RU218511U1 - STEP-LOADING DEVICE WITH DETERMINATION OF FUNCTIONAL LIMB SHORTENING - Google Patents

Abstract

The utility model relates to medical equipment, namely to step-loading devices with determining the height of the height difference in the lengths of human supports (limbs), treatment of diseases of the musculoskeletal system and internal organs of a person. The device has two pairs of counter-moving platforms (the lower base and the support one - under the feet), hinged on a horizontal axial cylinder, the elastic travel of the support platforms is asynchronously adjusted to the stops of the loaded stroke with locknuts screwed into the protrusion of the lower bases to compensate for the difference in height of the supports, with travel markings in millimeters of the scale, each of the pairs of platforms is spring-loaded between them by replaceable elastic elements with a metrologically predetermined compressibility, for example, with springs in removable cassettes. The device allows you to determine the heights of different heights of the lengths of the supports, to carry out the axial load in height-compensated supports and sparing conditions for the body to achieve a more pronounced, in comparison with normal walking, load on the muscular and vestibular systems with a physiologically insignificant load on the joints of the extremities in conditions of limited space. At the same time, the device allows, due to the complete stop of the load platforms at a given height to the travel stops relative to each other, to obtain an axial "hit" on both supports while walking under conditions of its mitigation, leading to a change and redistribution of the tonus-power balance of various muscle groups of the trunk and limbs. The device can be used both for diagnostics and for training walking without the use of orthopedic shoes, a temporary or permanent corrector, during which it is possible to more accurately recommend the height of the corrector under the foot. Due to this, the clinical effect of treatment is achieved faster and the number of necessary visits to specialists is reduced.

Description

The utility model relates to medical equipment, namely to step-loading devices with determining the height of the difference in the lengths of human supports (limbs), treatment of diseases of the musculoskeletal system and internal organs of a person, can be used in medical rehabilitation, restorative medicine, kinesiology, physiotherapy exercises and sports medicine to restore the function and prevent structural changes in the musculoskeletal system and internal organs in various diseases of the spine, including scoliotic deformities and dorsopathy.

The following devices and methods implemented by them are known from the existing level of technology with the determination of the height of the difference in the lengths of the supports (limbs) of a person, by identifying the asymmetric function of the paravertebral muscles, using various tools and equipment that allow performing similar diagnostic and therapeutic tasks, mainly due to alignment support lengths by using the required height of insoles or stacked correctors under the foot.

1. Method for manual diagnosis and correction of the functional state of the spine. Application No. 2004107593/14. Priority 15.03.2004. Published 01/27/2006. Bull. No. 3), author S.L. Shcherbinin. The method is a clinical method and is based on the use of the thumb test according to Shcherbin-Piedalu with an assessment of the mobility of the skin-fascial flap during movement (flexion-extension) of the patient (Shcherbin S.L. (Russia). Pat. No. 2268700 IPC A61H 1/00. This method is practically cost-free, since the equipment requires only a caliper and a set of measuring correctors.The conclusion is made by the presence / absence of asymmetric displacement of the right and left skin-fascial flaps when the spine moves in the sagittal plane.The disadvantage of this method and devices is the high level requirements training and required experience of personnel, and training in the interpretation of measurement results for the conclusion.

2. A method for detecting the existing asymmetry of the function of the paravertebral muscles with the subsequent conclusion about the presence of a difference in the lengths of the supports using the electroneuromyographic method (Shcherbin S.L., Shcherbina S.M. (Russia). Patent of the Russian Federation No. 2335239. The disadvantage of this method and equipment is the requirement to have special complex, certification of equipment and specialists in a special institution.

3. A method for diagnosing and correcting the functional state of the spine. Application No. 2006135602/14. Priority 09.10.2006. Registered on 10.10.2008. Published 10.10.08. Bull. No. 28). In this case, in addition to a caliper and a set of measuring correctors, an electromyograph is required, the sensors of which (at least 2) move sequentially along the paravertebral points along the spine. That is, this method offers an additional digital assessment with the study and graphical display of the function of the paravertebral muscles. The method is highly sensitive and does not require prior use (although it does not exclude) the Shcherbin-Piedalu thumb test. The disadvantage of this method is that with increased measurement accuracy, the summation of the disadvantages of method 1 and 2 is still, namely, the complexity and measurement cycle and the need for sophisticated equipment.

