KR20130104948A - Method of micro current for therapy of urinary incontinence and dysmenorrhea - Google Patents

Abstract

PURPOSE: A microcurrent control method for the treatment of urinary incontinence and menorrhalgia is provided to reduce inconvenience according to the treatment of urinary incontinence or menorrhalgia by adjusting microcurrent which flows into a site related with the treatment through wireless. CONSTITUTION: A microcurrent control method for the treatment of urinary incontinence and menorrhalgia comprises following steps. Microcurrent flows into a site related with treatment by generating the microcurrent. The change of biological activity according to stimulation by the microcurrent is sensed. The sensed change is converted into data which is transmitted in an electric signal, and the data is transmitted to a wireless controller. In the wireless controller, the processing availability of the transmitted data is determined by operating a related application. According to the process result of the data, a control condition about the microcurrent flowing to the region of a human body is set. The control condition about the microcurrent and the generation of the microcurrent are controlled by wireless telecommunication and the microcurrent flows by an electrode which is contacted with the region of a human body.

Description

Microcurrent Control Method for the Treatment of Urinary Incontinence and Menstrual Pain {Method of Micro Current for Therapy of Urinary Incontinence and Dysmenorrhea}

The present invention relates to a microcurrent control method for the treatment of urinary incontinence and dysmenorrhea, and in particular, to control the microcurrent flowing through a specific part of the human body remotely for the treatment of urinary incontinence and dysmenorrhea The present invention relates to a microcurrent control method that senses and adjusts microcurrent parameters to treat urinary incontinence and dysmenorrhea.

In general, urinary incontinence refers to the occurrence of urinary abnormalities in which urine is discharged regardless of one's will, and does not pose a threat to life itself, such as a tumor or other wasting disease, but may cause discomfort and cause mental disorders. Say it can be a disease. Menstrual pain is a common gynecological symptom among women of childbearing age. It can be divided into primary dysmenorrhea with periodic menstrual pain without any special signs in the pelvis and secondary dysmenorrhea associated with pathological changes in the pelvis.

Urinary incontinence can be treated by methods such as drug therapy, bladder training, pelvic floor muscle exercise or surgical therapy, depending on the cause, painkillers, hormonal therapy, acupuncture, percutaneous electric nerve stimulation therapy or pathological therapy for dysmenorrhea. Alternatively, surgical tools may be used to treat urinary incontinence or dysmenorrhea.

Prior art related to the treatment of urinary incontinence is disclosed in Patent Publication No. 2004-0108435 'Remote control type electrical stimulator for urinary incontinence treatment'. The prior art includes a vaginal insertion electrode assembly having a long cylindrical body having a pair of electrodes formed on an outer circumferential surface thereof, and a remote controller for controlling the electrode assembly, wherein the electrode assembly controls an electrical stimulation signal applied to the human body through the electrode. A microprocessor for generating a control signal, a stimulus signal generating means for generating an electrical stimulation signal according to the control signal of the microprocessor, and the battery for supplying power to the microprocessor and the stimulus signal generating means. It is provided therein and the remote control discloses an electric stimulator, characterized in that for remotely controlling the operation of the electrode assembly by transmitting a user input to the electrode assembly.

Another prior art associated with urinary incontinence treatment is International Publication No. WO 2002/26160 'Urinary Incontinence Devices and Methods for Manufacturing the Same'. The prior art requires the urinary incontinence device to be user friendly and able to be handled by consumers without the need for a medical professional while meeting the need for an effective over-the-counter urinary incontinence device, taking into account the general disadvantages of nonprescription incontinence devices. It is proposed to satisfy. In order to meet this demand, the prior art comprises a resilient member having a general trapezoid, and a nonabsorbable core structure having a first end and a second end, wherein the core structure has a first end and a second end substantially different from each other. The core structure is folded by itself so as to align in parallel to form a common M-shaped profile, including two or more folds therebetween, and the two or more folds at first and second ends adjacent to the first end. Disclosed is an incontinence treatment device comprising an adjoining second fold, wherein the elastic member is in contact with the core structure and positioned between the first fold and the second fold.

