RU2701410C1 - Simulator for screening - monitoring of vestibular resistance - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to otorhinolaryngology and medical-physical culture, and may be recommended for training and strengthening of vestibular apparatus in sportsmen resting in sanatoriums of persons and specialists engaged in work at height, for which balanced coordination of movements is important.EFFECT: use of this exercise equipment will become a supporting factor for implementing the therapeutic-diagnostic process.1 cl, 1 dwg

Description

The invention relates to medicine, namely otorhinolaryngology and physical therapy, and can be used to train and strengthen the vestibular apparatus in athletes resting in sanatoriums of persons and specialists engaged in work at heights, for which balanced coordination of movements is important.

By it is understood the processes of coordination of the activity of the muscles of the body, aimed at the successful fulfillment of the motor task. Its main component is a sense of balance that occurs when the body is stable and regulated by physiological and biomechanical sources. Physiological factors include visual and tactile perception. Exactly the presence of visual contact is the most important condition for maintaining equilibrium. With the cessation of visual perception, the sense of balance and, consequently, coordination deteriorate sharply. It should be emphasized that circumstance that tactile signals also contribute to maintaining a stable equilibrium. An extensive system of sensitive sensors is located in the pads of the feet. Responding to pressure changes of the surface beneath them, they send relevant information about it to the brain, which makes it possible to quickly change the position of the body to maintain balance. An important organ controlling balance is the vestibular apparatus located in the inner ear. It consists of two types of receptors: semicircular canals, which are responsible for angular movements, and the so-called otoliths, which regulate linear movements.

The normal balanced functioning of the vestibular apparatus of the human body is necessary to maintain the vertical position of the body and the implementation of coordinated movements when moving in space, stabilizing the position of the head and fixing the gaze, forming a spatial orientation. Thus, any violation of the vestibular apparatus entails a violation of these functions.

The so-called "center of gravity" refers to biomechanical sources of equilibrium - a conditional point located at the intersection of gravitational lines with vertical and horizontal orientation of the body. In a person of average complexion, standing upright in a balanced position, the center of gravity will be located in the solar plexus.

All parts of the central nervous system, from the spinal cord to the cerebral cortex, are used to coordinate movements, with the help of which the musculoskeletal system and musculoskeletal system are controlled. The peculiarity of the latter lies in the fact that it consists of a large number of links movably connected in the joints, allowing rotation of one link relative to another. Skeletal muscles are elastic organs with a nonlinear dependence of the developed force on the frequency of activation. In each specific motor act, it is advisable to distinguish the main muscle (main engine), auxiliary muscles (synergists), antagonists and stabilizers (muscles that fix joints that are not involved in movement). The final result of the movement is affected not only by the forces developed by the muscles, but also by forces of non-muscular origin. These include the inertia forces created by the masses of the parts of the body involved in the movement, as well as the reaction forces that occur in kinematic chains when any of the links is displaced. In practical activities, a person interacts with objects of the outside world - various tools, moving loads, etc., and he has to overcome the forces of gravity, elasticity, friction, inertia that arise in the process of this interaction. Non-muscular forces interfere with the process of movement and make it necessary to continuously coordinate with them the activities of the muscle apparatus. It is also necessary to neutralize the effect of unforeseen interference with the movement that may occur in the external environment, and promptly correct the mistakes made during the implementation of the movement. In connection with the listed features of the musculoskeletal system and the conditions of its interaction with the outside world, the control of movements is unthinkable without solving the problem of coordinating the activity of a large number of muscles. Higher forms of brain activity related to consciousness are included in the control of human movements, which gave reason to call the corresponding movements arbitrary.

A person, depending on the task, can reproduce any desired form of motor activity. Therefore, human movements are a manifestation of his behavior and work. Lack of coordination is manifested by impaired stability when standing and walking, asymmetries in the movements of the right and left sides, impaired accuracy of movements, decreased strength and reduced speed. Registration of spatial and temporal characteristics of movements with their quantitative presentation makes it possible to assess the degree of motor disorders, to offer effective methods of motor rehabilitation.

Therefore, the developed coordination is a necessary quality for playing sports, working at height, and performing precise movements. Its main task is to coordinate the activity of the muscles of the body and, thus, help a person successfully complete the intended movement. The more coordinated various movements are trained, the more connections are formed and the coordination becomes better. A well-coordinated person moves easily and effortlessly, in addition, the risk of injury to him is minimized. With the help of simulators, it is possible to train static balance, dynamic, and coordination between different limbs

It is known [RU No. 2311214 C1, 03/22/2006] a balance platform device for diagnosing vestibular stability of a person on a plane using various combinations of mechanical and electrical devices.

Its disadvantages include the lack of the ability to adapt the system to a specific user with various growth and weight characteristics, as well as devices for fixing the feet, handrails, signal components of the correct execution of movements.

