CN111436931A - Brain electricity biofeedback diagnostic and therapeutic instrument - Google Patents

Abstract

The electroencephalogram biofeedback diagnosis and treatment instrument comprises an electroencephalogram data acquisition system, an electroencephalogram data analysis system and an electroencephalogram treatment system, wherein the electroencephalogram data acquisition system and the electroencephalogram treatment system are connected with the electroencephalogram data analysis system, the electroencephalogram data acquisition system comprises a scalp electrode, an electroencephalogram acquisition module, a low-pass filter and a data acquisition card, the scalp electrode is connected with the electroencephalogram acquisition module, the electroencephalogram acquisition module is connected with the low-pass filter, the low-pass filter is connected with the data acquisition card, the electroencephalogram data analysis system comprises a high-performance computer, a plurality of electroencephalogram databases of encephalopathy diseases are stored in the high-performance computer, and the electroencephalogram treatment system comprises an electromagnetic pulse instrument and a detection and treatment. The therapeutic apparatus integrates diagnosis and treatment, reduces the number of devices, reduces the treatment cost of patients, reduces the workload of operators, and improves the working efficiency of the devices.

Description

Brain electricity biofeedback diagnostic and therapeutic instrument

Technical Field

The invention relates to the field of medical diagnosis and treatment equipment, in particular to an electroencephalogram biofeedback diagnosis and treatment instrument.

Background

EEG biofeedback is a brand new method for relieving physical and psychological discomfort by collecting EEG signals of a subject and displaying the EEG signals in a certain way to train the subject to consciously control own EEG wave mode so as to achieve the aim of relieving physical and psychological discomfort, the brain can continuously generate four rhythm waves, theta, α and β waves, and the human consciousness state is determined by which wave is dominant.

The existing electromagnetic therapeutic apparatus used in the market can not effectively diagnose the user, and the diagnosis and the treatment are carried out separately, so that the number of operating devices is increased, the treatment cost of the patient is increased, and the workload of an operator is increased.

Disclosure of Invention

In order to solve the problems, the invention designs the electroencephalogram biofeedback diagnosis and treatment instrument which integrates diagnosis and treatment, reduces the number of devices, the treatment cost of a patient, the workload of an operator and the working efficiency of the device.

In order to achieve the purpose, the invention is realized by the following technical scheme:

an electroencephalogram biofeedback diagnosis and treatment instrument comprises an electroencephalogram data acquisition system, an electroencephalogram data analysis system and an electroencephalogram treatment system, wherein the electroencephalogram data acquisition system and the electroencephalogram treatment system are connected with the electroencephalogram data analysis system, the electroencephalogram data acquisition system converts acquired electroencephalogram waves into digital signals and transmits the digital signals to the electroencephalogram data analysis system, the electroencephalogram data analysis system matches the input digital signals with an electroencephalogram disease database stored in the electroencephalogram data analysis system, the electroencephalogram data analysis system displays analysis results and simultaneously outputs electromagnetic treatment instructions to the electroencephalogram treatment system, the electroencephalogram treatment system drives an electromagnetic pulse instrument to send out electromagnetic pulses to intervene the electroencephalogram waves after receiving operation and treatment input by the electroencephalogram data analysis system, and the treatment instrument circulates the steps until the electroencephalogram waves acquired by the electroencephalogram data acquisition system are interfered by the electromagnetic pulses are matched with normal electroencephalogram waves in the electroencephalogram disease database of the electroencephalogram data analysis system, at the moment, the electroencephalogram data analysis system outputs a stop instruction to the electroencephalogram treatment system, and the treatment is finished.

The electroencephalogram data acquisition system comprises a scalp electrode, an electroencephalogram acquisition module, a low-pass filter and a data acquisition card, wherein the scalp electrode is connected with the electroencephalogram acquisition module, the electroencephalogram acquisition module is connected with the low-pass filter, and the low-pass filter is connected with the data acquisition card. The brain wave analog signals are input to the low-pass filter and further filtered and denoised by the low-pass filter, and the analog signals are converted into digital signals by the data acquisition card and transmitted to the brain wave data analysis system.