4. The method of stabilometric detection of the difference in the lengths of the supports (shortening of the limb) is also applicable in combination with the thumb test according to Shcherbin-Piedalu. (Shcherbin S.L., Shcherbina S.M., Kozminov S.G., Plum S.S. (Russia). Patent RF No. 2336804. The disadvantage of this method is its two-stage nature.

5. Method for functional diagnostics and correction of the spine and vestibular system. Application No. 2006138256. Priority 30.10.2006. Registered on 10/27/2008. Published on 27.10.08. Bull. No. 30), which involves the use of a caliper, a set of measuring correctors in combination with a stabilometric platform, when the use of the stabilometric method allows you to refine the data of the clinical method (Thumb test according to Shcherbin-Piedalu). The disadvantage of this method and measuring equipment: the application requires a two-stage approach and its orientation to clarify the measurements at the conclusion.

The disadvantage common to all of the above devices, tools and devices and the methods they implement is also that the examination, that is, the stages - correction and subsequent loading are implemented sequentially. So, at the reception, the presence of an asymmetric function of the paravertebral muscles is first detected in the course of several measurements, which makes it possible to draw a conclusion about the difference in the length of the supports (limbs) and eliminate it by selecting the alignment of the lengths of the support, by using a multilayer insole under the foot in shoes with the above accuracy of correcting the difference in the lengths of the supports up to 1 mm. Conducting a reasonable correction of the difference in the length of the support is the basis for the subsequent complex restorative treatment to achieve the highest possible positive result and is achieved during long-term treatment and is not applicable without highly qualified personnel. At the same time, the height of the corrector may change during its use under the influence of the load (especially in the first days of use), which requires frequent repeated receptions.

The basic technique presented in the Practical Guide for Doctors (Shcherbin S.L. Functional metrological technology as a fundamentally new method for dynamic detection and correction of difference in support lengths and prevention of the development of static scoliosis of the spine. Part I. Shcherbin-Piedalu Thumb Test: A Practical Guide for doctors - Nalchik: Printing Yard LLC, 2012. - 88 p.), specified in the above Patents.

Regardless of the method used to identify the difference in the lengths of the supports, when this functional state is detected, correctors are selected for the patient's foot, with which he walks for some time (sometimes for life). At the same time, the height of the corrector tends to change, especially at the initial stage of treatment, which requires fairly frequent monitoring during this period (appearance for examination with an examination, including, as a rule, a traumatologist-orthopedist and a chiropractor), repeated use of diagnostic equipment (examination by a specialist in functional diagnostics, the use of consumables or the processing of reusable sensors, from which they can fail).

The technology in all cases implies the identification with the help of functional metrological methods and the appointment and manufacture of stacked correctors of functional shortening, which is followed by a recommendation for the subsequent manufacture of a corrector insole for its constant wear until the scheduled re-admission of specialists to identify the need to change the height of the corrector. The need to change the height of the corrector occurs under the influence of a functional load (walking) and the maximum height changes are recorded at the first appointments of the patient.

All of the above methods also have a common drawback, namely, they do not allow even a short period of locomotor load (walking) to be carried out directly in the process of adjusting the height of the corrector, although this procedure to a certain extent would reduce the number of patient visits to the clinic while improving the quality of care. medical care. However, in order to carry out a functional load in the process of selecting the compensated height of the corrector, it is necessary to apply a simultaneous combination of 2 factors: express manufacturing of several corrector insoles with subsequent walking on products that allow locomotion in a limited space, or use a product that allows you to move the support platforms when the feet are loaded on different sizes relative to each other. At the same time, the manufacture of insoles by the express method at the first visits of the patient to specialists is an extremely complex process in terms of equipment and is not economically viable.

