RU2547611C1 - Method for assessing rehabilitation outcome in patients suffering from haemorrhagic stroke consequences or amputation stumps of lower extremities following prosthetic repair - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: patient's body weight is measured; for this purpose, he/she stands on two scales simultaneously with one foot standing on each one of the scales. That is followed by measuring a difference between the right and left foot. If there is no difference, the outcome is considered to be excellent; if the difference is from 1% to 5%, the outcome is considered to be good; the difference falling within the range of 6% to 10% shows the satisfactory outcome, whereas the difference of more than 10% provides stating the unsatisfactory outcome.

EFFECT: method enables increasing the accuracy of determining individual's body weight distribution on the bearing surface by the instrumental measurement of the difference of the left and right foot.

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Description

The invention relates to medicine, in particular to rehabilitation, and can be used for a comprehensive assessment of the results of rehabilitation measures in patients with the consequences of hemorrhagic stroke or with amputation stumps of the lower extremities after prosthetics, as well as their monitoring.

The effectiveness of rehabilitation measures for stroke patients during the recovery period or with amputation stumps of the lower extremities after prosthetics depends on how we managed to bring their statodynamics closer to its normal values. One of the most important criteria characterizing statodynamics is the uniform distribution of a person’s body mass on the plantar surfaces of the feet. Thus, the development of a method for determining the distribution of human mass on the plantar surface of the feet in patients with statodynamic disorders is, of course, relevant.

There is a method of measuring the distribution of human body weight on the supporting surfaces (zones) of the feet, hands, seat to diagnose (study) disorders of the musculoskeletal system, reduce muscle tone, violate vertical stability using a device for weighing and distribution of human body weight on the supporting surfaces ( zones) [5].

The device operates as follows. A paper with a coordinate grid is superimposed on the loading platform of the device, on top of which carbon paper is superimposed. The patient is placed on top of the carbon paper. At the contact points of the foot with the lifting platform, the copy paper is pressed against the coordinate paper and leaves a mark. The patient's body weight is distributed between the weight sensors, which bend in proportion to the load. When the spiral calibration spring is deflected, the piston with the movable cylindrical electrode shifts upward relative to the stationary cylindrical electrode. As a result, the generator feedback capacitance increases, and the generator frequency decreases. Another installation of the cylinders is possible when, when the spring is compressed, the movable cylinder will leave the stationary cylinder and the oscillation frequency of the generator will increase. Triggers convert nonlinear oscillations of generators into rectangular oscillations and transfer them to the registers with serial inputs, which are controlled by time-calibrated pulses, and record the number of pulses proportional to the frequency of the incoming signal, which is read from their outputs at the end of the pulse, and zeros are set. The multiplexer alternately reads the received information and enters it into a digital computing device, where the center of gravity is calculated according to the readings of the sensors, and its coordinates are displayed on a display or monitor. The operator applies the obtained coordinates to the coordination paper of the patient. Thus, we get a document in the form of a footprint indicating the coordinates of the center of gravity and weight.

To automatically receive a document, a device is used, equipped with a position sensor of the supporting surfaces of the human body in the form of a color text scanner located under a strong glass load-lifting platform. When loading a load-lifting area by a person under study, the supports bend, and the distance between the dielectric bushings decreases. The electrodes of the capacitive sensor approach. As a result, the frequency of the generator changes. It is possible to use a capacitive displacement sensor in the form of a concave plate folded in half and one flat plate. Such a sensor has a larger capacity due to a doubled moving surface. Such a device works in combination with a PC, on the monitor of which we get a color image of the feet of the person being examined with the coordinates of the center of gravity and weight of the person being examined. Data processing is carried out, as in the first case, but the data is displayed on the monitor on the image of the feet of the patient received on the scanner. In addition, this device allows you to determine the distribution of weight on other supporting surfaces of the human body, such as the hands and seat.

The disadvantages of this method are the high cost, technical complexity, cumbersome and not the mobility of the device necessary for determining the distribution of the mass of a person on the plantar surface of the feet, which makes its widespread use.