Disclosed is a urinary incontinence device which is remotely treated in the prior art or known urinary incontinence treatment device and can be treated without a separate prescription, but discloses a method of treating a stimulus caused by microcurrent based on a change in physical activity accordingly. Not doing

The present invention is to propose a new method of treatment that is not presented in the prior art has the following object.

An object of the present invention is to provide a microcurrent control method for the treatment of urinary incontinence and dysmenorrhea that can control the microcurrent flow to the site associated with the treatment of urinary incontinence and dysmenorrhea by wireless remote control.

It is another object of the present invention to provide a microcurrent control method for treating urinary incontinence and dysmenorrhea, which can detect changes in biological activity from stimulation caused by microcurrents, convert them into data forms, and process the data to be applied to biofeedback therapy. It is.

According to a preferred embodiment of the present invention, the microcurrent control method for the treatment of urinary incontinence and dysmenorrhea comprises generating a microcurrent to flow to the human body associated with the treatment, detecting a change in the biological activity caused by the microcurrent stimulation Converting the detected change into data that can be transmitted as an electrical signal and transmitting the data to a wireless control device; driving a related application in the wireless control device to determine whether the transmitted data can be processed; and according to a result of processing the data Setting a control condition for the microcurrent flowing to the site, wherein the generation of the microcurrent and the control condition for the microcurrent are controlled remotely by wireless communication and the microcurrent is flowed by an electrode in contact with the human body site. do.

According to another suitable embodiment of the invention, the radio control device comprises a mobile phone capable of communicating with a remote server.

According to another suitable embodiment of the invention, the electrode in contact with the human body part comprises a cognitive electrode.

According to another suitable embodiment of the present invention, the electrode in contact with the human body part is an area contact electrode.

The microcurrent control method according to the present invention has an advantage that the discomfort associated with treating urinary incontinence or dysmenorrhea can be reduced by controlling the microcurrent flowing to the treatment-related site remotely via wireless. In addition, the control method according to the present invention can increase the therapeutic effect of the microcurrent by detecting changes in the biological activity generated by the stimulation caused by the microcurrent to utilize the professional treatment-related data located elsewhere in the region. Has the advantage of In addition, the control method according to the present invention has the advantage of enabling self-treatment by using a mobile phone, while allowing professional data or treatment by an expert if necessary.

1 schematically illustrates a process of transferring data between an apparatus or a system for applying the method according to the present invention.
Figure 2a illustrates an embodiment of a microcurrent generator and a wireless control device that can be applied to the method according to the present invention.
Figure 2b shows an embodiment of a terminal group that can be applied to the microcurrent generator according to the present invention.
Figure 3 schematically shows a treatment process by the microcurrent control method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Microcurrent control method for the treatment of urinary incontinence and dysmenorrhea according to the present invention is to generate a microcurrent to flow to the human body associated with the treatment, detecting the change in the biological activity according to the stimulation caused by the microcurrent, the detected change Converting the data into an electrical signal and transmitting the data to a wireless control device; driving a related application in the wireless control device to determine whether the transmitted data can be processed; and a microcurrent flowing in the human body according to the processing result of the data And setting a control condition for the microcurrent, wherein the generation of the microcurrent and the control condition for the microcurrent are controlled remotely by wireless communication, and the microcurrent flows by an electrode contacting a human body part. .

Hereinafter, a system or apparatus for such a method will be described in detail.

1 schematically illustrates a process of transferring data between an apparatus or a system for applying the method according to the present invention.

Referring to FIG. 1, the microcurrent generator 11 should be prepared for the treatment of urinary incontinence or menstrual pain. The microcurrent generator 11 may include a microcurrent module 111 and a control module 112. The microcurrent module 111 generates a microcurrent under the control of the control module 112 and flows through the human body. The microcurrent module 111 may be comprised of, for example, a power supply and an electrode, and the control module 112 may include a communication chip and a microprocessor.

