RU2126278C1 - Method and device for pulse magnetic induction - Google Patents

Abstract

FIELD: inducing electromagnetic field inside and around cells in human body, in particular, for therapeutic curing of malignant tumors. SUBSTANCE: power feeder of device is connected to unit for measuring and regulation of power to be fed. Power feeder is located with respect to treated object. Unit for measuring and regulation of power is designed as plasma generator and sets frequency and power of magnetic flow, so that plasma of specific content generates characteristic radio frequency which is resonant to treated object. EFFECT: elimination of side-effects. 24 cl, 3 dwg

Description

 The invention relates to the field of processing biological objects by electromagnetic fields and can be used in the therapeutic treatment of malignant neoplasms.

 It has been established that the cells of the human body have an electric potential that excites potassium - the sodium activity of the cell, which in turn regulates the concentration of ions in the cell and the magnitude of the transmembrane potential. Young and healthy cells of the human body have a transmembrane potential of about 70 mV, the transmembrane potential of old and diseased cells is about 50 mV, and the transmembrane potential of malignant cells is about 15 mV. The cell membrane can withstand external electromagnetic fields with a strength of the order of 1,000,000 V / m. Only external electromagnetic fields with no less intensity can change the transmembrane potential of the cell and affect the state of human health. However, such electromagnetic fields cause a breakdown of atmospheric air, which makes such a method of treatment practically impossible.

 A device for pulsed magnetic induction (DE, patent 4036770, A 61 N 2/02, 1991), comprising means for supplying electrical energy, means for measuring and regulating the input electric energy, configured to control the frequency and amplitude of the magnetic flux, as well as means the supply of energy to the target, made with the possibility of movement relative to the target. When implementing the known device, means for supplying energy are placed near the object of influence and a magnetic field, adjustable in frequency and amplitude, is supplied to the object. A disadvantage of the known technical effects should recognize the low characteristics of the used electromagnetic field.

 The technical problem to which the present invention is directed, is to develop an industrially applicable safe way of influencing the electromagnetic field on the human body.

 The technical result obtained by the implementation of the invention is to provide the possibility of therapeutic treatment of malignant neoplasms using electromagnetic fields.

 The invention is illustrated in graphic material, where in FIG. 1 shows the design of a device for creating pulsed magnetic induction, in FIG. 2 shows an oscillogram corresponding to oscillations; in FIG. Figure 3 shows an enlarged waveform corresponding to oscillations with a characteristic natural frequency in the radio range.

 In FIG. 1 shows a preferred embodiment of the device. The device, generally indicated at 10, contains an electric energy receiver 12 for receiving electric energy with a voltage of 220 V and a frequency of 50/60 Hz and supplying this electric energy to an electric switch 14 with a clock mechanism determining the period of operation of the device 10. Switch 14 supplies electric energy through a high-voltage transformer 16 with a variable transformation coefficient to a rectifier 18, which converts a standard alternating electric current into a low-frequency pulse current with direct the pulse waveform at a frequency of several hertz. The pulsed electric current through the wires 20 and 22 enters the capacitive battery 24 containing a pair of electrodes 26 and 28, and the capacitive battery 24 is capable of not only storing a high voltage charge, but also instantly discharging. When the capacitive battery 24 is fully charged, the rectangular pulses of electric current supplied to the electrode 26 of the capacitive battery are supplied via wire 30 to the anode 32 of the plasma chamber 34. The plasma chamber 34 contains a pair of hemispherical electrodes — anode 32 and cathode 36, each of which contains a central probe 38 and 40. The gap between the anode probe 38 and the anode 32 and the cathode probe 40 and the cathode 36 can be adjusted by appropriate means, such as a crank handle 42, which drives the rail 44 and gear 46 for and changes in the position of the cathode 36 and probe 40. Atmospheric air and gas, in particular nitrogen, argon, etc., is supplied to the plasma chamber 34 from one or more sources 48 through an inlet filter 50 and is discharged from the plasma chamber 34 through an outlet 52 In the plasma chamber 34, a viewing window 54 is provided, allowing the operator to observe the nature of the plasma. The cathode 36 of the plasma chamber 34 is connected via a flexible high-voltage bus 6 to the terminal 58 of the junction box 60. The second contact 62 of the junction box 60 is connected via a wire 64 to the electrode 28 of the capacitive battery 24. The induction probe shown collectively at 66 includes an inductor 68 closing through contacts 58 and 62 of the junction box 60, the coil preferably having a diameter of 30 mm and consists of about 2 to 10 turns of copper wire having a cross-sectional area at least 6 sq. km mm, in order to provide thus high intensities of current energy of more than 1000 A and voltage. An inductor 68 is inserted inside a highly insulating toroid 70 made of a suitable material, such as silicone, Teflon, etc. As follows from FIG. 1, the induction probe 66 has an end portion 72 that includes conductors 74 connecting the induction coil 68 to a junction box 60 inserted in a case 76 made of the same material as the toroid 70. The tail portion 72 serves to carry out adjustable positioning of the induction coil 68 relative to the patient, indicated by 78. For testing or calibration, the oscilloscope 80 is connected through the electrodes 58 and 62 of the junction box 60 to provide visual and dikatsii electrical signal supplied to the inductive probe 66 and thereby to the patient 78.