A known system for the diagnosis of musculoskeletal functions of a person [4]. The diagnostic system works with the help of a device that includes, among other things, a display device, pressure sensors under the right and left stops, filter blocks, blocks for generating true pressure values under the right and left stops, respectively.

The system operates as follows. Before the study, matrix measuring elements are inserted into the patient’s shoes, made in the form of insoles with strain gauges for measuring pressure.

The patient is invited to perform a series of locomotor acts, such as a walk. The number of steps may vary. 6-15 steps are recommended (left-right leg). Sensors and perceive pressure under the feet of the patient, producing a proportional analog signal. Next, the signal enters the filter block, where the interference components are removed from this signal, then the signal enters the BFIZD blocks, where the analog signal is converted by normalizing it into a signal corresponding to the true value of the pressure in the sensors at the time of reading information from them. The signal corresponding to the true pressure value is fed to one of the inputs of the subtraction units, in which the pressure values corresponding to the degree of the initial preloaded pressure sensors (insoles) are deducted from it without the patient weighing them, generated and stored in the blocks (for the left and right legs) in a sitting position, removing his legs from the support). As a result, the true value of the pressure force of the plantar surfaces of the patient's feet on the surface is obtained.

The disadvantages of this method are the high cost, technical complexity, cumbersome and not the mobility of the device necessary for determining the distribution of the mass of a person on the plantar surface of the feet, which makes its widespread use.

The well-known "Method for determining the pressure of the foot on the support" [3]. The method consists in installing the foot on a support made in the form of a primary measuring transducer (PIP). PIP is made of transparent elastic rubber. Dark stripes of constant width are applied on the supporting surface for measuring pressure. The registration of the deformation value of the primary measuring transducer by the foot is carried out by reflecting the light beam from the deformed primary measuring transducer and simultaneously fixing the values of the pressure analogs with the subsequent calculation of its actual values by the moiré strip method.

The disadvantages of this method are the technical complexity, the complexity of the implementation and not the mobility of the device necessary for determining the distribution of the mass of a person on the plantar surfaces of the feet, which makes it difficult to widely use it.

A known method of measuring pressure on a supporting surface using a device for measuring pressure on a supporting surface [2].

The device is made in the form of an insole with through holes throughout the surface. The device is equipped with sensors consisting of a conductive material of the shell and plates. The conductive material is encased in an elastic material. Sensor plates are made of spring steel. The sensors are made in the form of truncated cones.

The disadvantage of this method is the technical complexity of the device required to determine the distribution of human mass on the plantar surface of the feet, which makes it difficult for its widespread use.

As a prototype, we have chosen a method for determining a person’s body mass using electronic floor scales [1]. The device operates as follows. First, one leg is set on the included scales - indexing is turned on. Then the person stands on the scales with two legs and stands calmly for several seconds, the values of the total pressure of the person’s mass with the plantar surfaces of the feet on the weighing surface of the scales appear on the indicator.

The disadvantages of this method is the inability to determine how the pressure of the mass of a person is distributed between the plantar surfaces of the feet on the plane on which he stands.

The objective of the technical solution is to develop a method for determining the distribution of human mass on the plantar surface of the feet. The problem is solved due to the fact that we have developed a method for determining the distribution of human mass on the plantar surface of the feet.

In the proposed method for determining the distribution of a person’s mass on the plantar surface of the feet, the following differences from existing ones are provided, namely: the measurement of the person’s mass is carried out simultaneously on two scales, on each of which he stands with one foot.

Between the set of essential features of the claimed object and the achieved technical result there is a causal relationship that can be demonstrated in clinical example 1.

Clinical example 1.

Patient K., 54 years old, is undergoing outpatient treatment at the rehabilitation department of the Regional Center for the Rehabilitation of Disabled People in January 2013 with a diagnosis of Hemorrhagic stroke in the left middle cerebral artery basin from 12/23/2012. Early recovery period. Right-sided mild spastic hemiparesis to moderate in the foot. Light motor dysphasia. Stage II dyscirculatory encephalopathy. Slight cognitive decline. Cerebral atherosclerosis. Hypertension stage III. Arterial hypertension of the III degree. H _II .