Described [RU No. 2501589 C2, 11/22/2011] a training device related to the field of medicine and sports for biomechanical effects on the body, containing a basic support designed to accommodate at least the lower extremities of a person, including layers of springs that provide vibration movement along the coordinate axes x, y and z and rotation in the horizontal plane.

The disadvantage of this device is the complexity and low reliability of its design during operation, as well as the difficulty of adapting to it in the case of untrained persons.

As the closest technical solution, a balance platform can be considered [RU No. 126950 U2, December 6, 2012], intended for use in the healthcare industry in order to strengthen the vestibular apparatus of workers whose activities are not associated with physical activity, as well as people seeking to engage in active physical activity. It includes a massive base, with an optical sensor located above it - an optocoupler connected by an electric circuit to a counter for fixing the balance of the platform-balancer.

The disadvantage of the proposed simulator is the difficulty of fixing the platform in the resting position before the start of the training, as well as the obviously correct and individually corrected position of the feet on the surface of the device, which reduces its ergonomic properties in preparation for the start of the session, securing the necessary position of the feet on the platform, reducing the participation of the proprioceptive sensitivity component a person in the process of developing the skill of stability on oscillating surfaces.

The aim of the proposed technical solution is to improve the design of the simulator for the diagnosis and training of vestibular stability in a nearby environment with the maximum personalized approach.

This is achieved by the fact that, in contrast to the known balancing devices, on its oscillating platform, devices are provided for fixing the feet with an individual change in their position for the parameters of the person being studied / trained using a manual stopper that brings the device from a steady state of rest to its working position. Thus, in contrast to the known technical solutions, the proposed design takes into account the geometry of the location of the feet, functionally associated with the central nervous system and other organs of the human body. This is facilitated by a massage substrate for the feet in order to activate a branched system of sensitive nerve sensors in them.

The composition of the improved device for carrying out screening monitoring of the human vestibular apparatus is shown in two projections in the figure: A) top view; B) front view indicating the direction of view. The designations correspond to the following positions: 1 - articulated platform, 2 - foot mount, 3 - height-adjustable handrails, 4 - device for recording platform deviations from horizontal position, 5 - photocell on an oscillating platform, 6 - shock absorbers, 7 - massage stand for legs; 8 - hinge of the working platform.

The simulator is a device consisting of a platform with a hinged platform for the feet, with the possibility of placing them on the desired width with a given turning angle, devices for fixing the feet and a manual locking rod for removing the device from the locked state, a sensor for registering platform deviations from horizontal position, functionally associated with a time indicator and a buzzer, allowing to judge the steady state of the work site. The frame in the lower part is made in the shape of a rectangle framed by a metal profile to ensure maximum reliability and stability (base length from 1000 to 1200 mm, profile cross-section is recommended from 4 mm). The “G” -shaped metal lever (not shown in the figure), which is inserted into the openings of the working platform 1, acts as a locking rod. It also houses massage foot supports with elastic fastening straps, with the possibility of turning the feet in and out (with rigid fixation) the selected position of the coasters) to give the trainee a position of maximum stability and increase comfort, training or rehabilitation functions. It is possible to place the feet at the optimum width according to the individual characteristics of the person due to the displacement and fixation of the devices used. As them can be used massage footrests in the form of mounts for snowboards, or elements with a rubberized contact surface. Using a photocell 5 and a device for recording deviations 4, it is possible to quantify the number of vibrations in different directions of the test subject, to adapt and select an individual training or rehabilitation program. The simulator includes end shock absorbers 6 made of cylindrical rubber tips with a rounded end and mounted on the bottom of the foot mounts with heights of 50 to 65 mm and a diameter of 20-30 mm.

The developed device design, if all the elements are included in it, will significantly expand the number of workers involved in training whose professional activity is related to working at heights, as well as patients with impaired vestibular apparatus who are undergoing rehabilitation. At the same time, the platform for setting the feet allows you to fix the feet in the correct position, individually select the size of the breeding of the feet according to the complexion of the person, provide additional stability for untrained persons with the help of handrails.

The use of this simulator can become a providing factor for the implementation of the medical diagnostic process in accordance with the Decree of the Ministry of Health of the Russian Federation "Procedure for the provision of medical care to the population according to the otorhinolaryngology profile, approved by its Order of November 12, 2012 No. 905n (Appendix 9). Its use will also contribute to improving the process of training athletes in terms of conducting diagnostic stabilographic and clinical events ("Guidelines for training vestibular th stability of athletes for the purpose of injury prevention in sports endurance ", Moscow 2013).

Claims (1)

A simulator for screening monitoring of vestibular stability, including a platform with a hinged platform for placing feet, handrails and a stopper to bring the device from a standstill, a photocell and a sensor for registering deviations of the platform from a horizontal position, functionally associated with a time indicator and a buzzer, characterized in that the fixation stop at the desired distance from each other with a given angle of rotation is adjusted using restraints associated with massage substrates to activate the nerve x foot endings.

Images