drawing).

The stabilometric simulator can be equipped with an electroencephalographic module (not shown in the drawing).

Stabilometric simulator works as follows. The patient wears a safety belt 5 and sits on a stabilometric platform using handrails 6 and 7 for convenience. Attendants attach a safety sling to the safety belt. An image is formed on the visual signal monitor of the biological feedback loop 9, which the patient can control by changing the position of the center of pressure exerted by him on the stabilometric platform.

Training consists of a series of tasks of a playful nature, during the process of which regeneration of damaged synaptic connections takes place and the psychological stereotype of walking is eliminated.

In parallel with the registration of the position of the center of pressure during the training process, monitoring of other physiological parameters can also be carried out, providing additional diagnostic information.

The effectiveness of the training and the completeness of restoration of motor functions directly depends on the amplitude of the oscillations of the center of pressure made by the patient during the task. Its value is objectively limited by the possibility of loss of balance with the subsequent fall of the patient. However, in an effort to completely eliminate the danger of falling, patients evaluate the maximum amplitude of oscillations with a large margin of reliability, which reduces the effectiveness of training, especially in patients with a strongly impaired equilibrium function.

Safety devices introduced according to the claimed technical solution do not constrain movements and do not interfere with the performance of training tasks, but completely eliminate the danger of falling. When using them, the psychological barrier is removed and there is the possibility of a safe deviation to the maximum possible distance. Since even in case of loss of balance, due to the tension of the protective sling 4, the body hangs on the safety belt without any dangerous consequences. In this case, the patient is able to quickly independently rise using the handrails 6 and 7.

Claims (4)

1. A stabilometric simulator, characterized in that it contains a stabilometric platform, a monitor of visual signals of the biofeedback circuit connected to a general purpose personal computer, as well as handrails, a safety belt, carbines and a protective sling. 2. The stabilometric simulator according to claim 1, characterized in that it further comprises an electromyographic module. 3. The stabilometric simulator according to claim 1, characterized in that it further comprises an electrocardiographic module. 4. The stabilometric simulator according to claim 1, characterized in that it further comprises an electroencephalographic module.