The operation of the microcurrent generator 11 can be controlled by the radio controller 12. The wireless control device 12 may communicate wirelessly with the control module 112 and may include, for example, a device such as a remote controller. In addition, the wireless control device 12 may be capable of data communication with the control module 112. For example, the control module 112 and the wireless control device 12 may have a Bluetooth function. Such data communication is required for the transmission and reception of data related to human physiological activity in the microcurrent generator 11. For example, a sensor may be installed in the microcurrent generator 11 to detect changes in human physiology or biological activity due to stimulation of the microcurrent. The detected value may be transmitted to the radio controller 12. The wireless control device 12 may be a remote control device of various types and may include a mobile phone such as a smart phone. When the wireless control device 12 includes a mobile phone, an application program related to urinary incontinence or menstrual pain treatment may be installed in the wireless control device 12. Such a program may include treatment and self-diagnosis and may have the ability to communicate with a remote server. Specifically, when the human body activity is detected by the stimulation of the microcurrent generated by the microcurrent generator 11 and transmitted to the wireless control device 12, the application program is driven to perform self-diagnosis, and accordingly the appropriate microcurrent The control method of can be determined. If it is difficult to accurately diagnose the detected symptom in the application program, the radio controller 12 may access the remote server 13. The remote server 13 may be, for example, a database storing data related to urinary incontinence or menstrual pain symptoms. When data on the symptoms detected by the remote server 13 are obtained and the microcurrent control method is determined accordingly, the wireless controller 12 sets the parameters required for the microcurrent control to set the microcurrent generator 11. ) Can be controlled. On the other hand, the radio control device 12 may transmit the data related to the symptoms to the urinary incontinence or dysmenorrhea treatment institution 14. The specialized treatment organization 14 may diagnose the symptoms for the therapist based on the data transmitted through the remote server 13 and store the records associated with the therapist in the diagnostic server 15. If necessary, the specialized treatment institution 14 may diagnose the symptoms of the therapist using the diagnosis server 15. If necessary, a treatment method according to the specialized treatment institution 14 may be transmitted to the wireless control device 12, and the wireless control device 12 may set the parameters for microcurrent control accordingly, thereby setting the microcurrent generator 11. Can be controlled. Such a method of controlling the microcurrent according to the present invention is effective in preventing or treating urinary incontinence by detecting a stimulus caused by the microcurrent and performing a self-diagnosis or a diagnosis through the help of an external specialized institution, and controlling the microcurrent accordingly. Make it happen.

Hereinafter, a microcurrent generator and a wireless control apparatus which can be applied to the method according to the present invention will be described.

Figure 2a illustrates an embodiment of a microcurrent generator and a wireless control device that can be applied to the method according to the present invention.

Referring to FIG. 2A, the microcurrent generator 21 includes an accommodating housing H, a terminal group 21a and 21b for allowing a microcurrent to flow between two portions of a human body accommodated and contacted inside the accommodating housing. Current control device 22 for controlling the flow of microcurrent through 21a, 21b, Wireless communication chip 23 for transmitting or receiving input and output for control of current control device 22, Generation of microcurrent And a wireless control device 25 capable of communicating with a power supply 24 and a wireless communication chip 23 for the control, and the microcurrent flowing through the terminal groups 21a and 21a can be controlled by the wireless control device 25. have.

In the present specification, the microcurrent refers to a current of a size of less than 1000 mA that is known to generate a beneficial stimulus for physiological activity when flowing in the human body, and for example, 40 to 60 mA also flows for signal transmission between each organ inside the human body. Corresponds to microcurrent. However, in the present specification, the microcurrent refers to a current flowing through the human body in a form that is controllable by a power supply device such as a battery capable of generating electric power, thereby generating a beneficial effect on physiological activity in the human body.

The accommodating housing H may have a material and a shape that can be inserted into the vagina of a woman and have a hollow structure in which a necessary device can be accommodated. The material and shape of the accommodating housing H can have any shape that is medically acceptable and the invention is not so limited.

The terminal groups 21a and 21b may be installed in the accommodating housing H while being in contact with the human body. Specifically, the terminal groups 21a and 21b are inflow groups 21a for contacting a certain part of the human body to allow the micro current to flow into and outflow groups 21b for contacting other parts of the human body to allow the microcurrent to flow out of the human body. Can be done. Terminal groups 21a and 21b may include area contact terminals and are described again below.

