KR20190030088A - Ac magnetic field generating device for medical purpose and method for controlling the same - Google Patents

Abstract

The present invention provides a medical AC magnetic field generating device capable of reducing the risk of death of normal cells other than a target cell by measuring a temperature change inside a living body while applying an AC magnetic field inside the living body and controlling the temperature of the inside of the living body according to the measured temperature, and a control method thereof. The medical AC magnetic field generating device according to the present invention comprises: an AC magnetic field generating unit for applying an AC magnetic field to magnetic particles injected into the living body; a temperature detecting unit for detecting a temperature inside the living body; and a control unit for receiving the detection signal from the temperature detecting unit and controlling the AC magnetic field generating unit to maintain the temperature inside the living body within a predetermined temperature range.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an AC magnetic field generating device and a control method thereof,

Field of the Invention [0001] The present invention relates to a medical AC magnetic field generator, and more particularly, to a medical AC magnetic field generator capable of generating heat in a living body by applying an AC magnetic field outside the living body for treatment or diagnosis of a living body, .

A hyperthermia treatment using nanomagnetic particles capable of generating hot heat according to a change in magnetic field to kill cancer cells has been disclosed.

Nano-magnetic particles have their own unique magnetic properties and generate heat when they are applied to the surrounding magnetic field. The principle that magnetic particles generate heat by an alternating magnetic field is as follows. (1) Brownian relaxation phenomenon due to spinning of magnetic particles dispersed in the liquid, (2) Neel relaxation phenomenon due to the energy barrier of spin inside the magnetic particle, and (3) In the process of magnetization, heat is generated by the magnetic hysteresis phenomenon due to the movement of the spin domains inside the material.

The heat generation phenomenon of the magnetic particles can be used to treat diseases such as cancer. Hyperthermia is the use of heat to treat diseases, including cancer, when cancer cells begin to die at temperatures above 42 ° C. Since the alternating magnetic field is not affected by the skin tissue and there is no limitation of penetration depth, the magnetic particles can selectively heat when accumulated in the cancer tissue in the body.

When heat is generated in the magnetic particles inside the living body by applying an alternating magnetic field from the outside for the heat treatment, if the temperature is too high or too much heat is applied, normal cells may be killed. However, at present, there is no suitable method for confirming the temperature change inside the living body during the hyperthermia treatment from outside the living body, and there is a high risk of damaging the living body by killing other living cells besides the target cells.

Patent Registration No. 1230384 (Feb.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and it is an object of the present invention to provide a method for measuring a temperature change in a living body during the application of an alternating magnetic field inside a living body, Another object of the present invention is to provide a medical AC magnetic field generator capable of reducing the risk of normal cell death and a control method thereof.

According to an aspect of the present invention, there is provided a medical AC magnetic field generator comprising: an AC magnetic field generator for applying an AC magnetic field to magnetic particles charged into a living body; A temperature detector for detecting a temperature inside the living body; And a controller for receiving the detection signal from the temperature detector and controlling the AC magnetic field generator to maintain the temperature inside the living body within a predetermined temperature range.

The temperature detecting unit includes a sound wave generating unit capable of generating a sound wave to infiltrate into the living body, a sound wave receiving unit for receiving the sound wave generated in the sound wave generating unit and passing through the living body, And a reading unit for calculating a temperature inside the living body using the speed at which the sound waves received by the sound wave receiving unit pass through the living body.

The reading unit may calculate the temperature inside the living body using the following equation.

(Δt: temperature change in the living body, V1: initial velocity of the sound wave passing through the inside of the living body before application of the AC magnetic field, and V2: speed of the sound wave passing through the living body during AC magnetic field application)

The temperature detector may further include an amplifier for amplifying the signal of the sound wave receiver and transmitting the amplified signal to the reader.

The controller may control the sound wave generator according to the received signal strength of the sound wave receiver to change the frequency of the sound wave generated by the sound wave generator.

