RU2201741C2 - Electromechanical stimulation device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has body, fixing members, removable active members designed as rollers having cross-section of hand palm edge shape commensurable with patient body areas under treatment and repeating their shape. The electrodes are not only point electrodes but also linear ones both curvilinear and rectilinear rod-shaped and flattened of various shape engageable with tissues by their planes and/or ribs and as bimetal structures. Several identical or different active electrodes form various figures. EFFECT: enhanced effectiveness of treatment; avoided local pain and burn actions upon skin. 4 cl, 6 dwg

Description

 The invention relates to medical equipment and can be used to treat the patient’s body with electricity and simultaneously mechanical pressure, including the type of Japanese shiatsu therapy, and for diagnosing the state of organs and tissues.

 A device is known by Yu.P. Bogach for combined exposure according to the patent of the Russian Federation 2012324, A 61 H 39/04, A 61 N 1/04, 05/15/94, containing a housing with cells evenly placed on it for removable finger-shaped acting elements equipped with point active electrodes. The cells are equipped with electrical contacts connecting the point active electrodes to an electric current source. This device provides a combined effect - mechanical - with finger-like elements of the Japanese Shiatsu therapy type and electric - with active point electrodes - on the group of points on the patient’s body configuration necessary for the therapeutic effect. Therapeutic effects on the patient's body with elements and electrodes of a different configuration are not provided by this device.

 Known diagnostic and treatment manipulator according to the patent of the Russian Federation 2082375, A 61 N 15/00, 39/00, A 61 N 1/04, 06/27/97, containing a housing with evenly placed cells on it for removable finger-shaped acting elements equipped with point active electrodes in contact with an electric current source. In addition, each of the finger-shaped elements is spring-loaded (provided with a spring) and is equipped with an immersion sensor in the form of a rod. This device carries out not only therapeutic combined electromechanical effects on the patient’s body, but also diagnoses the state of tissues by the asymmetry of electrical resistance at symmetrical points of the body and by the asymmetry of immersion in them of spring-loaded finger-shaped elements equipped with immersion sensors in the form of rods. Medical and diagnostic effects on the patient's body with elements and electrodes of a different configuration are not provided for by this device.

 Known electromechanical manipulator according to the patent of the Russian Federation 208623, A 61 N 23/00, 39/04, 10.08.97, comprising a housing, fixation elements, removable acting elements in the form of rollers with a cross section in the form of palm ribs, commensurate with body parts on which they act, and repeating their configuration, equipped with point active electrodes. This device carries out a mechanical effect on the patient’s body by the type of pressure with the palm edge (in Japanese shiatsu therapy) and simultaneously with electricity. Impacts on the patient's body with elements and electrodes of a different configuration by this device, taken as a prototype, are not provided.

 Point active electrodes, providing quite effective therapeutic effects, cause discomfort in a certain number of patients with hypersensitivity, up to pain from local mechanical pressure. In some patients with increased skin sensitivity, these electrodes cause point burns due to the high concentration of electric charges on the exposure area. In addition, point active electrodes cannot always be accurately directed to the skin projection of a particular nerve, vessel, muscle, or biologically active point.

 The aim of the invention is to increase the therapeutic effect of the electromechanical effects on the patient’s body with a more accurate, extended and varied effect on the patient’s body zones necessary for the therapeutic effect, while avoiding pain, discomfort and local skin burns.

 This goal is achieved by the fact that the electrodes located on the acting elements can be made not only point, but also linear - straight and curved - rod-shaped and flattened in various configurations, in contact with the tissues with their planes and (or) ribs. The acting elements can be made in the form of rollers with a cross section in the form of a palm edge, commensurate with the parts of the body on which they act, and repeating their configuration, or finger-shaped, including spring-loaded (equipped with springs) and equipped with immersion sensors in the form rods. The device casing is equipped with cells evenly placed on it for removable acting elements, and the cells are equipped with electrical contacts for active electrodes. The electrodes can also be made in the form of bimetallic compounds. A pair of metals, such as copper and zinc, are soldered with broken ends. The working ends of the bimetallic compound touch the patient’s body, which closes the electric circuit. In this case, the electrodes of this circuit act on the patient's tissues, stimulating them. Electrodes in the form of bimetallic compounds are not connected to an electric current source, since they themselves form it.

 In the drawings illustrating the invention, shows an electromechanical stimulator with finger-shaped acting elements, General view - figure 1; the body of the electromechanical stimulator in the context of the spring-loaded finger-shaped acting elements - figure 2; an electromechanical stimulator with acting elements in the form of rollers with a cross section in the form of a rib of the palm, general view - figure 3; acting elements in the form of rollers with active electrodes of various combinations and configurations - figure 4; finger-shaped acting elements, top view, with active electrodes of various combinations and configurations - figure 3; finger-shaped actuating elements and actuating elements in the form of rollers in section with active electrodes in the form of bimetallic compounds of various configurations - FIG. 6.

