RU2225234C2 - Method and for carrying out neuromuscular stimulation - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves applying electrostimulation in water when dipping human body or its part into water. Stimulation degree is control by the patient himself by varying distance between stimulator and body part under stimulation. The electrostimulator device is designed as portable instrument having sealed casing with metal plate electrodes on its opposite surfaces and has handle for holding it in hand by patient himself. EFFECT: enhanced effectiveness of treatment; high safety level. 3 cl, 4 dwg

Description

 The claimed group of inventions relates to the field of medicine, in particular to physiotherapeutic methods and means, and can be used to create means of preventive physiotherapy used at home.

 A well-known means of physiotherapeutic effects on the human body is neuromuscular electrical stimulation by exposure to the body by electric current using plate electrodes superimposed on the body [1]. In neuromuscular electrical stimulation (synonyms: electromyostimulation, galvanization or stimulation with low voltage and low frequency currents), electrodes are applied to the patient’s body area, most often metal plates with conductive electrolyte spacers facing the body surface, with which they are passed from the electric generator through the stimulated body area electric current with specified parameters.

 It is known that so-called hydroelectric baths are used in physiotherapeutic practice [2], which allow electrical stimulation of individual parts of the body. The stimulation method implemented in the indicated baths consists in supplying direct (galvanic) or pulsed current to the limbs immersed in water through the electrodes placed in the bath. In single-chamber bathtubs, the patient’s limb is immersed in a water bath containing one electrode, and the other (plate) electrode is applied to a portion of the patient’s body that is not immersed in water. In two-chamber hydroelectric baths, the patient's hands or feet are immersed in two water baths containing unlike electrodes that do not have direct contact with the human body.

 The specified method of electromyostimulation [2] is the closest to the claimed one and is selected as its prototype.

 The prototype method is that the limbs of the patient (arms or legs) are immersed in the corresponding two containers filled with water, each of which contains one metal electrode. The electrodes are connected to the opposite output poles of the stimulating current source. After the patient’s limbs are immersed in the indicated containers of water, a stimulating current is switched on, which flows from one pole of the current source to the other along a circuit formed by series connected: the first electrode, a layer of water in the first container, a part of the patient’s first limb immersed in water, stimulated by the patient’s body part immersed in water by a part of the second limb of the patient, a layer of water in the second container and the second electrode. The parameters of the stimulating current (current strength, frequency, pulse shape, etc.) are set depending on the goals of electrical stimulation: the achievement of the analgesic effect, tetanic muscle contractions, etc.

 The prototype method is a means of therapeutic or corrective physiotherapy, focused on work with limited muscle groups, and cannot be used as an effective means of electromassage of all muscle groups presented on the surface of the human body.

 The technical problem to which the invention is directed is the creation of a method of electrical stimulation as an electromassage physiotherapeutic procedure, devoid of this drawback.

 The essence of the proposed method of neuromuscular electrical stimulation is that the immersed in the water part of the human body is exposed to electric current through plate electrodes connected to the current source, separated by a dielectric layer and placed in water mainly mutually parallel in close proximity to the stimulated part of the body without direct mechanical contact with him.

 When implementing the method in the indicated set of signs, the lines of the electric current flowing between the plate electrodes are closed not only through the water into which the human body is immersed, but partially through its body. As a result, an electric current passes through a part of the human body immersed in water, which causes a stimulating effect.

 In the particular case of the implementation of the proposed method, the control of the amount of current flowing through a part of the human body immersed in water is performed according to the sensations of the subject being massaged by changing the distance between the body surface and the electrodes and / or the angular position of the electrodes relative to the surface of the stimulated body part. This makes it possible to adjust the stimulating effect only by changing the relative position of the electrode pair relative to the stimulated part of the body, which is extremely convenient.

The essence of the claimed group of inventions is illustrated by graphic materials, which depict:
figure 1 - picture of the streamlines created by the electrode pair in water near the immersed portion of the human body with a parallel arrangement of the planes of the electrodes to the surface of the human body;
FIG. 2 - the same, with the orthogonal arrangement of the planes of the electrodes to the surface of the human body;
figure 3 - design of the inventive electrical stimulator;
FIG. 4 - an example of the application of the inventive electrical stimulator to perform the procedure of neuromuscular stimulation in the bath.

 The inventive method (see figure 1) is as follows. In water 1 immerse the body or part of the human body. Close to the surface 2 of the body (skin) separating body tissue 3 and water 1, a pair of electrodes 4 and 5 are separated by a dielectric layer 6 and an electric current is passed through them from a stimulating current generator (not shown in FIG. 1). Since the electrodes 4 and 5 are separated by a dielectric layer 6 having an electrical conductivity close to zero, the electric current lines 7 flowing between the electrodes 4 and 5 are closed through water 1, the electrical conductivity of which is nonzero. In this case, part of the electric current lines 7 is closed through the tissues 3 of the human body. The electric current lines 7 that are closed through tissues 3 of the human body are the stimulating current that causes the effect of neuromuscular stimulation. The closer the electrodes 4 and 5 are to the surface 2 of the body, the greater part of the electric current lines 7 passes through the tissues 3 of the body, and, therefore, the stronger the effect of neuromuscular stimulation. Since the distribution pattern of the current lines 7 has circular symmetry relative to the normal to the surface of the electrodes 4 and 5, this relative orientation of the body surface 2 and the electrodes 4 and 5 corresponds to the case when the level of the stimulating current reaches its maximum value for the accepted distance between the body surface 2 and the electrodes 4 and 5.