The brain wave data analysis system comprises a high-performance computer, wherein a plurality of brain wave databases of brain diseases are stored in the high-performance computer, the high-performance computer matches brain wave digital signals input into the high-performance computer with the brain wave databases stored in the high-performance computer one by one, when the brain wave data of a certain disease are matched, the high-performance computer displays diagnosis results, and meanwhile, the high-performance computer outputs corresponding driving signals to the brain wave treatment system.

The electroencephalogram treatment system comprises an electromagnetic pulse instrument and a detection treatment helmet, wherein the electromagnetic pulse instrument sends out electromagnetic pulses after receiving a driving signal input by a high-performance computer, an electromagnetic pulse head and a scalp electrode are integrated on a multifunctional probe of the detection treatment helmet, the detection treatment helmet outputs the electromagnetic pulses to a detector, the scalp electrode on the detection treatment helmet continuously transmits brain waves after correction treatment to an electroencephalogram data acquisition system in real time, and the high-performance computer stops detection and treatment of the electroencephalogram treatment system until the brain waves obtained by an electroencephalogram data analysis system are matched with data in a healthy electroencephalogram database, so that a treatment cycle is terminated.

The multifunctional data acquisition therapeutic apparatus is internally provided with a micro-processing chip, the operating button is connected with the micro-processing chip, and the multifunctional data acquisition therapeutic apparatus is connected with a high-performance computer through a data line and carries out data transmission.

The invention has the beneficial effects that: the therapeutic apparatus integrates diagnosis and treatment, reduces the number of devices, reduces the treatment cost of patients, reduces the workload of operators, and improves the working efficiency of the devices.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of the system structure of an electroencephalogram biofeedback diagnosis and treatment instrument;

FIG. 2 is a block diagram of the electroencephalogram data acquisition system;

FIG. 3 is a block diagram of the electroencephalogram data analysis system;

FIG. 4 is a block diagram of the structure of the brain electrical therapy system;

fig. 5 is a structural schematic diagram of the brain electrical biofeedback diagnosis and treatment instrument.

In the drawings, the components represented by the respective reference numerals are listed below:

1-electroencephalogram data acquisition system, 2-electroencephalogram data analysis system, 3-electroencephalogram treatment system, 4-multifunctional data acquisition therapeutic instrument, 11-scalp electrode, 12-electroencephalogram acquisition module, 13-low-pass filter, 14-data acquisition card, 21-high-performance computer, 31-electromagnetic pulse instrument, 32-detection treatment helmet and 33-multifunctional probe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figure 1, the electroencephalogram biofeedback diagnosis and treatment instrument comprises an electroencephalogram data acquisition system 1, an electroencephalogram data analysis system 2 and an electroencephalogram treatment system 3, wherein the electroencephalogram data acquisition system 1 and the electroencephalogram treatment system 3 are connected with the electroencephalogram data analysis system 2, the electroencephalogram data acquisition system 1 converts acquired electroencephalograms into digital signals and transmits the digital signals to the electroencephalogram data analysis system 2, the electroencephalogram data analysis system 2 matches the input digital signals with an electroencephalogram disease database stored in the electroencephalogram data analysis system, the electroencephalogram data analysis system 2 displays analysis results and simultaneously outputs electromagnetic treatment instructions to the electroencephalogram treatment system 3, the electroencephalogram treatment system 3 receives operation treatment input by the electroencephalogram data analysis system and then drives an electromagnetic pulse instrument 31 to emit electromagnetic pulses to intervene the electroencephalograms, and the treatment instrument circulates the steps until the electroencephalogram data acquisition system 2 acquires electroencephalograms interfered by the electromagnetic pulses and the electroencephalogram data analysis system And (3) matching normal brain waves in the brain electrical disease database, outputting a stop instruction to the brain electrical treatment system 3 by the brain electrical data analysis system 2 at the moment, and ending the treatment.

