CN111407286A - Tinnitus diagnosis and treatment system of multi-channel waveform composite brain wave combined acoustic stimulation - Google Patents

Abstract

The invention discloses a tinnitus diagnosis and treatment system of multi-channel waveform composite brain wave combined acoustic stimulation, which comprises: the customer file module and the tinnitus diagnosis module respectively modulate the multichannel waveform composite brain wave modulation of the left ear and the right ear and the combined audio tone signal of the multichannel background audio or form a diagnosis prescription for outputting; the tinnitus treatment module is used for generating audio tone signals for the input left and right ear diagnosis prescriptions to be output to a patient for treatment and carrying out fine adjustment treatment through interaction with the patient; a server and a mobile terminal treatment module. The tinnitus diagnosis and treatment system of the multi-channel waveform composite brain wave combined acoustic stimulation can interactively modulate millions of tinnitus audio signals separately from the left ear and the right ear or simultaneously modulate the two ears, and form an individualized and precise tinnitus treatment prescription.

Description

Tinnitus diagnosis and treatment system of multi-channel waveform composite brain wave combined acoustic stimulation

Technical Field

The invention relates to the field of hearing medical treatment, in particular to a system with tinnitus diagnosis and treatment functions.

Background

Tinnitus is the result of different pathological changes of many diseases affecting the auditory system, the etiology is complex, the mechanism is unclear, and the tinnitus is mainly characterized by no corresponding external sound source or electric stimulation, and subjectively, sound sensation is in the ear or in the cranium, namely subjective tinnitus. The etiology of tinnitus is complex, no specific medicine for treating tinnitus exists at present, and doctors of tinnitus patients can also assist with the medicine. Therefore, for the majority of tinnitus patients of unknown cause, some tinnitus devices may be diagnosed and treated to mitigate the effects of tinnitus or tinnitus on the life of the patient.

The current diagnosis of tinnitus devices for tinnitus patients is matched with pure tone or narrow band noise, primarily identifying the center tone of the tinnitus. If tinnitus is complex, accurate diagnosis is difficult. Loudness matching of the tinnitus is then performed and the patient is subjected to masking tests to determine whether the patient's tinnitus can be masked by pure tone or narrow band noise and to determine the sound and intensity required to completely mask the tinnitus.

The existing tinnitus patient treatment prescription mainly comprises tinnitus masking, tinnitus habituation and sound stimulation physical therapy, utilizes external sound stimulation to inhibit spontaneous excitation and enhancement activities of cochlea or auditory nerve, and mainly reduces the excitability of brain nerves and increases central inhibition of a patient through retraining or coding of the nervous system of the patient, so that vicious circle of tinnitus and bad emotion is cut off, and the aim of relieving tinnitus symptoms is fulfilled. The subjective tinnitus sound found in clinical practice is strange and varies from person to person, and may be humming, ringing, rumbling, whistling, hissing or include more complex sounds, even varying with time and place weather. Therefore, the key point for improving the efficiency of tinnitus physical therapy is the need of individualized and precise waveform modulation, multi-channel integration of brain wave combination stimulation scheme and application prescription.

The existing physical tinnitus treatment equipment has single function, only has pure sound, noise, sing sound and narrow-band noise, cannot accurately relieve β waves, and is poor in effect.

Disclosure of Invention

The invention mainly solves the technical problem of providing a tinnitus diagnosis and treatment system, which can be used for diagnosing and treating tinnitus by using a personalized accurate combination prescription formed by independently generating multi-channel waveform composite brain wave signals and waveform modulation composite multi-channel background sounds by the left ear, the right ear and the double ears.