The most similar in design training step-loading devices are known, but not applicable to the possibility of determining the height of the difference in the lengths of the supports (limbs), which are used only for the implementation of locomotor load modes on the lower limbs due to the possibility of aerobic and strengthening loads in a wide range of work levels by performing various movements (Physical rehabilitation of patients with coronary heart disease after surgical myocardial revascularization using cyclic aerobic training: educational and methodological recommendations, D.D. Bolotov, A.M. Shchegolkov, S.A. Belyakin, A.A. Budko, A.P. Rusakevich , S. M. Starikov, T. V. Arseniy, Russian Medical Academy of Postgraduate Education, M, 2010, p. 42). These include an exercise bike, treadmill (treadmill), epilepsoids, steppers. Steppers are divided into classic, balancing and rotary.

The disadvantages of the above types of devices are their inapplicability for detecting height differences in the lengths of supports (limbs), significant dimensions, high cost, low availability (a small number of medical institutions are equipped with them), the need for periodic maintenance, and most importantly, all of them do not have diagnostic capabilities for determining length differences. supports (limbs) and the measured limitation of the movement of the support platforms. That is, the disadvantage of all steppers is also the fact that their design involves walking without fixation in the extreme positions compensated by the travel stops under the load of the step, due to the fact that the main task of walking on this type of product is frequent “walking”, as a result of which the supporting surfaces of the product, moving, do not use the extreme positions of the available amplitude of their movements, without hitting the heel on the supporting surface or hitting the supporting surface on the base. This load variant does not include a mechanism for rapid restructuring of the tonus-power balance of the muscles of the trunk and limbs, including those located paravertebral.

The closest to the claimed technical device in terms of design and purpose, but without the ability to determine the height of the height difference in the lengths of the supports (limbs) of a person, is a simple load-step simulator that simulates climbing the stairs of a fitness class - a Body Sculpture BS-803BLA-B EZ stepper, which does not contain a measuring stroke height limiter and therefore limited functionality - it does not determine the difference in the lengths of the supports (limbs), therefore it is not very effective for the treatment of diseases of the musculoskeletal system and internal organs of a person.

The objective of the underlying utility model is to create an easy-to-manufacture and use step-loading device and a method for determining the height of the difference in the lengths of supports (limbs) during diagnosis with adjustment in subsequent rehabilitation to prescribe a corrector (insole) for a foot of a certain height, the device implements this possibility due to the provision of correction of the stroke by the stroke stops in height by the required value (up to compensation for the difference in the lengths of the supports) of the loaded platforms, determined by the measuring scales.

This problem is solved due to the fact that: the step-loading device with determining the height of the difference in the lengths of the supports (limbs) has two pairs of counter-moving platforms (lower base and support - under the feet), hinged on a horizontal axial cylinder, characterized in that the elastic stroke support platforms are asynchronously adjusted to the stops of the loaded stroke with locknuts screwed into the protrusion of the lower bases to compensate for the difference in height of the supports, with the stroke marking in millimeters of the scale, each of the pairs of platforms is spring-loaded between themselves by replaceable elastic elements with a metrologically predetermined compressibility, for example, with springs in removable cassettes.

The technical result provided by the above set of features is the ability to determine and compensate for the height of the difference in the lengths of the supports (limbs) to carry out the axial load in height-compensated supports and conditions that are gentle on the body to achieve a more pronounced, in comparison with normal walking, load on the muscular and vestibular systems ( the effect of a stepper is used with imitation of climbing stairs) with a physiologically insignificant load on the joints of the limbs in conditions of limited space. At the same time, the device allows, due to the complete stop of the load platforms at a given height to the travel stops relative to each other, to obtain an axial "hit" on both supports while walking under conditions of its mitigation, leading to a change and redistribution of the tonus-power balance of various muscle groups of the trunk and limbs. The use of the device is possible as a diagnostic method, especially during the first and subsequent appointments by specialists in rehabilitation in order to correct the existing difference in the lengths of the lower limb supports, it allows you to replace part of the equipment: adjusting the height of the travel stops in 1 mm increments eliminates the use of measuring correctors. In addition, this product allows for training walking without the use of orthopedic shoes, a temporary or permanent corrector (insole), during which, when using electromyography, or after which, when using the Shcherbin-Piedalu test of thumbs, taking into account the past during the training changes in the tone-power balance of muscles, more accurately recommend the height of the corrector under the foot. Due to this, the clinical effect of treatment is achieved faster and the number of necessary visits to specialists is reduced. It is important that the device does not have a technically conditioned synchronism of movement of the supporting surfaces, which is available for steppers of all types, which also allows, through the use of this utility model, to achieve a clinical result faster and more efficiently by using the effect of instability and the possibility of function asymmetry under axial load. There is a faster training of the muscular and vestibular systems of the body in a limited space (office).