The current control device 22 has a function of controlling the flow of microcurrent flowing through the human body from the terminal groups 21a and 21b. For example, it is possible to control the magnitude of the microcurrent flowing through the terminal groups 21a and 21b and to control the current to flow through a specific terminal among a plurality of terminals forming the terminal groups 21a and 21b as described below. have. In addition, the current control device 22 may establish a connection between a plurality of terminals belonging to the terminal groups 21a and 21b by using a program or a device such as a relay. In addition, the current control device 22 may allow the microcurrent to periodically flow through the specific terminal and measure the response of the biological activity accordingly. Control of the current control device 22 can be made by the wireless communication chip 23.

The wireless communication chip 23 may include a processing device such as, for example, a microprocessor and may include a device for control of an electrical signal. In addition, the wireless communication chip 23 may include a device capable of transmitting and receiving with the wireless communication chip 23 to control the function of the current control device 22. In addition, the wireless communication chip 23 may include a device capable of receiving and processing data from the sensor when a device such as a temperature sensor is installed in the accommodating housing H. The wireless communication chip 23 may also include, for example, a device capable of communicating with a Bluetooth or mobile phone. Specifically, the wireless communication chip 23 may include a device for controlling the microcurrent generator 21 and a device capable of remotely controlling the microcurrent generator 10 by communicating with an external device.

The power required by the current control device 22 and the wireless communication chip 23 can be supplied from a power source 24 and the power source 24 can be a device such as a battery, for example. The power source 24 may be in any form known in the art and may be a rechargeable battery as needed.

Microcurrent generator 21 should have a structure that can be inserted into the vagina of the woman and should be able to be removed if not used. The removal string C may be formed to remove the microcurrent generator 21. The removal string C may be installed at an appropriate position of the receiving housing H and a fixed tail T may be formed at the end as necessary. The fixed tail T can be, for example, but not limited to tape or bulk tape, which can be secured to the body or clothing.

The receiving housing H may be made of a suitable material which does not have a deleterious effect when inserted into the vagina of a woman and may be made of an appropriate size. In addition, the terminal groups 21a and 21b need to be arranged to be in contact with the body when the housing H is inserted into the vagina of the female. In addition, the current control device 22 and the wireless communication chip 23 disposed at appropriate positions inside the accommodation housing H may be controlled by the wireless control device 25.

The wireless control device 25 may be a device such as a remote controller, for example, and may communicate with the wireless communication chip 23 including a Bluetooth chip or a chip capable of short-range wireless communication, if necessary. Commands necessary for the operation of the current control device 22 may be transmitted to the wireless communication chip 23 through the wireless control device 25. The wireless control device 25 may include, for example, an on / off switch 251 and a communication control device 252, and the communication control device 252 may display a status display window 252 indicating whether it is in operation or the strength of the current. , The intensity control button 254 and a transmission and reception control button 253 may be included. The radio controller 25 may include a communication chip, and may include a chip capable of communicating with a device capable of data transmission and processing, such as a mobile phone, as necessary. For example, data related to the temperature of the stimulus site from the microcurrent generator 25 may be transmitted to the radio controller 25 and the transmitted data may be processed directly at the radio controller 25 or to a device such as a mobile phone. May be retransmitted. In the present specification, the wireless control device 25 transmits an electrical signal to the wireless communication chip 23 to control the current control device 22, and can receive data transmitted from the wireless communication chip 23 as necessary. It can be a device of a mobile phone, for example a smart phone. The following describes the mobile phone separately for convenience of understanding.

From the wireless communication chip 23, data related to the body activity response according to the stimulation of the microcurrent may be transmitted to the wireless control device 25 or directly to the mobile phone 26. When data is transmitted to the radio controller 25, the relevant data may be processed directly or transmitted to the mobile phone 26.

