KR20210095606A - A control method of an electroceuticals for the treatment of epilepsy with an electromagnetic disturbance prevention function - Google Patents

Abstract

The present invention relates to a method for controlling an electronic drug for treating epilepsy which is embedded under the skin to provide electrical stimulation to nerves and can be wirelessly charged. According to the present invention, a wirelessly chargeable electronic drug for treating epilepsy comprises: a housing defining an appearance; an electrical stimulation generation unit disposed inside the housing and generating electrical stimulation provided to nerves; a battery supplying power to the electrical stimulation generation unit and being repeatedly charged; and a power reception unit disposed inside the housing and converting a magnetic field generated by an external wireless charger into current to supply the current to the battery. The electrical stimulation generation unit stops operation when wireless charging starts.

Description

A control method of an electroceuticals for the treatment of epilepsy with an electromagnetic disturbance prevention function

The present invention relates to an electronic drug for epilepsy treatment capable of wireless charging and a method for controlling the same.

Electronic medicine is a compound word of electronics and pharmaceuticals, and refers to an electronic device that treats diseases by controlling electrical signals generated in the brain and nerve cells.

In the early days, simple implantable medical devices such as pacemakers were the mainstay, but recently, they have evolved into electronic devices that stimulate nerve tissue to treat chronic diseases such as epilepsy, diabetes, arthritis, and high blood pressure.

The e-medication is embedded under the skin, and only a specific part that needs treatment is selected and stimulated, so side effects can be minimized, and in case of emergency, the drug effect can be stopped immediately.

However, in the case of currently developed electronic drugs, most of them use primary batteries, so they need to be periodically pulled out of the human body and replaced. There are downsides to having to.

This not only complicates management, but also involves a problem with a high probability of nerve damage because the process of implanting and withdrawing the electronic drug directly connected to the nerve has to be repeated.

In particular, in the case of e-medication used for epilepsy treatment, it is a reality that concerns about this problem are increasing because it is directly connected to the vagus nerve.

The present invention has been devised to solve the above problems of the prior art, and an object of the present invention is to provide an electronic medicine capable of wireless charging.

In addition, an object of the present invention is to prevent the components that provide electrical stimulation to nerves from being disturbed by electromagnetic waves generated by a wireless charger in the wireless charging process of an electronic drug.

According to an embodiment of the present invention, there is provided an electronic drug for epilepsy treatment that is embedded subcutaneously to provide electrical stimulation to nerves and can be wirelessly charged, comprising: a housing comprising a metal having an electromagnetic wave shielding function and forming an appearance; an electrical stimulation generator provided inside the housing and generating electrical stimulation provided to nerves; a battery that supplies a current to the electrical stimulation generator and can be repeatedly charged; a power receiver provided inside the housing, converting a magnetic field generated by an external wireless charger into current and supplying it to the battery; and a magnetic field transmission film provided on a portion of the upper surface of the housing to face the power receiver and transmitting the magnetic field generated by the external wireless charger into the housing; A therapeutic e-medication may be provided.

In an exemplary embodiment, the housing is provided as a barrier rib for isolating the power receiver, the inner shield comprising a metal having an electromagnetic wave shielding function; may further include.

In an exemplary embodiment, the edge of the magnetic field transmission layer may be located above the inner space formed by the inner shield.

In an exemplary embodiment, the power receiver includes a coil having both ends connected to the battery and converting a magnetic field into a current; and a base for fixing the coil, wherein the inner shield has a shield through hole through which both ends of the coil pass, is provided in the shield through hole, and electromagnetic waves pass through the shield through hole to the outside of the inner shield It may further include a; auxiliary shielding member to prevent leakage into the space.

In an exemplary embodiment, it is provided in the housing, the EMI filtering module for filtering the noise generated by the external wireless charger; may further include.

In an exemplary embodiment, the EMI filtering module may be located between the electrical stimulation generator and the battery.

In an exemplary embodiment, the electric stimulation generating unit is an electronic medicine for epilepsy treatment capable of wireless charging, characterized in that the operation is automatically stopped when the wireless charging starts.

