RU2038103C1 - Method for exposing a living organism to a treatment - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exposing a living organism to laser radiation or alternating magnetic field. The alternating magnetic field is invoked by moving at least one magnetized member made of magnetically hard material. The members are manufactured in particular, from permanent rare-earth magnets. The members are moved in parallel or in perpendicular to the living organism surface changing velocity according to a predefined law. Infrared or visible laser radiation is supplied by means of an optical light conductor. EFFECT: provided exposure of a living organism to alternating magnetic fields of large amplitude; enhanced effectiveness in treating a wide variety of different kinds of illnesses and diseases. 19 cl, 1 dwg

Description

 The invention relates to magnetic therapy and is industrially applicable in the treatment of spinal osteochondrosis, bone and joint diseases, bone fractures, polyneuritis and neuritis of various origins, inflammatory gynecological diseases, hypertension, coronary heart disease, gastric ulcer, prolonged pneumonia, bronchial asthma , mastitis, kidney stone disease, poorly healing wounds, trophic ulcers, childhood scoliosis caused by radiation, infant cerebral paralysis, etc.

 A known method of exposure to a living organism, including exposure to an alternating magnetic field. The disadvantage of this method is the insufficiently high amplitude of the magnetic field induction (up to 0.03 T), the lack of frequency control of the alternating magnetic field and the absence of exposure to laser radiation.

 Closest to the proposed invention is a method of exposure to a living organism, including exposure to a constant magnetic field and infrared radiation.

 The disadvantages of the prototype are the lack of exposure to an alternating magnetic field and low magnetic field strength.

 The aim of the invention is to enable exposure to a living organism with an alternating magnetic field with a large amplitude.

 To do this, in the method of exposure to a living organism, including exposure to an electromagnetic field, exposure to an electromagnetic field is carried out by exposing the organs of a living organism to laser radiation and / or an alternating magnetic field, wherein an alternating magnetic field is created by moving at least one magnetized element from a hard magnetic material.

 You can move an element pre-magnetized to saturation.

 You can move at least two elements whose magnetization directions differ.

 It is possible to move elements uniformly installed along a given line, and the directions of magnetization of two neighboring elements differ by an angle of 2π k / N, where k is an integer, N is the number of magnetized elements of magnetically hard material.

 Elements can be moved along a straight line, along a circle, along a trajectory that encompasses an organ of a living organism or the whole organism as a whole, or near the surface of a living organism. In this case, the element can be moved by means of oscillatory motion along the normal to the surface of a living organism or relative to the normal to the surface of a living organism (along this surface).

 The speed of movement of an element can be changed according to a given law.

 Exposure to laser radiation can be carried out by infrared or visible radiation.

 An additional drug can be applied to the surface of a living organism.

 A mechanical effect can be additionally exerted on a living organism, for example, using a vibrating element.

 The living organism can be additionally influenced by a thermal effect, for example, by a stream of heated air.

 Comparison with the prototype shows that the invention meets the criterion of "novelty. Among the known solutions in the field of magnetic therapy, those that contain significant distinguishing features that distinguish the invention from the prototype, so the new solution meets the criterion of" inventive step ".

 Achieving this goal is due to the following. An alternating magnetic field is formed by moving compact permanent magnets based on rare earth elements. In this case, the amplitude of the magnetic field induction reaches 1 T, which is an order of magnitude higher than in the indicated analogue and prototype. To increase the amplitude and frequency of an alternating magnetic field, the spatial arrangement of the magnetic poles is alternated or changed from element to element. In particular, an alternating magnetic field can be created by rotating the permanent magnets using an electric motor, which, in particular, allows you to vary the frequency of the alternating magnetic field. Moreover, the amplitude of magnetic induction can be varied by changing the distance from the permanent magnets to the surface of a living organism. Infrared or visible laser radiation can be supplied using fiber optic fibers.

 The drawing shows a block diagram of a device that implements the proposed method.