As shown in FIG. 2A, the mobile phone 26 may include buttons 262 and 263 related to control of the wireless control device 25 or the wireless communication chip 23 in addition to the basic operation buttons. However, such buttons 262 and 263 may be processed by a program. Specifically, the buttons 262 and 263 associated with the radio control device 25 or the communication control chip 23 are displayed on the screen of the mobile phone 26 and the associated buttons (by actuating the predetermined buttons of the mobile phone 26). 262, 263 may be enabled.

The mobile phone 26 may be, for example, a cellular phone or a smart phone, but is not limited thereto and may be any communication device capable of connecting to a communication means such as the Internet by wireless communication.

In the microcurrent generator according to the invention the mobile phone 26 can be used to access external relevant data or to connect to a remote server. If necessary, the wireless communication chip 23 may be directly controlled by the mobile phone 26. A connection means such as a dongle 261 may be installed in the mobile phone 26 to communicate with the wireless communication chip 23 or the wireless control device 25. The dongle 261 may be a Bluetooth dongle supporting a Bluetooth function.

When the microcurrent flows through the human body through the terminal groups 21a and 21b, the physiological activity of the human body or the human state of the stimulation site may be changed. For example, the temperature at the stimulation site may rise or hormone secretion may increase. Such a change can be detected by a suitable sensor installed in the receiving housing H and transmitted to the wireless control device 25 or to the mobile phone 26 via the wireless communication chip 23. When transmitted to the wireless communication chip 23, the relevant data may be processed directly or sent back to the mobile phone 26. Mobile phone 26 can directly process the relevant data again or send it to another remote server. Specifically, an application program associated with a symptom or treatment of urinary incontinence or menstrual cramps may be installed in the mobile phone 26, and the application program may be driven based on data transmitted from the wireless communication chip 23 or the wireless control device 25. Alternatively, the treatment method can be identified. If the help of an external expert or specialized material is needed in the processing of the transmitted data, the relevant data may be transmitted from the mobile phone 26 to the remote server through wireless communication. If the relevant data is processed directly in the mobile phone 26 or through a remote server, the control method of the current generated in the microcurrent device 22 may be determined. And the necessary command may be transmitted from the mobile phone 26 to the wireless communication chip 23 or via the wireless control device 25 to the wireless communication chip 23. As described above, when the mobile phone 35 is used, the response of the human body due to the stimulation of the microcurrent becomes a feedback signal, thereby enabling the treatment for biofeedback. Biofeedback therapy refers to the manipulation of measuring and transmitting physiological activities, such as reactions representing the state of the living body, and converting such activities into easy-to-understand information, which are then converted into stimulus information such as nerves or physiological conditions of the living body and delivered to the living body. Through the treatment method. According to the present invention, by measuring the unique response occurring in the human body under the control of the microcurrent, for example, using the relevant data stored in the mobile phone 26 or a remote server, the microcurrent device 22 is controlled again accordingly. You can do it. As such, by controlling the microcurrent device 22 by using the response according to the stimulation of the microcurrent as a feedback signal, the effect of treating urinary incontinence or dysmenorrhea according to the present invention can be enhanced.

Hereinafter, an embodiment of a terminal group for flowing a microcurrent to a human body will be described.

Figure 2b shows an embodiment of a terminal group that can be applied to the microcurrent generator according to the present invention.

Referring to FIG. 2B, the terminal group may include an inflow group 21a through which the microcurrent flows into the human body and an outflow group 21b through which the microcurrent flows out of the human body. The inlet group 21a may consist of a plurality of terminal units U1a, U1b, U1c, U1d, U1e and the outlet group 21b may likewise consist of a plurality of terminal units U2a, U2b, U2c. Each terminal unit U1a, U1b, U1c, U1d, U1e, U2a, U2b may be installed in the bases B1, B2 or may be installed in an independent form.

Each terminal unit U1a, U1b, U1c, U1d, U1e, U2a, U2b, U2c may be in area contact with the human body. In the present specification, the area contact may be determined based on a part contacting the human body as opposed to a point or line contact. In order to form an area contact structure, each unit may be made in a polygon or a circle, and the cross-sectional area of the terminal capable of contacting the human body is sufficiently larger than the cross-sectional area of the conductive wire through which an electric current flows in or out. In this case, but is not limited thereto. The area contact structure has the advantage that the microcurrent can flow through a wide area or a specific path of the human body while allowing the microcurrent to easily flow into a specific site, for example.