According to another aspect of the present invention, there is provided a control method for a medical AC magnetic field generating apparatus, the method including: controlling a medical AC magnetic field generating device including an AC magnetic field generating unit for applying an AC magnetic field to magnetic particles injected into a living body; The method comprising the steps of: (a) measuring an initial velocity of a sound wave before an AC magnetic field application in the living body using a sound wave generator for generating a sound wave and a sound wave receiver for receiving a sound wave; (b) measuring the speed of a sound wave in the living body to which the alternating magnetic field is applied by applying the alternating magnetic field to the living body by operating the alternating magnetic field generating unit and using the sound wave generating unit and the sound wave receiving unit; (c) calculating a temperature inside the living body using the initial speed of the sound wave measured in the step (a) and the speed of the sound wave measured in the step (b); And (d) controlling the AC magnetic field generator according to the temperature inside the living body calculated in the step (c) so as to maintain the temperature inside the living body within a predetermined temperature range.

In the step (c), the temperature inside the living body can be calculated using the following equation.

(Δt: temperature change in the living body, V1: initial velocity of the sound wave passing through the inside of the living body before application of the AC magnetic field, and V2: speed of the sound wave passing through the living body during AC magnetic field application)

In the steps (a) and (b), the frequency of the sound wave generated by the sound wave generator may be changed by controlling the sound wave generator according to the intensity of the signal received by the sound wave receiver.

The medical AC magnetic field generator according to the present invention can measure the temperature inside the living body in real time while applying an alternating magnetic field inside the living body. By controlling the alternating magnetic field generating unit according to the measured temperature inside the living body, the temperature inside the living body is limited to a predetermined range, thereby reducing the risk of death of the normal cells in addition to the target cells.

Further, the medical AC magnetic field generating apparatus according to the present invention can measure the temperature inside the living body by using the sound wave generating unit and the sound wave receiving unit having a simple structure, without using a large complicated device for measuring the temperature inside the living body, It is possible.

1 schematically shows a configuration of a medical AC magnetic field generator according to an embodiment of the present invention.
2 is a view for explaining a treatment process using a medical AC magnetic field generator according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a method of controlling a medical AC magnetic field generator according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a medical AC magnetic field generator and a control method thereof according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is a schematic view of a medical AC magnetic field generator according to an embodiment of the present invention. FIG. 2 illustrates a medical treatment process using a medical AC magnetic field generator according to an embodiment of the present invention, FIG. 3 is a flowchart illustrating a method of controlling a medical AC magnetic field generator according to an exemplary embodiment of the present invention.

The medical AC magnetic field generator 100 according to an embodiment of the present invention can be used in a hyperthermia treatment using a magnetocaloric effect. Heat treatment using magnetic caloric effect is a treatment method using the principle that heat is generated when magnetic particles are injected into a human body and an alternating magnetic field is applied to magnetic particles from the outside. When an alternating magnetic field is applied from the outside, the magnetic particles injected into the body heat up, and abnormal cells such as cancer cells can be killed by heat. As shown in the figure, the medical AC magnetic field generating apparatus 100 according to an embodiment of the present invention includes an AC magnetic field generating unit 110 for generating an AC magnetic field, a temperature detecting unit 120 for detecting a temperature inside the living body, And a controller 130 receiving the detection signal from the temperature detector 120 and controlling the AC magnetic field generator 110.

The alternating magnetic field generating unit 110 generates an alternating magnetic field to apply an alternating magnetic field to the magnetic particles injected into the living body 10. The alternating magnetic field generating unit 110 may have various structures that can generate an alternating magnetic field, such as a structure including a coil or an alternating-current oscillation circuit connected to an electromagnet. When an alternating magnetic field is applied to the magnetic particles injected into the living body 10 by the alternating magnetic field generating unit 110, the magnetic particles generate heat due to the unique magnetic properties of the magnetic particles.

The temperature detection unit 120 detects the temperature inside the living body 10 and transmits a detection signal to the control unit 130. The temperature detection unit 120 includes a sound wave generating unit 121 for generating sound waves, a sound wave receiving unit 122 for receiving sound waves generated by the sound wave generating unit 121, an amplifier 122 for amplifying signals of the sound wave receiving unit 122, And a reading unit 124 receiving the signal from the amplifier 123 and calculating the temperature inside the living body 10. [

The sound wave generating unit 121 generates sound waves and penetrates the inside of the living body 10. The sound wave generating section 121 may be composed of various materials capable of generating an electrostriction substance such as crystal, PZT, or the like, a magnetostrictive substance such as nickel or ferrite, or other sound waves.