In an exemplary embodiment, the metal having the electromagnetic wave shielding function may include alumina ceramic (Al203) or titanium (Ti).

In an exemplary embodiment, the magnetic field transmission film may include at least one of Teflon, polyurethane, and silicon (Si), acrylic resin (acrylic), nylon (Nylon).

The present invention has the effect of providing an electronic drug capable of wireless charging.

In addition, the present invention has an effect of preventing the components that provide electrical stimulation to nerves from being disturbed by electromagnetic waves generated by the wireless charger in the wireless charging process of the electronic drug.

1 is a top view of an electronic drug for epilepsy treatment capable of wireless charging according to an embodiment of the present invention.
Figure 2 shows a state in which the upper part, which is a component of the housing of the electronic drug for epilepsy treatment capable of wireless charging, is removed.
3 is a block diagram showing detailed configurations of the electronic drug for epilepsy treatment capable of wireless charging.
Figure 4 shows the wireless charging in the state that the wireless charging is possible for the epilepsy treatment e-medication is embedded subcutaneously.
5 is a control method of the electronic drug for epilepsy treatment capable of wireless charging, and shows a flow in which the electrical stimulation generator is controlled.

Hereinafter, various embodiments of the present invention will be described with reference to the drawings.

First, with reference to FIG. 1 , an electronic drug 1 for epilepsy treatment capable of wireless charging according to an embodiment of the present invention will be described.

The electronic drug 1 is embedded under the skin to provide electrical stimulation to the nerve, thereby controlling the process of electrical transmission abnormally generated in the nerve due to epilepsy.

To this end, the electronic drug 1 may include a housing 11 forming an exterior, and the housing 11 may include an upper part 111 and a lower part 112 .

The upper part 111 and the lower part 112 may be made of a metal that shields electromagnetic waves and is non-toxic to the human body, and the metal may include at least one of alumina ceramic (Al203) and titanium (Ti). can

Accordingly, it is possible to prevent a problem that electromagnetic waves generated during wireless charging are transmitted to the inside of the human body through the housing.

In addition, the electronic drug 1 is provided on a part of the upper surface of the upper part 111 of the housing, and further includes a magnetic field transmission film 12 that transmits the magnetic field generated by the external wireless charger into the housing. and specific functions and structures thereof will be described later with reference to FIG. 2 .

FIG. 2 shows a state in which the upper part 111 is removed from the lower part 112 , and through this, the components provided in the housing 11 can be confirmed.

Specifically, the electronic drug 1 is provided inside the housing 11 and supplies power to the electrical stimulation generating unit 5 that generates the electrical stimulation provided to the nerve and the electrical stimulation generating unit 5 and repeatedly A battery 7 provided as a rechargeable battery that can be charged with phosphorus, a power receiver 6 provided inside the housing 11 and converting a magnetic field generated by an external wireless charger into a current and supplying it to the battery may be included. there is.

The power receiver 6 has both ends connected to the battery 7 and may include a coil 61 that converts a magnetic field into an electric current, and a base 62 that fixes the coil 61, and thus, external to the human body. When the wireless charger generates a magnetic field, a current may be generated in the coil 61 by electromagnetic induction.

To this end, the magnetic field transmission film 12 may be provided with at least one of Teflon and polyurethane on silicon (Si), acrylic resin, nylon (Nylon) that transmits a magnetic field, A portion of the upper part 111 of the housing 11 may be provided to face the coil 61 .

This has an excellent effect of preventing disturbance by preventing the magnetic field generated by wireless charging only from being focused on the coil 61 and not affecting other components, and furthermore, a problem that nerves may be abnormally stimulated by system disturbance to prevent

On the other hand, the electronic medicine 1 may further include an inner shield 13 provided as a partition wall to isolate the power receiver 6 inside the housing 11 , and the inner shield 13 is the housing 11 . It may be provided with the same metal as (11).