The presence of adjustable travel stops in the protrusions of the base, scale and travel stops with adjustment and replaceable elastic elements is new in the step-loading device and allows you to recognize the claimed device as new in design and purpose.

The useful model is a step-loading device with determining the height of the difference in the lengths of the supports (limbs) is simple to manufacture, easy to learn and in demand with new relevant functions in medical rehabilitation, kinesiology and exercise therapy and sports medicine, most effective in the prevention of scoliosis in children and applicable in school conditions in health rooms and outpatient settings.

The essence of the invention is illustrated by drawings, which show:

In FIG. 1 - step-loading device with determining the height of the difference in the lengths of the supports (limbs), general view.

The step-loading device with determining the height of the difference in the lengths of the supports (limbs) has two pairs of counter-moving platforms (lower base (1) and support (2) - under the feet), hinged on a horizontal axial cylinder (3), characterized in that the elastic stroke support platforms are asynchronously adjusted to the stops (4) of the loaded stroke with locknuts (5) screwed into the protrusion of the lower bases (6) to compensate for the difference in height of the supports, with the stroke marking in millimeters of the scale (7), each of the pairs of platforms is spring-loaded between themselves by replaceable elastic elements (8) with metrologically predetermined compressibility, for example with springs in removable cassettes (9). In the area of the rear sections of the supporting movable platforms (in the area of the heels of the feet) there are limiters (10) on the sides of their perimeter in the end part of the platforms for installing additional typesetting (1 mm thick) of the required thickness of inserts (11).

The device works as follows. After revealing the difference in the length of the support (limbs) in the patient, he is invited to stand on the device. At the same time, the replaceable and elastic elements in the cassettes are not installed in the device and the platforms are closed to each other on both sides and both travel stops are screwed into the lower position symmetrically. Then, on the platform, by adjusting the height of the stops of the turning stroke with a hand or a key, it is necessary to correct the standing height according to the displacement of the skin-fascial flaps by the height of the rise or descent of one support platform. Then the patient is asked to transfer the body weight to the opposite support. At the same time, there are options for precise instrumental control using the electromyographic method, in which the device's sensors are attached and fixed to the patient's back. The control option described above and by turning the nut attached to the threaded rod with a hand or a wrench achieve a change in the level of the travel stop, after which functional metrological tests are repeated (thumbs or using electromyography). The value of the stroke height of the support platform is the height of the required compensation for the difference in the height of the support and is determined by the number of turns of the threaded rod with the nut (1 full turn of 360 degrees is 1 mm) or by the scale located on the protrusion of the base of the device, the reference for which is the end part threaded rod. With the remaining difference in the lengths of the supports, a round platform with a rubber limiter is raised - lowered and then tested until the onset of a functional correction state, after which the device is prepared for walking on the device. To do this, a removable cassette with elastic elements is inserted into the rear part of the base and the support platform, the degree of rigidity of which is selected in such a way that, standing on one leg, the travel stop and the support platform on the same side adjoin each other, and standing on two legs do not adjoin each other. both sides. After that, training walking on the device is carried out, the duration of which depends on age, health status and functional disorders and lasts, as a rule, no more than 30 minutes. The pace can change in the process of mastering walking on the device, but it is necessary to choose it in such a way as to carry out a complete transfer of body weight from limb to limb in the process of walking, until the limiters touch each other. When using electromyography, the sensors are not removed and allow you to evaluate the synchronism of the function of the paravertebral muscles during walking, which allows you to more quickly change the height of the support platform, immediately after the appearance of signs of asymmetry in the function of the paravertebral muscles, for which you need to stop, remove the removable cassettes and make a functional metrological test (using an electromyograph) with correction of the stroke height of the support platform by turning the threaded rod. In the absence of an electromyograph, during training, it is possible to remove removable cassettes 1-2 times, at approximately equal intervals, and check for the presence of a difference in the length of the support using the Shcherbin-Piedalu test with the existing difference in the height of the support platforms, taking into account the data obtained, it is carried out additional correction of the height of their standing and movement, after which the removable cassettes are re-installed and the training continues.