The sound wave receiving unit 122 receives sound waves generated in the sound wave generating unit 121 and passing through the inside of the living body 10. The sound wave receiver 122 may have various structures that can receive sound waves and convert them into electric signals.

The reading unit 124 receives the detection signal of the sound wave receiving unit 122 amplified by the amplifier 123 and detects the sound wave generated by the sound wave generating unit 121 and received by the sound wave receiving unit 122, The temperature inside the living body 10 is calculated using the speed at which the living body 10 passes.

The temperature detecting unit 120 synchronizes the sound wave receiving unit 122 with the sound wave generating unit 121 to calculate the arrival time of the sound wave that has been generated in the sound wave generating unit 121 and arrived at the sound wave receiving unit 122, ) Can measure the speed through the inside. In addition, the temperature inside the living body 10 can be indirectly measured by using the speed of sound waves.

The speed of a sound wave is determined by the elastic modulus and inertia of the medium. The sound velocity (v) in a solid or fluid can be expressed by the following equation, where ρ is density and K is elasticity (volume elasticity in fluid) irrespective of the medium.

In the case of a fluid medium, the sound velocity v can be expressed by the following equation,

(B: 부피 탄성률, ρ: 평균 밀도),

(B: volume modulus, ρ: average density),

In the case of a solid medium, the sound velocity (v) can be expressed as:

(Y: 영률, ρ: 평균 밀도)

(Y: Young's modulus, p: Average density)

Thus, the sound velocity in the fluid medium can be calculated by measuring the density and volume modulus of the medium. And if you check how the density changes with temperature, you can also calculate the change in sound velocity with temperature.

For reference, the table below shows the speed of sound waves in various media.

Since the speed of a sound wave can be markedly different depending on a tissue configuration distribution of a living body part irradiated with a sound wave, a density change due to a temperature change is measured for each tissue structure of a living body part, and an initial speed reaching the receiving part, Using the difference in speed, the temperature change of the living body region can be indirectly obtained.

For example, since the speed of a sound wave in air at 0 ° C is 331m / s, the speed V of a sound wave at a temperature of t ° C can be expressed as V = 331 + 0.6t. Since V = 331 + 0.6t, the sound wave at 20 ℃ has a speed of about 343m / s. 2, the sound wave generating unit 121 and the sound wave receiving unit 122 are disposed on both sides of the living body 10 so that the living body 10 is positioned therebetween, The time when the sound waves reach the sound wave receiving unit 122 is measured to measure the speed of the sound wave passing through the living body 10 between the sound wave generating unit 121 and the sound wave receiving unit 122, Can be inferred. That is, the temperature change when the alternating magnetic field is applied to the living body 10 and when the alternating magnetic field is applied can indirectly be measured using the following equations.

,

,

,

,

(V: speed, f: frequency, λ: wavelength, V1: initial speed, V2: speed after temperature change, t1: initial temperature, t2:

In the case of the human body, the initial temperature t1 when the alternating magnetic field is not applied can be set to 36.5 DEG C or the temperature measured directly from the individual patient. The latter temperature t2 is the temperature inside the living body 10 which is raised when the alternating magnetic field is applied.

Generally, a sound wave of 5 MHz is used at about 7.5 MHz to observe the tissue near the skin surface and at 3.5 MHz for deep tissue. On the other hand, since the absorption rate of sound waves is inversely proportional to the number of vibrations, the sound waves are less likely to advance into the human body as the frequency increases. Therefore, the frequency of the sound wave generated by the sound wave generator 121 needs to be appropriately adjusted so that the sound wave generated by the sound wave generator 121 can smoothly reach the sound wave receiver 122. The operation of the sound wave generating unit 121 may be controlled by the controller 130. [

The sound wave generating unit 121 of the temperature detecting unit 120 may be provided in an appropriate number to generate one or more sound waves. In addition, the sound wave receiving unit 122 may be provided in an appropriate number so as to smoothly receive sound waves generated by one or a plurality of sound wave generating units 121.