 During operation of the device, the induction probe 66 is positioned so as to overlap the desired portion of the patient’s body 78, the gear 44 is rotated by the crank 42 to move the rod 46 in order to provide the desired gap between the electrodes 32 and 36 to initiate plasma ionization in the plasma chamber 34 The exhaust fan 52 is turned on and the aforementioned gases are transferred to the plasma chamber 34 from the gas source 48. The corresponding transformation ratio for the transformer 16 is set and brought action switch 12 with a clockwork mechanism. By controlling the process through the viewing window 54, the operator monitors the operating conditions of the device 10 and, if necessary, change the distance between the electrodes 32 and 36 of the plasma chamber 34. The connected oscilloscope 80 shows that the sinusoidal curve 82, illustrating the oscillations of the circuit, consisting of inductive resistance and capacitance, has bursts 84, appearing at the positive and negative maxima of the sinusoidal curve 82, caused by the natural vibrations of the gases used, which have characteristic frequencies. These bursts of energy are mostly instantaneous in nature, and their duration cannot ionize atmospheric air. The energy entering the cell is selectively absorbed into the subject by the elements of the cell that are involved in resonance.

 The given embodiment of the invention is not the only possible embodiment of it.

Claims (24)

 1. A device for pulsed magnetic induction containing a means for supplying energy, connected to a means for measuring and regulating the input energy, and means for supplying energy to an object of influence, characterized in that the means for measuring and regulating energy is made in the form of means for forming a plasma.  2. The device according to p. 1, characterized in that the means for the formation of plasma includes a plasma chamber installed in it with the possibility of mutual movement of a pair of electrodes.  3. The device according to claim 1, characterized in that the means for supplying energy to the target contains an induction probe.  4. The device according to claim 3, characterized in that the induction probe is configured to provide high intensity power of magnetic pulses.  5. The device according to claim 3, characterized in that the induction probe comprises an inductor made of at least one coil of wire made of materials with high electrical conductivity, such as copper, gold, silver or platinum, while the diameter of the wire is selected with the possibility current pass not less than 1000 A.  6. The device according to claim 3, characterized in that the diameter of the coil is less than 1 m  7. The device according to claim 1, characterized in that the inductor is enclosed inside a protective casing made of dielectric material.  8. The device according to claim 3, characterized in that the induction probe has a tail portion that is movable relative to the object of influence.  9. The device according to claim 1, characterized in that the means for supplying energy to the target is made in such a way that the instantaneous value of the amplitude of the energy of the high-frequency output pulses exceeds the amplitude of the potential energy in the supply circuit.  10. The device according to claim 1, characterized in that the gas source, supplied to the plasma forming means, is configured to supply atmospheric air.  11. The device according to claim 1, characterized in that the means for supplying energy contains a capacitive storage battery.  12. The device according to claim 11, characterized in that the capacitive storage battery is configured to instantly discharge high voltage.  13. The device according to claim 1, characterized in that it further comprises a means of visual control of the formation of plasma.  14. The device according to claim 1, characterized in that the plasma regeneration means is configured to generate plasma at frequencies capable of changing the transmembrane potential of the cells.  15. The device according to claim 1, characterized in that the plasma regeneration means is configured to generate plasma at frequencies, to disintegrate microorganisms in an object of influence or destruction of degenerate cells.  16. The device according to claim 1, characterized in that the plasma generating means is configured to generate plasma at the frequencies of pasteurization or sterilization of the target.  17. The device according to p. 1, characterized in that the plasma generating means is configured to generate plasma at the frequencies of formation of the electric field in the object of influence.  18. The device according to p. 1, characterized in that the plasma generating means is configured to generate plasma at frequencies, the formation of an electric current in the object of influence. 19. The device according to claim 1, characterized in that the means for plasma formation is configured to emit pulses at radio frequencies with a duration in the range of 10 ^-4 - 10 ^-6 s. 20. The device according to claim 1, characterized in that the means for supplying energy is made with the possibility of obtaining a duty cycle in the means for bringing to the object of influence of the order of 0.001% and lasting less than a fraction of 10 ^-4 s.  21. The device according to claim 1, characterized in that the means for supplying energy is made with the possibility of obtaining a duty cycle in a means for supplying energy to an object of influence of the order of 0.001%.  22. The device according to claim 1, characterized in that the target is a person.  23. The device according to claim 1, characterized in that the object of exposure is an animal.  24. The method of pulsed magnetic induction, including the installation of a device for pulsed magnetic induction relative to the object of exposure and supply of energy with the possibility of its regulation in frequency and power of the magnetic flux, characterized in that for regulating the input energy create a plasma of a certain composition with the possibility of generating characteristic radio frequencies, resonant object of influence.

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