Each terminal unit (U1a, U1b, U1c, U1d, U1e, U2a, U2b, U2c) can be in contact with the human body on an area basis, thereby allowing a microcurrent to flow in a large portion of the human body. At the same time, it is possible to easily control the size of the microcurrent flowing through the human body and allow the microcurrent to flow at regular intervals. Each terminal unit (U1a, U1b, U1c, U1d, U1e, U2a, U2b, U2c) is optionally connected to the current controller 22 so that the corresponding terminal units U1a, U1b, U1c, U1d, U1e, U2a, Only fine current flows through U2b and U2c). The relay connection or switching to the corresponding terminal units U1a, U1b, U1c, U1d, U1e, U2a, U2b, U2c can be controlled by the microcontroller and, for example, in an automated manner by a program by the microcontroller. Switching for each terminal connection can be controlled. Flowing microcurrent through the human body via selective terminal connection by means of a connection relay or switching has the advantage of controlling the period of the microcurrent to a specific part of the human body.

As shown in FIG. 2B, the terminal groups 21a and 21b according to the present invention may include recognition terminals 29a and 29b. If the microcurrent flowing through the human body is small, the flow of the microcurrent may not be recognized by the user due to repetitive stimulation or for other causes. Therefore, it is necessary to recognize the flow of the microcurrent to the user at regular intervals, and for this purpose, the recognition terminals 29a and 29b may be installed. The current flowing through the acknowledgment terminals 29a and 29b can be made to flow at a sufficiently large and constant period compared to the terminal units U1a, U1b, U1c, U1d, U1e, U2a, U2b, and U2c. The flow of the microcurrent through the recognition terminals 29a and 29b may be controlled by the current control device 22 or the wireless control device described above. The acknowledgment terminals 29a and 29b are not necessarily installed, and any one selected from the terminal units U1a, U1b, U1c, U1d, U1e, U2a, U2b, and U2c may have a function of the acknowledgment terminal in the operation process. have.

According to the present invention, the microcurrent flowing through the terminal groups 21a and 21b may be controlled in size and may be controlled in time. Hereinafter, an embodiment in which the flow of the microcurrent is controlled will be described.

FIG. 2C illustrates an embodiment of the shape of the microcurrent flowing through the terminal groups 21a and 21b according to the present invention.

2A and 2B illustrate an embodiment of the shape of the microcurrent flowing through the terminal groups 21a and 21b and the recognition terminals 29a and 29b, respectively. In the graph shown, the horizontal axis T represents time and the vertical axis C represents the magnitude of the microcurrent.

Referring to (a) of FIG. 2C, a minute current of a certain magnitude may flow at a time interval and a recognition current P may flow at a predetermined period. On the other hand, referring to FIG. 2C (b), a negative current may flow as needed. Various types of microcurrents can be controlled to flow through the human body and the embodiments shown are exemplary. Also, different types of microcurrents can be controlled to flow through each terminal unit, and as described above, the terminal unit can be selectively determined.

Hereinafter, a treatment process by the microcurrent control method according to the present invention will be described.

Figure 3 schematically shows a treatment process by the microcurrent control method according to the present invention.