The control unit 130 receives the detection signal from the temperature detection unit 120 and controls the AC magnetic field generation unit 110 to maintain the temperature inside the living body 10 within a predetermined temperature range. When magnetic particles are injected into the living body 10 and an alternating magnetic field is applied to the alternating magnetic field generating unit 110 to perform hyperthermia treatment, if the temperature rises excessively, normal cells other than the target cells to be killed can be killed have. The control unit 130 receives the temperature of the living body 10 measured by the temperature detecting unit in real time and adjusts the power source and AC frequency of the AC magnetic field generating unit 110, To an appropriate temperature range. Therefore, it is possible to selectively kill only target cells such as cancer cells while minimizing the influence of normal cells.

The control unit 130 may control the sound wave generating unit 121 according to the received signal strength of the sound wave receiving unit 122. That is, when the sound wave generated by the sound wave generating unit 121 can not smoothly reach the sound wave receiving unit 122, the control unit 130 controls the sound wave generating unit 121 to generate a sound wave having a proper frequency, The generation unit 121 can be controlled.

The control unit 130 and the amplifier 123 and the read unit 124 of the temperature detection unit 120 may be installed in one control module 140 as shown in FIG.

Hereinafter, a method of controlling the medical alternating magnetic-field generating device according to the embodiment of the present invention as described above will be described.

Referring to FIG. 3, the method for controlling a medical AC magnetic field generator according to an embodiment of the present invention includes a step S10 of measuring an initial sound wave speed through a temperature detector 120, an AC magnetic field generator 110 (S20) of measuring the speed of a sound wave passing through the living body (10) while applying an alternating magnetic field to the living body (10), calculating a temperature inside the living body (10) (S40) of controlling the alternating magnetic field generating unit 110 according to the temperature inside the magnetic field generating unit 110. [

First, in the step S10 of measuring the initial sound wave speed, the sound wave generating unit 121 of the temperature detecting unit 120 is operated in a state in which the AC magnetic field generating unit 110 is not operated to infiltrate sound waves into the living body 10 And receives the sound wave passed through the living body 10 through the sound wave receiving unit 122 to measure the speed of the sound wave passing through the living body 10. [ At this time, the measured speed of the sound wave becomes the initial velocity V1 of the sound wave passing through the inside of the living body 10 before applying the alternating magnetic field. The control unit 130 controls the sound wave generating unit 121 to generate a sound wave when the sound wave generated by the sound wave generating unit 121 and passing through the living body 10 does not reach the sound wave receiving unit 122 smoothly, The sound waves generated by the unit 121 can be changed to an appropriate frequency capable of smoothly passing through the living body 10. [

Next, in step S20 of measuring the speed of a sound wave passing through the living body 10 during operation of the AC magnetic field generating unit 110, the AC magnetic field generating unit 110 is operated to apply an alternating magnetic field to the living body 10 The temperature detector 120 measures the speed of the sound waves passing through the living body 10. At this time, the speed of the measured sound wave becomes the speed (V2) of the sound wave passing through the living body 10 whose temperature rises as the alternating magnetic field is applied.

Next, in step S30 of calculating the temperature inside the living body 10, the initial velocity V1 of the sound wave passing through the inside of the living body 10 before the application of the alternating magnetic field measured in the previous step and the initial velocity V1 of the sound wave passing through the living body 10 10 using the speed V2 of a sound wave passing through the living body 10 in accordance with the application of the alternating magnetic field. At this time, the reading unit 124 of the temperature detecting unit 120 can calculate the temperature inside the living body 10 using the following equation.

V1 is an initial velocity of a sound wave passing through the inside of the living body 10 before application of the AC magnetic field and V2 is an initial velocity of sound waves passing through the inside of the living body 10 during AC magnetic field application Speed. Δt is a value obtained by subtracting the initial temperature t1 of the living body 10 before the AC magnetic field application from the later temperature t2 of the living body 10 which has risen at the time of application of the AC magnetic field and the initial temperature t1 is 36.5 ° C. in the case of the human body, It can be set to one temperature. Therefore, by calculating DELTA t, the later temperature t2 of the living body 10 during the application of the alternating magnetic field can be obtained.

Next, in step S40 of controlling the alternating magnetic field generating unit 110, the alternating magnetic field generating unit 110 is controlled according to the temperature inside the living body 10 calculated in the preceding step. At this stage, the control unit 130 receives a signal from the reading unit 124 and adjusts the power source and AC frequency of the AC magnetic field generator 110 to maintain the temperature inside the living body 10 at a predetermined temperature range have.