Specifically, the inner shield 13 may be fixed to the lower part 112 or the upper part 111 of the housing 11 , and may be integrally formed with the lower part 112 or the upper part 111 . may be

In addition, an edge of the magnetic field transmission layer 12 may be positioned above the inner space formed by the inner shield 13 .

This has the effect of preventing the magnetic field introduced through the magnetic field transmission film 12 from affecting other components.

The inner shield 13 may have a shield through hole 13a through which both ends of the coil 61 pass, and both ends of the coil 61 passing through the shield through hole 13a are connected to the battery 7 ) can be associated with

At this time, even if the shield through hole 13a is formed narrowly, a magnetic field may leak into the outer space of the inner shield 13 through some remaining gaps.

Accordingly, the electronic drug 1 according to an embodiment of the present invention is provided to fix the coil 61 to the shield through hole 13a, and electromagnetic waves pass through the shield through hole 13a to the inner shield ( 13) may further include an auxiliary shielding member 9 to prevent leakage into the external space.

The auxiliary shielding member 9 may be made of a material that shields electromagnetic waves such as alumina ceramic (Al203) and titanium (Ti) or carbon nanotube (CNT), and a coil 61 in the manufacturing process of the electronic drug 1 may be fixed to the shield through-hole 13a after the placement of the shield is completed.

The electronic medicine 1 is provided inside the housing 11, and may further include an EMI filtering module 8 for filtering noise generated by the external wireless charger.

The EMI filtering module is located between the battery 7 and the power receiver 6 and can be connected to the middle of the coil 61, and can remove various noises mixed in the power frequency.

The electronic drug 1 may further include a PCB (P) for control, the PCB is on the opposite side of the power receiver 6 with the battery 7 and the electrical stimulation generating unit 5 interposed therebetween can be provided.

This is to prevent the sensitive PCB from being disturbed by an external magnetic field.

3 is a block diagram of the internal components of the electronic medicine 1, wherein the electronic medicine 1 includes a control unit 3 that controls the memory 4 and other components 5, 6, 7, and 8 may include more.

The control unit 3 and the memory 4 may be provided on the PCB (P).

4 illustrates a process in which the electronic medicine 1 is embedded in the lower part of the skin S, and is charged by the wireless charger C in the embedded state.

At this time, in the process of being charged by the external wireless charger (C), the process of transmitting electrical stimulation to the nerve may be temporarily stopped for safety, and when the wireless charging is completed, electricity is again transmitted through the electrical stimulation transmission line (14) stimuli can be transmitted.

Figure 5 shows a flow that is resumed after the electrical stimulation generating unit (5) is stopped.

The control method according to an embodiment of the present invention is a step (S1) of determining whether wireless charging has started, a step (S2) of stopping the operation of the electrical stimulation generating unit (5) when wireless charging is started (S2), whether the wireless charging is terminated The determining step (S3) and, when the wireless charging is finished, may include a step (S4) of restarting the operation of the electrical stimulation generating unit (5).

Even if the effect not described in this specification, the present invention may additionally have different effects of each of the above-described components, and derive a new effect that cannot be seen in the prior art according to the organic coupling relationship between each of the above-described components. can do.

In addition, the embodiments shown in the drawings may be modified and implemented in other forms, and if implemented including the configuration claimed in the claims of the present invention or implemented within the scope of equivalents, it shall be considered to belong to the scope of the present invention. something to do.

Electronic Medicine 1 Wireless Charger C

Claims (1)

In the control method of an electronic drug for epilepsy treatment that is embedded under the skin to provide electrical stimulation to nerves and can be charged wirelessly,
The electronic medicine for epilepsy treatment capable of wireless charging is
a housing defining an appearance;
an electrical stimulation generator provided inside the housing and generating electrical stimulation provided to nerves;
a battery that supplies power to the electrical stimulation generator and can be repeatedly charged;
a power receiver provided inside the housing, converting a magnetic field generated by an external wireless charger into current and supplying it to the battery; and
The electrical stimulation generating unit
A control method of an e-medication for epilepsy treatment, characterized in that the operation is stopped when wireless charging starts.

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