Referring to FIG. 3, a microcurrent generator for the treatment of urinary incontinence or dysmenorrhea may be inserted into the vagina of a woman and a microcurrent may be generated by a wireless control device to stimulate the corresponding site to perform treatment (P31). The sensor installed in the microcurrent generator detects a change in bioactivity according to the microcurrent stimulus (P32) and may be transmitted to the wireless control device or the mobile phone (P33). Changes in biological activity can be, for example, changes in body temperature, changes in hormone secretion, or increase or decrease of certain components. In response to continuous treatment over a period of time, such a change in biological activity may be detected or such a state may be transmitted to a mobile phone to diagnose a symptom. In the process of diagnosing a symptom (P34) of incontinence or menstrual pain related applications installed in the mobile phone, if a proper diagnosis is made (YES), a treatment method may be determined. Depending on the method of treatment, things like microcurrent size, stimulation cycle and number of treatments can be determined again (P38). The urinary incontinence or dysmenorrhea can be effectively treated through this process. On the other hand, if it is determined that the diagnosis cannot be made by an application installed in the mobile phone (NO), the mobile phone may transmit related data to the remote server (P35). The remote server may be, for example, a database storing specialized data related to urinary incontinence or dysmenorrhea. Symptoms and treatment methods associated with data transmitted from the remote server may be retrieved and it may be determined whether there is an appropriate treatment method for the symptoms (P36). If an appropriate treatment method is searched (YES), the symptom and treatment related to the data can be transmitted back to the mobile phone and the microcurrent can be controlled accordingly (P38). On the other hand, if an appropriate treatment method is not searched (NO), relevant data can be sent to a hospital, such as a hospital, and a diagnosis or treatment by a specialist can be made if necessary. Such transmitted data can be stored in a database, such as a patient archive in a hospital, and can be used for further medical care. In addition, if a treatment method is determined according to the findings of a specialist, it may be transmitted to a remote server again to determine an appropriate microcurrent control method (P37). For example, microcurrent generation conditions may be reset (P37) or other treatment methods may be determined, such as visiting a hospital or prescribing medication.

As described above, the microcurrent control method according to the present invention detects individual body changes caused by the stimulation of microcurrents, uses specialized materials related to urinary incontinence or dysmenorrhea, and accordingly, microcurrents are controlled to enable proper treatment.

The microcurrent control method according to the present invention has an advantage that the discomfort associated with treating urinary incontinence or dysmenorrhea can be reduced by controlling the microcurrent flowing to the treatment-related site remotely via wireless. In addition, the control method according to the present invention can increase the therapeutic effect of the microcurrent by detecting changes in the biological activity generated by the stimulation caused by the microcurrent to utilize the professional treatment-related data located elsewhere in the region. Has the advantage of In addition, the control method according to the present invention has the advantage of enabling self-treatment by using a mobile phone, while allowing professional data or treatment by an expert if necessary.

Although described in detail above with reference to the embodiments of the present invention, those skilled in the art will be able to make various modifications and modifications to the invention without departing from the spirit of the present invention with reference to the embodiments presented. . The invention is not limited by these variations and modifications, but is only limited by the scope of the appended claims.

11: microcurrent generator 12: radio controller
13: Remote Server 14: Specialist Institutions
15: Diagnostic Server
21: microcurrent generator 21a, 21b: terminal group
22: current control device 23: wireless communication chip
24: power source 25: radio control unit
26: mobile phone 29a, 29b: acknowledgment terminal
29a, 29b: acknowledgment terminal
111: microcurrent module 112: control module
251: on / off switch 252: communication control device
253: transmit / receive control button 254: intensity control button
261: dongle 262, 263: button
U1a, U1b, U1c, U1d, U1e, U2a, U2b, U2c: Terminal Unit
H: housing C: removal string
T: fixed tail

Claims (4)

In the microcurrent control method for the treatment of urinary incontinence and dysmenorrhea,
Generating a microcurrent to flow in the body part associated with the treatment;
Detecting a change in biological activity according to a stimulus caused by a microcurrent;
Converting the detected change into data transmittable as an electrical signal and transmitting the converted change to a wireless control apparatus;
Determining whether the transmitted data can be processed by driving a related application in a wireless control apparatus; And
Setting a control condition for the microcurrent flowing in the human body part according to the processing result of the data;
The generation of the microcurrent and the control conditions for the microcurrent is controlled remotely by wireless communication, and the microcurrent is characterized in that the microcurrent flows by the electrode in contact with the human body part. The method of claim 1, wherein the wireless control device comprises a mobile phone capable of communicating with a remote server. The method of claim 1, wherein the electrode in contact with the human body part includes a recognition electrode.  The microcurrent control method according to claim 1, wherein the electrode in contact with the human body part is an area contact electrode.

Images