WO2018025054A1

WO2018025054A1 - Induction heating system unit for a local hyperthermia device and hyperthermia method

Info

Publication number: WO2018025054A1
Application number: PCT/GE2016/000007
Authority: WO
Inventors: Сургуладзе БЕСИКИ
Original assignee: Сургуладзе БЕСИКИ
Priority date: 2016-08-05
Filing date: 2016-08-05
Publication date: 2018-02-08

Abstract

The present invention relates to devices which utilize electromagnetic energy that is directed at diseased cells in human tissues. More particularly, the invention is intended for treating the human body using a precisely oriented electromagnetic flow with specially selected electromagnetic field density and frequency parameters, and also acting on ferromagnetic particles. In accordance with the aim of the present invention, the electromagnetic energy generated can be targeted at a specific organ of the patient, a specific diseased region of an organ or of the body, or a chosen point inside the patient's body, into which a ferromagnetic material is first introduced. In the present invention, an induction heating system unit is proposed, consisting of a module comprised of a pair of Helmholtz coils. The greatest effect is achieved when the induction heating unit contains no less than two modules. The pair of Helmholtz coils makes it possible to enhance the working alternating field at the specific point of intersection of the magnetic field lines directed at an affected organ by the pair of coils. The design of the modules makes it possible to produce a magnetic flow with the necessary parameters and to apply said flow directly to an organ or site in the patient's body that is to undergo treatment. The angle between the coils in a module can be selected from within a range of from 60° to 110°, depending on the organ to be treated and its location in the patient's body. The number of modules is selected according to the particular therapeutic aim.

Description

Description of the invention

Induction heating system unit for local hyperthermia device and hyperthermia method.

The field of technology. This invention relates to devices that use electromagnetic energy directed to diseased cells of tissues of the human body. In particular, the invention is designed to treat a human body by using a targeted electromagnetic flux with specially selected parameters: electromagnetic field density and frequency, with simultaneous exposure to ferromagnetic nanoparticles.

The prior art. The prior art devices are similar to this invention of various designs, with which the main similarity lies in the use of Helmholtz coils to create an electromagnetic flux with the desired parameters. Of the known devices, the invention described in Japanese application No. 2, JPH04348765 (A), published in 1992, in which magnetic induction is generated by two oppositely spaced coils representing Helmholtz pseudo-coils, can be called. The coils rotate freely around the central axis - this way the problem of irradiation with electromagnetic energy of the target organ of the patient is solved. The design of this device also allows to achieve such an implementation in which there is no need to place the patient in the working area with the bed. This invention is similar in purpose to the present invention and the fact that it also uses Helmholtz coils having the possibility of spatial movement, but otherwise its design and the parameters of the directed electromagnetic flux during hyperthermia are different from the claimed invention and do not allow focusing of electromagnetic energy to a sick organ inside the patient’s body.

Closest to the claimed is the invention "A device generating a magnetic field, a method of generating and using a magnetic field for treatment under certain conditions", described in published in 2000, international application N ° WO0013749 (A1). This device contains structural features close to the claimed invention, which are intended for the treatment of diseased human organs, including the simultaneous use of ferromagnetic nanoparticles. However, this invention is aimed at creating a uniform electromagnetic field and does not allow to achieve the main task of the claimed invention, namely, to focus the generated flow to a specific point on the patient’s patient organ and to carry out the process of hyperthermia with such parameters of the directed electromagnetic flow. which would be sufficient for penetration of the applied energy to the target organ inside the patient’s body.

The essence of the invention. According to the purpose of the present invention, the generated electromagnetic energy can be focused on a particular patient’s organ, a particular diseased area of an organ or body, or on a selected point inside the patient’s body into which a ferromagnet is preliminarily introduced, the particles of which are exposed to a directed electromagnetic flux, with pre-selected parameters, they begin to intensively rotate around its axis, heating the affected cells of the organ. Thus, a therapeutic effect is achieved using the process of hyperthermia.

The proposed device allows you to generate and focus the necessary electromagnetic flow for a specific therapeutic task in the low frequency range, in which the electromagnetic field is sufficient to heat the particles of magnetite and is absolutely harmless to the body. In the process of creating this invention, the optimal parameters for solving the set inventive goal were identified and a method for carrying out hyperthermia using them was proposed.

To achieve this, the present invention provides a block for an induction heating system, consisting of a module formed by a pair of Helmholtz coils. The greatest effect is achieved when the induction heating unit contains at least two modules. A pair of Helmholtz coils allow you to strengthen the working alternating field and focus at a certain intersection point the magnetic field lines directed by the pair of coils to the affected organ. The design of the modules makes it possible to obtain a magnetic flux with the necessary parameters and attach it directly to the organ to be treated or to a point on the patient’s body. Depending on the organ to be affected and its location in the human body, the angle between the coils in the module can be selected in the range from 60 ° to 110 °. The number of modules is selected depending on the assigned therapeutic task.