As shown in FIG. 2, the electroencephalogram data acquisition system 1 comprises a scalp electrode 11, an electroencephalogram acquisition module 12, a low-pass filter 13 and a data acquisition card 14, wherein the scalp electrode 11 is connected with the electroencephalogram acquisition module 12, the electroencephalogram acquisition module 12 is connected with the low-pass filter 13, and the low-pass filter 13 is connected with the data acquisition card 14. The scalp electrode 11 converts the brain waves into analog signals, the brain wave acquisition module 12 filters the acquired analog signals to obtain brain wave analog signals through screening, the brain wave analog signals are input into the low-pass filter 13 and are further filtered and denoised by the low-pass filter 13, and the data acquisition card 14 converts the analog signals into digital signals and transmits the digital signals to the brain wave data analysis system 2.

As shown in fig. 3, the electroencephalogram data analysis system 2 includes a high-performance computer 21, a plurality of electroencephalogram databases for encephalopathy are stored in the high-performance computer 21, the high-performance computer 21 matches the electroencephalogram digital signals input therein with the electroencephalogram databases stored therein one by one, when the electroencephalogram data of a certain disease are matched, the high-performance computer 21 displays the diagnosis result, and simultaneously, the high-performance computer 21 outputs a corresponding driving signal to the electroencephalogram treatment system.

As shown in fig. 4, the electroencephalogram treatment system 3 includes an electromagnetic pulse instrument 31 and a detection treatment helmet 32, the electromagnetic pulse instrument 31 sends out an electromagnetic pulse after receiving a driving signal input by the high-performance computer 21, an electromagnetic pulse head and a scalp electrode are integrated on a multifunctional probe 33 of the detection treatment helmet, the detection treatment helmet 32 outputs the electromagnetic pulse to a detector, and the scalp electrode 11 on the detection treatment helmet then continues to transmit a brain wave after correction treatment to the electroencephalogram data acquisition system 1 in real time, until the brain wave obtained by the electroencephalogram data analysis system 2 matches with data in a healthy electroencephalogram database, the high-performance computer 21 stops detection and treatment of the electroencephalogram treatment system, and terminates a treatment cycle.

As shown in fig. 5, the electroencephalogram acquisition module 12, the low-pass filtering module 13, the data acquisition card 14 and the electromagnetic pulse instrument 31 are integrated on the multifunctional data acquisition and treatment instrument 4, a display screen and an operation button are further arranged on a shell of the multifunctional data acquisition and treatment instrument 4, the operation button comprises a pulse intensity adjusting button and a pulse frequency adjusting button, a micro-processing chip is arranged in the multifunctional data acquisition and treatment instrument 4, the operation button is connected with the micro-processing chip, and the multifunctional data acquisition and treatment instrument 4 is connected with the high-performance computer 21 through a data line and performs data transmission. During the treatment process, the operator can adjust the pulse intensity and the pulse frequency according to the clinical experience to achieve better treatment effect.