 The device contains permanent magnets 1, mounted in a transparent sleeve 2, and a housing 3, on which an electric motor 5 is mounted using the fastening element 4. The sleeve 2 is mounted on the shaft 6 of the electric motor. The device also contains a fiber optic fiber 7, fixed inside the housing 3 using the element 8 of the fastening of the fiber. The electric motor 5 is mounted on the platform and connected to the power supply and control unit 10 of the electric motor. The fiber optic fiber 7 is optically coupled to a laser 11 provided with a system for introducing radiation into the fiber.

 Using an electric motor 5, the permanent magnets 1 are driven, which ensures the formation of an alternating magnetic field. Case 3 is brought into contact with the surface of a living organism, which provides exposure to it with an alternating magnetic field. The action of an alternating magnetic field is felt by the release of heat in the tissues of a living organism. Exposure to an alternating magnetic field can be supplemented by another effect (laser, vibration, thermal, external medication, etc.).

 Exposure to an alternating magnetic field leads to such therapeutic effects as anti-inflammatory, antispasmodic, decongestant, analgesic and stimulating tissue regeneration actions.

 Permanent magnets are made of cobalt alloy samarium in the form of disks of various sizes. An even number of such disks (at least four) are fixed in a circle made of Plexiglas, with the poles of the magnets alternating. The amplitude of magnetic induction on the surface of a living organism reaches 0.8 T. Using a multimode fiber from a neodymium solid-state laser, pulsed infrared (main harmonic) or visible (second harmonic) radiation is applied to the tissues of a living organism, which is ensured by using a transparent element at the end of the housing 3. Additionally, the frequency of the alternating magnetic field is increased, increasing the number of permanent magnets with alternating polarity. The vibration effect is provided by using an electromagnetic system with an anchor to which an element is attached at the end of the housing (this system is not shown in the drawing).

Claims (19)

 1. METHOD OF INFLUENCE ON A LIVING ORGANISM, including exposure to an electromagnetic field, characterized in that the exposure to an electromagnetic field is carried out by exposing the organs of a living organism to laser radiation and / or an alternating magnetic field, the alternating field being created by moving at least one magnetized element from a magnetically hard material.  2. The method according to claim 1, characterized in that they move the element, previously magnetized to saturation.  3. The method according to claims 1 and 2, characterized in that at least two elements are moved, the directions of magnetization of which differ.  4. The method according to claims 1 to 3, characterized in that the elements are moved uniformly installed along a given line, and the directions of magnetization of two neighboring elements differ by an angle of 2πk / N, where k is an integer, N is the number of magnetized elements of magnetically hard material.  5. The method according to PP. 1 to 4, characterized in that the elements move along a straight line.  6. The method according to PP. 1 to 4, characterized in that the elements move along a circle.  7. The method according to claims 1 to 4, characterized in that the element is moved along a trajectory covering the organ of a living organism or the whole organism.  8. The method according to PP. 1 to 4, characterized in that the element is moved near the surface of a living organism.  9. The method according to PP.1 to 4, characterized in that the element is moved by means of oscillatory motion.  10. The method according to claim 9, characterized in that the element is moved by reciprocating along the normal to the surface of a living organism.  11. The method according to claim 9, characterized in that the element is moved by means of oscillatory motion relative to the normal to the surface of a living organism.  12. The method according to PP.1 to 11, characterized in that the speed of movement of the element is changed according to a given law.  13. The method according to PP.1 to 12, characterized in that the exposure to laser radiation is carried out by infrared radiation.  14. The method according to PP.1 to 12, characterized in that the laser radiation is carried out by visible radiation.  15. The method according to PP.1 to 14, characterized in that the surface of a living organism additionally apply the drug.  16. The method according to PP.1 to 15, characterized in that the living organism additionally has a mechanical effect.  17. The method according to p. 16, characterized in that the mechanical effect on a living organism is exerted using a vibrating element.  18. The method according to PP.1 to 17, characterized in that the living organism additionally have a thermal effect.  19. The method according to p. 18, characterized in that the thermal effect is exerted by a stream of heated air.

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