 Changing the orientation of the electrodes 4 and 5 with respect to the surface 2 of the body leads to the fact that an ever smaller part of the total electric current flowing through the electrodes 4 and 5 is closed through the tissues 3 of the body. Figure 2 shows the case when the surfaces of the electrodes 4 and 5 are orthogonal to the surface 2 of the body. The shortest distance between the surface 2 of the body and the electrodes 4 and 5 is determined by the minimum length of the perimeter section of the electrodes 4 and 5. As a result, the level of the stimulating current reaches its minimum value for a given distance between the surface 2 of the body and the electrodes 4 and 5.

 Thus, by changing the distance between the surface 2 of the body and the electrodes 4 and 5 and / or the angular position of the electrodes 4 and 5 relative to the surface 2 of the stimulated part of the body, you can change the strength of the stimulating current flowing through the tissues 3 of the body, thereby regulating the level of stimulating effect. These actions are carried out by the patient on the basis of his feelings.

 The second object of the claimed group of inventions is a neuromuscular stimulator - a device that implements the inventive method.

 Circuit solutions of well-known electrical stimulators are very diverse, and their design by operational characteristics can be divided into two groups: stationary devices and portable. Stationary devices making up a larger group, as a rule, have great potential in terms of settings and adjustments of the stimulating current parameters, including computer-controlled electrical stimulators [2–9]. Such devices are used as means for physiotherapeutic procedures in special rooms under the supervision of a physician. The group of portable devices is less numerous. These devices suggest their use to perform electrical stimulation procedures either in parallel with the daily activities of a person or as a means of correcting his movements [10]. In connection with the indicated features of use in portable electric stimulators, as a rule, it is possible to set the initial parameters of the stimulating current, and there are no controls for changing these parameters during the operation of the stimulator. An exception is the electric stimulator [10], which is equipped with special sensors that are sensitive to human movements and control the temporal parameters of the stimulating current. Since the inventive electrical stimulator also belongs to the group of portable devices and has similar characteristics of controlling stimulating current parameters with the known electrical stimulator [10], the latter is selected as a prototype.

 The electrical stimulator prototype contains a housing, inside of which there is a stimulating current generator with an autonomous power source. The generator is connected to sensors located outside the body of the electric stimulator and sensitive to the angle of rotation of certain joints of the limbs of a person, and is also connected to elastic electrodes located outside the body of the electric stimulator. Electrodes and sensors are fixed on the patient's body with special cuffs.

 The work of the electrical stimulator prototype is as follows. When a person performs mechanical movements, for example, when walking, a turn occurs in the joints connecting the various parts of the human limbs. The rotation angles of these joints are fixed by sensors installed on the body, which form the corresponding signals supplied to the stimulating current generator. Depending on the set values of the indicated rotation angles of the joints, the stimulating current generator generates a current with the corresponding initially specified parameters. This current flows to the electrodes mounted on the human body in the immediate vicinity of those muscles that need to be stimulated to perform the required motor acts. From the electrodes through the skin, the stimulating current enters the selected muscle group and causes them to contract in accordance with the necessary stimulation mode.

 The disadvantage of the prototype device is that it cannot be used as a tool for physiotherapy massage procedures performed in water of all muscle groups presented on the surface of the human body.

 The invention consists in the following. Similar to the prototype of the inventive electrical stimulator contains a housing with a current generator located in it and plate output electrodes. Unlike the prototype, the body of the electric stimulator is sealed, made of dielectric material and equipped with a handle for holding it in the hand, and the output electrodes are placed on opposite surfaces of the body.

 Due to this combination of features, when an electric stimulator is operating in water, conditions are created under which electric current lines close in the area external to the output electrodes, and at the same time, by changing the distance between the patient’s body and the output electrodes and / or by changing the angular position of the electrodes relative to the body surface the possibility of independent adjustment by a person of a stimulating effect, despite the fact that any part of submerged parts of his body in water.

 The inventive electrical stimulator 8 (see figure 3) contains a sealed housing 9 made of dielectric material, inside which a stimulating current generator 10 is placed. The generator 10 is electrically connected with two metal plate electrodes 4 and 5, mounted on two opposite walls of the housing 9. The housing 9 is equipped with a handle 11 for holding the stimulator 8 in the hand by the user during the stimulation procedure.