 On the housing 1, equipped with a handle 2 and connected by a wire 3 with a source of electric current, cells 4 for removable finger-shaped acting elements 5 and acting elements in the form of rollers with a cross section in the form of a palm edge 6 are evenly located.

 The electrodes on the acting elements can be made of point - 7, combined point with curved - "point-ring" - 8, point combination with straight-line - "point-dash" - 9, point combination with linear - "point-zigzag" - 10, combined linear - "longitudinally-transverse" - 11, combined combined with linear - "point-diamond-shaped" - 12, flattened sawtooth - 13, linear dashed - 14, linear triangular - 15, combined combined with linear - "point in square adrata "- 16, linear combined with curvilinear -" stroke with spring loops "- 17, linear combined -" cross "- 18, point combined with linear -" point between strokes "- 19, in the form of bimetallic compounds:" two squares " - 20, "crown" - 21, point - 22, ring - 23, "ring with spikes" - 24.

 Finger-shaped actuating elements can be provided with springs 25 (to be spring-loaded) and immersion sensors in the form of rods 26 for diagnostic purposes.

 The non-working surfaces of the acting elements in the form of rollers 6 are provided with rod-shaped clamps (not shown) included in the cells 4 (not shown in FIG. 3) of the housing 1 in FIG. 3.

 Flattened electrodes can touch the patient’s body with both their ribs (13, 21, 22, 23, 24) and their planes (20), depending on the tasks of electromechanical stimulation.

 The work of the proposed electromechanical stimulator can be demonstrated by the following examples.

 Example 1. Therapeutic electromechanical effect on the tissue with myositis of the back muscles in the region of the right scapula, Fig 1.

 Finger-shaped acting elements 5 are arranged in the form of a lattice. The acting elements equipped with point active electrodes alternate with elements equipped with point active electrodes combined with curved "point-ring" electrodes. The patient holds a passive electrode in his hand (not shown), and the medic, holding on to handle 2, presses case 1 against the patient's body in the area of myositis. In this case, the patient should feel pressure, but not pain. With a potentiometer (not shown), the physician adjusts the amperage so that the patient feels a slight burning sensation, but not pain. A session lasts a certain time, for example 45 s. In this case, a mechanical effect on the tissues with finger-shaped acting elements, similar to the Japanese Shiatsu therapy, occurs: they are atraumatically and painlessly submerged deep into the soft tissues, approaching the vessels, nerves and muscles of the active electrodes that have an electrical effect on them. In this case, the electric charges emanating from the point active electrodes penetrate more deeply, and the charges emanating from the ring-shaped active electrodes extend more broadly. The combined effect of both types of electrodes enhances the therapeutic effect, removing inflammatory phenomena in cells, dilating blood vessels, relaxing spasmodic muscles, increasing the conductivity of nerve fibers and stopping pain. The course of treatment consists of a certain number of sessions per day, for example three, and a certain number of sessions per treatment course, for example fifteen.

 Example 2. The therapeutic and diagnostic effect on the cervical spine with osteochondrosis of the cervical spine with vertebrobasilar insufficiency.

 In cells 4 of building 1, spring-loaded finger-shaped electrodes are arranged in two parallel rows (Fig. 2), equipped with combined “dot-ring” electrodes 8 and immersion sensors in the form of rods 26. The patient holds a passive electrode in his hands, and the medic, holding on to handle 2, presses the housing 1 of the device in the region of the cervical spine so that the finger-shaped acting elements are symmetrically on both sides of the spine. In places of spasm of the vertebral muscles, spring-loaded finger-shaped electrodes are immersed in the soft tissues to a lesser depth than in places where there is no spasm. This shows the immersion sensor standing a certain distance above the rest of the sensors. In addition, in places of spasm of the vertebral muscles, the tissue electrical resistance is an order of magnitude higher, which is shown by an ammeter (the current strength on it decreases accordingly). Guided by a change in the patient's subjective sensations (reduction of pain, discomfort and increased mobility of the head) and objective diagnostic data (normalization of the electrical resistance of the vertebral tissues and the immersion depth of spring-loaded finger-shaped elements), the physician conducts a certain number of treatment sessions (for example, twelve) and places muscle spasm current necessary strength and voltage (for example, from 60 to 600 μA, 9-12 V). The combined action of point and ring electrodes allows you to direct the electric current to the required depth and around the acting elements.

 Example 3. Therapeutic effect on the lumbar spine with its osteochondrosis and lumbosacral radiculitis.

