RU2019210C1 - Curative dressing - Google Patents

Abstract

FIELD: medicine; physiotherapy. SUBSTANCE: permanent magnets in the form of truncated cone are staggered on flexible base with equal magnetic pole orientation in relation to the dressing surface. Copper rollers having semicircular section are located between the rows of the magnets. The roller section radius is equal to the magnet height, and the roller length is equal to the length of the magnet rows. The permanent magnets are made of ferrite so that the corresponding opposite sides of the lateral surface of each cone have opposite poles. The base may have heat insulation to reduce heat exchange with the environment in case of preceding heating or cooling of the dressing. EFFECT: higher rate of physiotherapy. 3 cl, 3 dwg

Description

 The invention relates to medical equipment, in particular to devices for local external therapy, allowing to combine complex physiotherapeutic factors for the purpose of prevention, therapy and medical rehabilitation.

 Medical multilayer compress dressings have long been known in clinical medicine as a type of distracting therapy. They are used to absorb local inflammatory processes on the skin, in the subcutaneous fatty tissue and underlying tissues.

 Currently, a sufficiently large number of medical treatment dressings have been developed that combine the effects of complex physical factors: heat or cold, electric or magnetic field.

 The common disadvantages of the known devices include the complexity of the design, the complexity of the manufacturing technology, a narrow range of physical factors used.

 The prototype of the invention selected therapeutic magnetic dressing, which contains an elastic base fixed to its working surface with permanent magnets in the form of protrusions of a conical shape.

 The disadvantages of the known design include a relatively low therapeutic effect due to exposure to only one physical factor - a constant magnetic field.

 The objective of the invention is the implementation of the combined effects of a magnetic field, metallotherapy and temperature on the human body through the skin and thereby provide an increase in the therapeutic effect and reduce treatment time.

 The problem is solved in that the medical dressing contains permanent magnets installed in the nests in the form of a single cartridge of elastic material, and the permanent magnets are made in the form of truncated cones protruding above the surface of the cartridge and located on the dressing in a checkerboard pattern with the same horizontal orientation relative to the surface of the dressing magnetic poles, between the rows of magnets there are copper rollers of a semicircular section, and the radius of the section of the rollers is equal to the height of the magnet above the surface, and the length of the rollers is equal to the length of the rows of magnets.

 Permanent magnets are made of ferrite so that the corresponding opposite sides of the side surface of each cone have opposite poles.

 Hypo-and hyperthermic effect of the medical dressing is achieved due to its preliminary heating or cooling.

 The choice of the effect of permanent magnets as a physical factor is due to the fact that the use of a constant magnetic field of small induction causes a pronounced disaggregation effect, i.e. improves rheological properties of blood due to degranulation of mast cells and intravascular discharge of heparin; reduces the degree of arteriovenous shunting, thereby increasing the volume of "nutritional" blood flow through the tissue; enhancing the reinfusion processes in microcirculation zones, it has a decongestant effect, normalizes the state of aggregation of extravasal tissue tissues and their properties as a diffuse environment for oxygen, and helps to restore the initial state of aggregation of energy systems of endoplasmic membrane enzymatic complexes; accelerates reparative processes in tissues, restores their functional properties.

 The choice of the shape of the magnets in the form of a truncated cone allows both magnetic and gentle acupressure effects on the skin, which allows you to expand the scope of the medical dressing, for example, use it in dermatology.

 The arrangement of permanent magnets in a checkerboard pattern with the same orientation of the magnetic poles in space allows to achieve the maximum increase in the surface of the skin exposed to exposure to a constant magnetic field.

 The use of ferrite magnets provides a significant depth (30-300 mm) of penetration of the magnetic field into the body.

 The presence of copper semicircular ridges in the design of the medical dressing allows partial correction of the microelement status of the organism and an increase in the therapeutic effect. It is known that copper is one of the most important trace elements necessary for human life. It is an indispensable component of many enzymes and proteins. With its deficiency, redox processes are disrupted in the body, as well as severe anemia. In this regard, the problem of copper deficiency is being put forward in clinical and preventive medicine. In addition, copper has a pronounced anti-inflammatory property, mitigates the manifestation of autoimmune diseases, such as rheumatoid arthritis.