Without such a design of the device and the corresponding capacitance of the matching and resonant circuits, when moving away from the surface of the coils, the field will weaken and it will not be possible to irradiate the target point with electromagnetic flux with the required parameters in the low-frequency range. The necessary parameters, the effectiveness of which the experiments have confirmed, are as follows: frequency from 20 kHz to 300 kHz. The intensity of such an electromagnetic field is 4 - 8 V / m.

The design of the invention is illustrated by drawings.

In FIG. 1 shows a general view of a unit of an induction heating system for a local hyperthermia device;

In FIG. 2 shows a module of a pair of Helmholtz coils;

An induction heating system for a local hyperthermia device according to this invention in accordance with systems (devices) known from the prior art comprises: a frequency generator that allows generating a current with a frequency within the required parameters; voltage amplifier; power amplifiers, connected in parallel with each other, which work in a joint bridge mode, allowing you to summarize the power; set of matching capacitors Ci-Cn; a set of capacitors of the resonant circuit Cu - Cm; AC / DC converting power supply; 220 V AC transformer .; power supply unit 220 v .; a resonance monitoring feedback inductor and an induction heating unit (module) consisting of a pair of Helmholtz coils. The induction heating unit proposed by this invention for use in the described systems is shown in FIG. 1 and 2.

In FIG. 1 shows a General view of the unit of the induction heating system. According to the invention, in accordance with which the indicated block was manufactured, it consists of Helmholtz coils 1, amplifier 2, and a movable rod 3, to which a pair of coils 1 is connected.

The Helmholtz coil module is shown in FIG. 2 and is made of two (pair) identical coils located at an angle to each other. This angle is selected depending on the location of the organ to be treated, the site, or a specific point on the patient’s body so that a direct flow of electromagnetic field emitted by the coils can be directed directly at it. At the same time, the angle is chosen so as to preserve the magnetic field parameters, therefore, the minimum angle cannot be less than 60 °, and the maximum cannot exceed 110 °. The named parameters were established as a result of laboratory tests. Various designs of the Helmholtz coils themselves were tested, and as a result, their optimal design was found. According to this invention, Helmholtz coils are made of copper tubes. I had to abandon the use of a solid conductor, since there was a problem of cooling the coil turns. The execution of these turns from the tubes allows coolant to pass through them. The design of Helmholtz coils separately in the figures is not shown, because it will not be difficult for a specialist in this field of technology to understand it, and he will not need to show his own inventive creativity for this. The coils of this invention consist of a non-magnetic inner frame on which coils of copper tubes are wound. The prototype coils had a diameter of 16 cm.

A generated sinusoidal signal with a frequency in the above range is supplied to the Helmholtz coils 1 (Fig. 1), which are applied to the corresponding organ of the body and the process of hyperthermia using nanomagnetic particles is carried out. The process of hyperthermia, according to this invention, is carried out with the provision of a magnetic field density in the range of 4 to 8 v / m. The generated electromagnetic field is low-frequency in the range from 20 kHz to 300 kHz.

For the first time, a low-frequency method of hyperthermia is proposed. Until now, hyperthermia has been carried out in the high-frequency range of the magnetic field. The use of the invention in compliance with the low-frequency parameters identified as a result of the creation of the described invention is the essence of the proposed new method of hyperthermia, for the implementation of which a new design of the induction heating system unit is created and both of these innovations are connected by one inventive concept.

According to the invention, the electromagnetic field is applied directly to the affected organ, area or point of the patient’s body, where ferromagnetic nanoparticles are preliminarily introduced, which are heated by the field.

As already indicated, a pair of Helmholtz coils of the proposed design, and a selected angle between the coils, make it possible to orient the plane of the coils parallel to the human body and bring it in and direct the magnetic field emitted by it directly to the treated organ into which the ferromagnet was previously introduced. With this design and the proposed method of hyperthermia, the penetration of the applied energy with the necessary parameters to a depth of 10 cm is ensured. Moreover, there is no need to introduce into the irradiation region the patient with his bed, which greatly simplifies the design of the device for hyperthermic treatment of patients and the treatment process itself.

In accordance with the described device was manufactured and tested, providing the process of hyperthermic treatment according to this invention. Tests have shown effectiveness and confirmed the possibility of achieving goals that have not yet been achieved. Especially it is necessary to highlight a new opportunity in this area, namely, carrying out hyperthermia in an absolutely harmless, low-frequency range in the depths of body tissues.

Claims

Claim

1. The unit of the induction heating system for local hyperthermia using Helmholtz coils, characterized in that the working body is a pair of Helmholtz coils, forming a module, while the coils of each pair are located at an angle that allows you to arrange the plane of the coil turns parallel to the patient’s body, and coil turns are made of copper tubes.

2. The invention according to claim 1 is characterized in that the angle between the Helmholtz coils in the module is 60 ° - 110 °.

3. The invention according to claim 1 is characterized in that the number of modules is at least two

4. The method of hyperthermia using the device according to claim 1 is characterized in that the induction heating is carried out by a low-frequency magnetic field in the frequency range from 20 kHz to 300 kHz.