Before the start of rehabilitation measures. Patient weight 82 kg. The mass of pressure of the left foot on the scales is 56 kg, and the right - 26 kg.

6 months after the start of rehabilitation measures. The patient's weight is 81 kg. The mass of pressure of the left foot on the scales is 41 kg, and the right - 40 kg.

The results of the distribution of human mass on the plantar surface of the feet are regarded by us in this patient after carrying out rehabilitation measures as good.

Our proposed “Method for determining the distribution of human mass on the plantar surface of the feet” allows us to more objectively evaluate the results of rehabilitation in patients with the consequences of hemorrhagic stroke or with amputation stumps of the lower extremities after prosthetics and conduct comparative monitoring.

We propose a "Method for determining the distribution of human mass on the plantar surface of the feet", which consists in the fact that two identical electronic floor scales are placed next to each other on a horizontal flat surface. Then the examinee stands with each foot on separate scales and stands quietly for several seconds, the indicators show the values of the total pressure of the person’s mass with the plantar surfaces of the feet on the weighing surface of the scales. The received values are fixed.

We regard the results in kg on the following scale:

- There is no difference between the values of the indicators - an excellent result.

- The difference between the values of indicators from 0 to 5% is a good result.

- The difference between the values of indicators from 6% to 10% is a satisfactory result.

- The difference between the values of indicators of more than 10% is an unsatisfactory result.

We developed the "Method for determining the distribution of human mass on the plantar surface of the feet" was tested by us for a year on 35 patients.

The technical and economic efficiency of the proposed “Method for determining the distribution of human mass on the plantar surface of the feet” is due to a more objective assessment of the results of rehabilitation measures, as well as the ability to reasonably carry out their timely correction, which, of course, leads to improved rehabilitation results.

Information sources

1. Floor scales Polaris PWS 1832DG Orchid [Electronic resource] // Website polar.ru. - POLARIS [2006-2013] - Access mode: http://www.polar.ru/catalog/scales/polaris-pws-1832dg-orchid/ free. - Zagl. from the screen. (December 11, 2013).

2. Pat. 1701255 of the USSR. Device for measuring pressure on a supporting surface. / Alexandrov S.P., Parshina O.V., Pogosyan G.A. - applicants, patent holder of the All-Union Correspondence Institute of Textile and Light Industry; declared 05/16/1989; publ. 12/30/1991.

3. Pat. 1743557 USSR. A method for determining foot pressure on a support. / Alexandrov S.P., Parshina O.V., Sukharev I.P. - applicants, patent holder of the All-Union Correspondence Institute of Textile and Light Industry; declared 07/27/1989; publ. 06/30/1992.

4. Pat. 2116046 Russian Federation. Diagnostic system of the musculoskeletal function of a person. / Smirnova L.M., Klimov V.A., Mashinistova O.Yu., Kalinina L.N., Mulenkov B.A., Termosesov A.M., Chetverikov E.N. - applicants, patent holders Smirnova L.M., Klimov V.A., Mashinistova O.Yu., Kalinina L.N., Mulenkov B.A., Thermoses A.M., Chetverikov E.N .; declared 12/04/1996; publ. 07/27/1998.

5. Pat. 2247337 Russian Federation. A device for weighing and distributing a person’s body weight over supporting surfaces (zones). / Lebedenko I.S., Lebedenko Yu.I., Lukashin A.Yu. - applicants, patent holder, Tula State University; declared 07/14/2003; publ. 02/27/2005.

Claims (1)

A method for evaluating the results of rehabilitation measures in patients with the consequences of a hemorrhagic stroke or amputation stumps of the lower extremities after prosthetics, including determining the distribution of the patient’s mass on the plantar surface of the feet, characterized in that the patient’s weight is measured, for which he becomes simultaneously on two weights, each of which he stands with one foot, then they calculate the difference between the values of the right and left feet and, in the absence of a difference, evaluate the result as excellent, with a difference between the values of indicators from 1% to 5% - as a good result, with a difference between the values of indicators from 6% to 10% - as a satisfactory result and with a difference between the values of indicators more than 10% - as an unsatisfactory result.