 The location of the copper rollers between the rows of magnets and the equality of the length of the rollers of the length of a number of mangits enhances the microphoresis of copper ions in the body due to the fact that the acupressure effect of the conical surfaces in combination with a magnetic field improves peripheral circulation. The main route of penetration into the lumen of microvessels of fluid and microparticles runs through the expanded intercellular clefts. In addition, microvesicular transport of substances through the endothelium also occurs. Due to the fact that the radius of the copper rollers is equal to the height of the magnets, uniform pressure is provided (pressing along the entire surface of the dressing), which ensures its effectiveness and eliminates subjective unpleasant sensations.

 Preheating or cooling a dressing significantly expands its spectrum of action. A warm dressing causes a prolonged expansion of the skin and deep-lying blood vessels, which causes a rush of blood to this place, resorption of the inflammatory process and reduces pain.

 A cooled medical dressing causes local cooling and narrowing of blood vessels, reduces blood supply and pain with bruises and injuries.

Hot (50-60 ° ^C) Therapeutic bandage facilitates rapid resorption and inflammatory foci has analgesic effect. The stabilization of the temperature of the dressing is ensured by the presence of an additional heat-insulating outer layer.

 The total effect of all these physical factors can significantly increase the therapeutic effect and reduce the duration of treatment, that is, a result is achieved that cannot be achieved using each exposure factor separately.

 In FIG. 1 shows a bandage, general view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - layout of magnetic fields.

 The medical dressing contains permanent magnets 1 on the inner surface, made in the form of truncated cones having two opposite poles at their apex, and installed in the slots of a single cartridge 3 of elastic material. Between the rows of magnets there are copper rollers 3 of a semicircular cross-section, hollowed out in the slot 4 of the cartridge 2. A heat-insulating element 5 is glued to the outer surface of the cartridge, the dimensions of which coincide in width with the dimensions of cartridge 2 and exceed in length, forming free ends 6 provided with “sticky” "surfaces 7, allowing to fix the bandage on the human body.

 The device operates as follows.

If necessary cold exposure, the bandage should first put for 20-30 minutes in a refrigerator to cool 0 - (- 1) ^C. If necessary, additional heat exposure before use of the dressing was placed for 3 minutes in a hot oven (50-60 ° ^C).

 The medical dressing is fixed to the patient using the ends 6 so as not to impede blood circulation. In this case, contact is made with the skin of the tops of the truncated cones of magnets 1 and copper rollers 3. While wearing a medical dressing under the influence of a constant magnetic field and microphoresis of copper ions, tissue trophism, blood circulation improves, metabolism in the diseased body is restored, which leads to an early restoration of normal physiological the activity of a diseased organ.

After each use, wipe the dressing from the inside with alcohol or other disinfectants. The medical dressing can be made in any size, depending on the purpose. In a specific design, a treatment dressing with a size of 300 x 120 mm, permanent ferrite magnets of brand 16 BA 190 (2BA), magnetic induction B - 0.3 T, intensity N 190 kA / m ² , volumetric energy density W 8 kJ / m ^{3 were} tested . The diameter of the top of the truncated cone is 6 mm, the height is 4 mm, the magnetic induction on the surface is 40-50 mT.

 The rollers are made of electrotechnical copper grade MO or M 1 (with the amount of impurities 0.05-0.1%), a radius of 4 mm.

 The methodology of application and indications for the use of the claimed medical dressing corresponds to the generally accepted when using constant magnetic fields and compressors. Treatment is well tolerated by patients and is not accompanied by side effects. After the treatment, positive changes were noted not only in the diseased organ, but also in the improvement of the general condition of the patient.

 Thus, the proposed medical dressing provides a complex effect of several physical factors in the ranges of values allowed for use in medicine, reduces the duration of treatment and provides a high therapeutic effect. The device is easy to manufacture and convenient to operate, can be widely used in various fields of medicine: traumatology, dermatology, surgery, etc. The use of a medical dressing is possible both in stationary and at home.

Claims (3)

 1. A medical dressing containing an elastic base with permanent magnets fixed on its working surface in the form of cone-shaped protrusions, characterized in that the permanent magnets are made in the form of truncated cones arranged in rows in a checkerboard pattern with the same orientation of the poles of the magnets in space, and between the rows of magnets are copper semicircular rollers, the radius of the rollers being equal to the height of the truncated cone of the magnets, and the length of each roller is equal to the length of a series of magnets.  2. The bandage according to claim 1, characterized in that each truncated cone of the magnet has at its apex two opposite poles.  3. A bandage according to claims 1 and 2, characterized in that it is provided with a heat-insulating element covering the non-working side of the base made of a material that provides multiple heating and (or) cooling.

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