 The acting elements in the form of two rollers with a cross section in the form of the edges of the palm 6, made in the form of straight rods equipped with active electrodes "dot-dash" 9, are parallel to each other (Fig. 3). The patient holds a passive electrode in his hand (not shown), and the medic, holding the handle 2, presses the body 1 in the region of the lumbar spine so that the acting elements 6 are located symmetrically on both sides of the spine and the patient feels pressure, but not pain. The physician adjusts the strength of the current with a potentiometer so that the patient feels a slight burning sensation ("mosquito bite"), but not pain. A session lasts a certain time, for example, 4 times for 25 s with breaks of 20 s. The course of treatment consists of a certain number of sessions, for example 12. When immersed in soft tissue, the acting elements in the form of rollers atraumatically and painlessly push them apart, bringing active electrodes closer to the vessels, nerves, muscles and vertebrae. Due to the fact that the active electrodes are combined, they supply electrical charges to the tissue with their entire area in depth and in breadth. In this case, the blood vessels expand and the spasmodic muscles that hold the vertebrae in a relaxed position relax, the conduction of nerve fibers increases and pain is relieved.

 Example 4. Stimulation of tissues and excretory ducts of the prostate in chronic prostatitis.

 Finger-shaped acting elements equipped with bimetallic active electrodes 20, 21, 22, 23, 24 (Fig. 6) are arranged in three rows of five. The handle 2 is unscrewed from the body 1, and the medic strengthens it in the patient’s crotch area below the scrotum, for example, with an adhesive plaster so that the acting elements are located symmetrically with respect to the ureter and plunge into the soft tissues in the comfort zone (the patient feels pressure, but not pain) . Submerged finger-shaped acting elements bring bimetallic active electrodes closer to the prostate gland. The skin closes an electrical circuit between two metals that stimulate tissue with a weak electric current. Bimetallic compounds in the form of “two squares” 20 stimulate the surface tissues in breadth by contacting them with their planes, compounds in the form of a “crown” 21 stimulate the tissues more deeply undulating due to the presence of a ring and teeth on it, point compounds 22 stimulate the tissues with narrow directed beams inward, ring-shaped compounds 23 stimulate tissue deeply around the circumference; ring-spike compounds 24 stimulate tissue deeply circumferentially in a zigzag fashion. The combination of a variety of electrical and mechanical effects on the tissue helps to relax the smooth muscles of the excretory ducts of the prostate gland and free it from stagnant contents, relieve inflammation in its cells and tissues, stimulate glandular cells and produce normal prostatic juice in them. The occurrence of weak and soft currents between bimetallic compounds makes it possible to have a long-term effect on tissues, for example, 25 minutes, during one session. The course of treatment is a certain number of sessions, for example 30.

 Example 5. Therapeutic effects on the mammary gland with mastopathy.

 On the acting element in the form of a roller with a cross section in the form of a palm edge, made ring-shaped (not shown), active electrodes from bimetallic compounds 20, 21, 22, 23, 24 are located around it. The impacts, their mechanism and duration are similar to Example 5.

 Example 6. Therapeutic effects on the knee joint with its arthritis.

 On the acting element in the form of a roller with a cross section in the form of a palm edge, made ring-shaped (not shown), active "point-diamond-shaped" electrodes 12 are located around its circumference. The patient holds a passive electrode in his hand (not shown), and the medic, holding on to the handle 2, presses the body 1 against the knee joint so that the acting element surrounds its cup and presses on the tissues in the comfort zone (the patient feels pressure, but not pain). By adjusting the strength of the current with a potentiometer (for example, from 60 to 600 μA) in the comfort zone (the patient feels a slight burning sensation, but not a pain - a “mosquito bite”), the physician performs mechanical and electrical effects on the knee joint for a certain time, for example, 2 times for 45 s with a break of 20 s. The course of treatment consists of a certain number of sessions, for example 20. The combined effect of electrodes of various shapes allows charged particles to penetrate in all directions and in all parts of the joint. In this case, articular surfaces and cells that produce joint fluid, periarticular and intraarticular ligaments, articular bag and muscles are stimulated.

 In necessary cases, active electrodes of a different form are used, for example, flattened sawtooth electrodes 13 for electromechanical stimulation of tissues in the projection area of the fallopian tubes during their atony with functional infertility; electrodes in the form of a "stroke with spring loops" 17 - for electromechanical stimulation of the skin and tissues in the area of increased wrinkle formation, for example, under the eyes, etc.

Claims (5)

 1. Electromechanical stimulator, comprising a housing, fixation elements, removable acting elements in the form of rollers with a cross section in the form of a rib of the palm, commensurate with the parts of the body that they act on, and repeating their configuration, equipped with point active electrodes, characterized in that they are removable acting elements are supplemented by finger-shaped acting elements, including spring-loaded ones equipped with immersion sensors in the form of rods.  2. The electromechanical stimulator according to claim 1, characterized in that the point active electrodes are supplemented by linear active electrodes - curvilinear and rectilinear - rod-shaped and flattened in various configurations, in contact with the tissues with their planes and (or) ribs.  3. The electromechanical stimulator according to claim 1, characterized in that several identical or different active electrodes can form different shapes.  4. The electromechanical stimulator according to claim 1, characterized in that cells for removable acting elements are evenly placed on the housing, the cells being provided with electrical contacts for active electrodes.  5. Electromechanical stimulator according to claims 1 to 4, characterized in that the active electrodes can be made in the form of bimetallic compounds.

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