One specific application of the invention is: the detection and treatment helmet 32 is worn on the head of a patient, the multifunctional probe is tightly attached to the scalp of the patient, the power supply is turned on, the scalp electrode 11 integrated on the multifunctional probe 33 collects the brain waves of the patient in real time and transmits the brain waves to the brain wave collection module 12, the brain wave collection module 12 transmits the collected brain wave analog signals containing noise points to the low-pass filter 13 for filtering and noise reduction, and the filtered and noise-reduced brain waves are transmitted to the data collection card 14 and converted into digital signals. The brain wave digital signals are transmitted to a high-performance computer 21 through data, the high-performance computer performs data matching on the input brain wave digital signals, when the brain wave data of related diseases in a database are matched, the high-performance computer displays the data and can print the data through printing equipment connected with the high-performance computer, after diagnosis is completed, the high-performance computer outputs corresponding treatment driving instructions to the brain wave treatment system 3, an electromagnetic pulse instrument 31 starts and outputs corresponding electromagnetic pulses, and the electromagnetic pulses treat the head of a patient through a multifunctional probe 33 of a detection treatment helmet 32. During the treatment process, the electroencephalogram data acquisition system continues to acquire electroencephalograms and input the electroencephalograms into the high-performance computer 21 until the electroencephalogram data obtained by the high-performance computer 21 are matched with the healthy electroencephalogram data, and the whole treatment cycle is terminated.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. An electroencephalogram biofeedback diagnosis and treatment instrument is characterized in that: the brain wave interference therapeutic instrument comprises an electroencephalogram data acquisition system, an electroencephalogram data analysis system and an electroencephalogram treatment system, wherein the electroencephalogram data acquisition system and the electroencephalogram treatment system are connected with the electroencephalogram data analysis system, the electroencephalogram data acquisition system converts acquired brain waves into digital signals and transmits the digital signals to the electroencephalogram data analysis system, the electroencephalogram data analysis system matches the input digital signals with an electroencephalogram disease database stored in the electroencephalogram data analysis system, the electroencephalogram data analysis system displays analysis results and simultaneously outputs electromagnetic treatment instructions to the electroencephalogram treatment system, the electroencephalogram treatment system drives an electromagnetic pulse instrument to emit electromagnetic pulses to intervene the brain waves after receiving operation and treatment input by the electroencephalogram data analysis system, and the therapeutic instrument circulates the steps until the brain waves acquired by the electroencephalogram data acquisition system after the electromagnetic pulse interference are matched with the normal brain waves in the electroencephalogram disease database of the electroencephalogram data analysis system, at the moment, the electroencephalogram data analysis system outputs a stop instruction to the electroencephalogram treatment system, and the treatment is finished.

2. The therapeutic apparatus according to claim 1, wherein the electroencephalogram data acquisition system comprises a scalp electrode, an electroencephalogram acquisition module, a low-pass filter and a data acquisition card, the scalp electrode is connected with the electroencephalogram acquisition module, the electroencephalogram acquisition module is connected with the low-pass filter, and the low-pass filter is connected with the data acquisition card. The brain wave analog signals are input to the low-pass filter and further filtered and denoised by the low-pass filter, and the analog signals are converted into digital signals by the data acquisition card and transmitted to the brain wave data analysis system.

3. The therapeutic apparatus according to claim 2, wherein said electroencephalogram data analysis system comprises a high-performance computer, said high-performance computer stores several electroencephalogram databases for encephalopathy, said high-performance computer matches the electroencephalogram digital signals inputted therein with the electroencephalogram databases stored therein one by one, when the same electroencephalogram data for a certain disease are matched, said high-performance computer displays the diagnosis result, and at the same time, said high-performance computer outputs the corresponding driving signal to the electroencephalogram treatment system.

4. The therapeutic apparatus according to claim 3, wherein the electroencephalogram treatment system comprises an electromagnetic pulser and a detection treatment helmet, the electromagnetic pulser sends out electromagnetic pulses after receiving the driving signal input by the high-performance computer, the electromagnetic pulser head and the scalp electrode are integrated on the multifunctional probe of the detection treatment helmet, the detection treatment helmet outputs the electromagnetic pulses to the examiner, the scalp electrode on the detection treatment helmet then continues to transmit the brain waves after correction treatment to the electroencephalogram data acquisition system in real time, and the high-performance computer stops the detection and treatment of the electroencephalogram treatment system until the brain waves obtained by the electroencephalogram data analysis system are matched with the data in the healthy electroencephalogram database, and the treatment cycle is terminated.

5. The therapeutic apparatus according to claim 4, wherein the electroencephalogram acquisition module, the low-pass filtering module, the data acquisition card and the electromagnetic pulse instrument are arranged on the multifunctional data acquisition therapeutic apparatus, the shell of the multifunctional data acquisition therapeutic apparatus is further provided with a display screen and an operating button, the operating button comprises a pulse intensity adjusting button and a pulse frequency adjusting button, a micro-processing chip is arranged in the multifunctional data acquisition therapeutic apparatus, the operating button is connected with the micro-processing chip, and the multifunctional data acquisition therapeutic apparatus is connected with a high-performance computer through a data line and performs data transmission.

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