 The stimulator 8 operates as follows. When turned on, the generator 10 begins to generate an electric current of a predetermined size and shape. In this case, the current can take any necessary shape, in particular, for physiological reasons, it is preferable to consider a sequence of amplitude-modulated pulses. Formed by the generator 10, an electric current is supplied to the electrodes 4 and 5 and through them enters the water 1 surrounding the electrical stimulator (see Fig. 1). Since the casing 9 of the stimulator 8 is made of dielectric, and the conductivity of the water 1 is nonzero, the water 1 surrounding the electric stimulator 8 is the electric current-conducting section through which the electric current circuit of the generator 10 is closed and in which the electric power developed by the generator 10 is released. When the electrostimulator 8 is located near the surface of a human body immersed in water (see Fig. 4), part of the streamlines passes not only through water, but also through body tissues. This is especially pronounced when the body is immersed in fresh water, when the electrical conductivity of body tissues is greater than the electrical conductivity of water. In this case, the current density in the lines that are closed through the body tissues is sufficient for the manifestation of the effects of muscle contraction, i.e. for effects of electrical stimulation. A person regulates the degree of manifestation of these effects (the level of electric current flowing through the body) by holding the pacemaker 8 in his hand by the handle 11 and removing or bringing the pacemaker 8 closer to the body surface or changing the orientation of the body 9 relative to the body surface.

For the purpose of experimental verification of the claimed group of inventions, a sample of an electric stimulator having the following design was manufactured and tested. The body of the electric stimulator is made of plastic. Stainless steel electrodes with an area of about 80 cm ^{2 are} installed on opposite sides of the casing. The stimulating current generator is configured to generate an amplitude-modulated pulse train of 0.5 ms duration with a repetition period of 10 ms. The modulation frequency was regulated within 0.3–2 Hz, the maximum pulse amplitude in idle mode was 30 V, and the internal resistance of the generator was of the order of 150 Ω.

 Tests of the stimulator sample, which were carried out in a freshwater pool on a large number of patients of different ages and different levels of physical fitness, confirmed the operability of the proposed method of neuromuscular electrical stimulation and implementing this method of electrical stimulator, as well as achieving this result. At the same time, a very high physiotherapeutic effect of neuromuscular electrical stimulation carried out in water was noted. All patients felt a significant increase in the tone of the muscle groups subjected to electrical stimulation, as well as the extremely positive psycho-emotional effect of the underwater electric massage procedure.

 Thus, the claimed group of inventions solves the technical problem of ensuring the possibility of using electrical stimulation as an electromassage physiotherapeutic procedure.

 An additional advantage of the claimed invention should be considered the integrated nature of the procedures. This is manifested in a combination of the effects of the water procedure on the human body associated with immersion of the whole body in water (bathing) and neuromuscular electrical stimulation. It is also important that neuromuscular stimulation can be performed under conditions of hydrostatic weightlessness of the human body, i.e. in conditions of almost completely relaxed muscles. This dramatically increases the physiological effectiveness of stimulation.

 Important features of the claimed inventions are also the complete exclusion of the danger of a person getting thermal skin burns, which usually accompanies traditional electrical stimulation using patch electrodes, and the danger of an overdose of electrical stimulating effects, which is ensured by effective feedback due to self-regulation by the person of the level of stimulating effect based on their feelings.

Sources of information
1. Electrical stimulation - new opportunities / M.Yu. Gerasimenko, EFilatova, NN Lazarenko // Conference "Biomedpribor - 2000".

 2. Handbook of physiotherapy. - M., 1976, p. 54-55 (prototype method).

 3. US patent 5922012, CL. A 61 N 1/04, A 61 N 1/32, 07/13/99.

 4. US patent 5961542, CL. A 61 N 1/36, 10/05/99.

 5. US patent 5974342, CL. A 61 N 1/36, 10.26.99.

 6. A.S. USSR 1678388, class A 61 N 1/36, 09/23/91, bull. 35.

 7. RF patent 2062125, cl. A 61 N 1/36, 06/20/96, bull. 17.

 8. RF patent 2121380, cl. A 61 N 1/36, 11/10/98, bull. 31.

 9. RF patent 2128529, cl. A 61 N 1/36, 04/10/99, bull. 10.

 10. Method and device for programmed muscle electrical stimulation during pathological walking / A.S. Vitenson, A.M. Burova // Conference "Biomedpribor - 2000" (prototype electric stimulator).

Claims (3)

1. The method of neuromuscular electrical stimulation, which consists in exposing an immersed part of the human body to water by electric current, characterized in that the electric current is applied through plate electrodes connected to a current source and separated by a dielectric layer, while the electrodes are immersed in water mainly mutually in parallel and place them in the immediate vicinity of the surface of the stimulated area of the body without direct mechanical contact with it. 2. The method according to claim 1, characterized in that the amount of current flowing through the part of the human body immersed in water is controlled according to the patient’s feelings by changing the distance between the body surface and the electrodes and / or the angular position of the electrodes relative to the surface of the stimulated body part. 3. An electrical stimulator comprising a housing, within which a current generator is placed, to which plate electrodes are connected, characterized in that the body is sealed from dielectric material and the plate electrodes are mounted on two opposite surfaces of the body, which is equipped with a handle.

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