Conventionally, in the case of hyperthermia treatment, there is no suitable means for measuring the temperature inside the living body during the heating of the magnetic particles put into the living body by applying an alternating magnetic field to the living body, There was a high risk of harming the living body by killing the cells. On the other hand, the present invention measures the speed at which a sound wave passes through a living body by infiltrating a sound wave into a living body when an alternating magnetic field is applied to the living body, and indirectly measures the living body temperature using the principle that the sound wave varies in speed depending on the temperature of the medium . By controlling the alternating magnetic field generating unit 110 according to the temperature inside the living body, the temperature inside the living body 10 is limited to a predetermined range, thereby reducing the risk of the death of normal cells other than the target cells.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to those described and illustrated above.

For example, although the figure shows that the temperature detecting unit 120 includes the sound wave generating unit 121, the sound wave receiving unit 122, the amplifier 123 and the reading unit 124, The specific configuration of the temperature detection unit for measuring the temperature of the temperature sensor may be variously changed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art will appreciate that numerous modifications and variations can be made in the present invention without departing from the spirit and scope of the appended claims.

100: medical AC magnetic field generating device 110: AC magnetic field generating part
120: Temperature detecting unit 121: Sound wave generating unit
122: sound wave receiver 123: amplifier
124: Reading section 130:
140: Control module

Claims (8)

An alternating magnetic field generating unit for applying an alternating magnetic field to the magnetic particles injected into the living body;
A temperature detector for detecting a temperature inside the living body; And
And a controller for receiving the detection signal from the temperature detector and controlling the AC magnetic field generator to maintain the temperature inside the living body within a predetermined temperature range.
The method according to claim 1,
Wherein the temperature detecting unit comprises:
A sound wave generating unit capable of generating a sound wave and penetrating the inside of the living body,
A sound wave receiver for receiving a sound wave generated by the sound wave generator and passing through the inside of the living body,
And a reading unit for calculating a temperature inside the living body using the speed at which the sound waves generated by the sound wave generating unit and received by the sound wave receiving unit pass through the living body.
3. The method of claim 2,
Wherein the reading unit calculates the temperature inside the living body using the following equation: < EMI ID = 1.0 >

(Δt: temperature change in the living body, V1: initial velocity of the sound wave passing through the inside of the living body before application of the AC magnetic field, and V2: speed of the sound wave passing through the living body during AC magnetic field application)
3. The method of claim 2,
Wherein the temperature detector further comprises an amplifier for amplifying the signal of the sound wave receiver and transmitting the amplified signal to the reader.
3. The method of claim 2,
Wherein the control unit controls the sound wave generating unit according to a received signal strength of the sound wave receiving unit to change a frequency of a sound wave generated in the sound wave generating unit.
A method for controlling a medical alternating magnetic field generating apparatus including an alternating magnetic field generating section for applying an alternating magnetic field to magnetic particles charged into a living body,
(a) measuring an initial velocity of a sound wave before applying an alternating magnetic field in the living body using a sound wave generating unit for generating a sound wave and a sound wave receiving unit for receiving a sound wave;
(b) measuring the speed of a sound wave in the living body to which the alternating magnetic field is applied by applying the alternating magnetic field to the living body by operating the alternating magnetic field generating unit and using the sound wave generating unit and the sound wave receiving unit;
(c) calculating a temperature inside the living body using the initial speed of the sound wave measured in the step (a) and the speed of the sound wave measured in the step (b); And
(d) controlling the AC magnetic field generating unit in accordance with the temperature inside the living body calculated in the step (c) so as to maintain the temperature inside the living body within a predetermined temperature range. A method of controlling a magnetic field generator.
The method according to claim 6,
Wherein, in the step (c), the temperature for the inside of the living body is calculated using the following equation.

(Δt: temperature change in the living body, V1: initial velocity of the sound wave passing through the inside of the living body before application of the AC magnetic field, and V2: speed of the sound wave passing through the living body during AC magnetic field application)
The method according to claim 6,
The medical AC magnetic field generator according to claim 1, wherein in the steps (a) and (b), the frequency of the sound wave generated by the sound wave generator is changed by controlling the sound wave generator according to a received signal strength of the sound wave receiver / RTI >

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