The training ends with the final performance of one of the functional metrological tests, after which a conclusion is made about the height of the temporary or permanent corrector (insole or orthopedic insole) under the foot for permanent wearing.

The key point is that the device allows diagnosing the difference in lengths of the lower limb supports, a more complicated training compared to normal walking, which allows, due to a more complexly coordinated load on the vestibular and musculoskeletal systems, to maintain a lightweight axial push (impact) under conditions compensation for shortening of the limb, to achieve a faster restructuring of the tonus-power balance of the muscles of the trunk and limbs, which accelerates the restructuring of the biomechanics of walking and body movements, thereby improving the quality of medical care and reducing the number of appointments by specialists at an early stage of treatment.

Thus, the use of the utility model allows to obtain the following technical result:

1. Carry out one-stage diagnostics to identify the difference in the lengths of the supports (limbs) with the selection of the value in the exact compensation of the platform movement to the value of the identified shortening of the limb, make an appointment during rehabilitation and conduct a complicated and effective (compared to normal walking) training due to more difficult coordinated load on the vestibular and musculoskeletal system by the force effect.

2. In general, to achieve a faster restructuring of the tonus-power balance of the muscles of the trunk and limbs, since the stroke limiter provides for its precise fixation of the compensated end of movement with a push-impact effect, namely, its stop of the load platforms at a given different height required in height relative to each other so and get an axial “hit” while walking in conditions of its mitigation, leading to a change and redistribution of the tonus-power balance of various muscle groups of the trunk and limbs.

3. Accelerates the restructuring of the biomechanics of walking and body movements (using the effect of a stepper with imitation of climbing stairs) with a physiologically insignificant load on the joints of the limbs in a limited space, and this also reduces the number of appointments by specialists at an early stage of treatment.

3. Allows you to replace part of the equipment with the presence of a platform position limiter with regulation and a stroke height step of 1 mm, and this allows you to abandon the use of measuring correctors during the first and subsequent receptions by specialists in order to correct the existing difference in the lengths of the lower limb supports.

4. Allows you to conduct training walking without the use of orthopedic shoes, temporary or permanent corrector (insoles), during which (when using electromyography) or after which (when using a stabilometric platform and / or the Shcherbin-Piedalu test of thumbs), it is more accurate to establish and , respectively, to recommend the manufacture and use of a corrector under the foot, taking into account the change in the tone-strength balance of the muscles that took place during the training process.

5. Allows you to achieve a clinical result faster, due to the use of the effect of instability of each of the platforms and the possibility of asymmetry of their function under axial load, both the device and the steppers of all types also retain the synchronism of the movement of the supporting surfaces, which summarizes the advantages and invariance of diagnostic and load treatment regimens.

Claims (1)

A step-loading device with determining the height of the height difference in the lengths of the limbs, having two pairs of counter-moving platforms: the lower base and the support one - for the feet, connected pivotally on a horizontal axial cylinder, characterized in that the elastic travel of the support platforms is made with the possibility of asynchronous adjustment to the stops of the loaded stroke with locknuts, which are screwed into the protrusion of the lower bases to compensate for the difference in height of the limbs, with a scale for marking the stroke in millimeters; each of the pairs of platforms between them is spring-loaded with replaceable elastic elements with a metrologically predetermined compressibility - springs in removable cassettes; in the area of the rear sections of the supporting movable platforms, there are limiters for installing additional typesetting inserts.

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