In order to solve the problems, the invention adopts the technical scheme that: providing a tinnitus diagnosis and treatment hardware platform, wherein a software system comprises a customer file module, a tinnitus diagnosis module, a tinnitus treatment module, a server side and a mobile side treatment module;

the tinnitus diagnosis and treatment hardware platform is a carrier of a software system and is used for operating a customer file module, a tinnitus diagnosis module and a tinnitus treatment module;

the customer file module is used for storing patient files, diagnosis and treatment records, cases and treatment records;

the tinnitus diagnosis module modulates the left ear multichannel waveform composite brain wave, the combined audio signal of the multichannel background audio, the right ear multichannel waveform composite brain wave, the combined audio tone signal of the multichannel background audio or the binaural synchronization respectively and forms a diagnosis prescription to output to the tinnitus treatment module;

the tinnitus treatment module generates an audio tone signal by a combined diagnosis prescription of input left and right ear multichannel waveform composite brain waves and multichannel background audio, outputs the audio tone signal to an earphone for treating a patient, further optimizes double ears of the patient through interaction with the patient, particularly senses and adapts to a sound forming stimulation signal compounded by the brain waves, and finally determines to form an audio signal file to be uploaded to a server tinnitus signal library and store a local tinnitus prescription so as to be used by a mobile end treatment module after balance and adaptation nerve regulation;

the server side stores patient files and manages various audio signal libraries, updates interactive data in real time, and starts data interaction between the hardware platform and the mobile terminal treatment module;

the mobile terminal treatment module regulates the output of an audio file generated by a combined diagnosis prescription for managing the multi-channel waveform composite brain waves of the left ear and the right ear and the background sound to treat patients, and integrates a general brain wave file, a meditation file, a multi-diagnosis file, clock setting, course training, remote diagnosis and treatment and management of patient self-diagnosis and treatment files.

In a preferred embodiment of the present invention, the tinnitus diagnosis and treatment hardware platform includes a mobile terminal, a cloud server, a desktop computer, a laptop computer, and a tablet computer with an audio output port or a USB interface. The preset accessible software includes electronic but is not limited to otoscope software, hearing test software, tinnitus diagnosis and treatment software, hearing aid fitting software, multi-channel sound source positioning system, hearing aid analysis system and other compatible software.

In a preferred embodiment of the present invention, the preset waveform signal is pre-divided for each channel of the left ear and the right ear of the multi-channel waveform in the tinnitus diagnosis module, and the preset waveform signal includes but is not limited to waveform-related waveform signals such as sine wave, square wave, rectangular wave, triangular wave and sawtooth wave, step wave, pulse wave, noise wave, complex wave, linear wave, shock wave, etc. Each preset audio signal includes, but is not limited to, pure tone, impulse pure tone, sing tone, impulse sing tone, narrow band noise, width noise, colored noise, recorded audio signal. Each channel is preset with a signal frequency range and an amplitude range. The predetermined frequency range includes, but is not limited to, from 20HZ to 20000HZ and the predetermined amplitude range includes, but is not limited to, 0 to 120 dB.

In a preferred embodiment of the present invention, the multichannel waveform composite brain waves in the tinnitus diagnosis module include, but are not limited to, combinations of Beta (β waves), Delta (waves), that (θ waves), Alpha (α waves), and brain waves preset in the left and right ears.

In a preferred embodiment of the present invention, the multi-channel background audio in the tinnitus diagnosis module, the preset audio of each channel of the left and right ears includes but is not limited to white noise, narrow-band noise, rain storm noise, ice and snow sound, zen sound, immersion sound, atmosphere sound, flute sound, cave sound, rain sound, sleep sound, wind bell sound, sea sound, piano sound, orchestra sound, river sound, butterfly sound, happy music sound, explosion sound, frog sound, nature sound, melody sound, fan sound, etc., and recorded audio. Each channel background audio volume signal preset includes, but is not limited to, 0 to 100.

In a preferred embodiment of the present invention, the multi-channel waveform composite brain wave and left and right ear separate preset signal stimulus modulation in the tinnitus diagnosis module includes, but is not limited to, rate, compression, amplitude, peak delay, and valley.

In a preferred embodiment of the present invention, the tinnitus diagnosis prescription of the combination of the multi-channel waveform composite brain wave and the multi-channel background audio in the tinnitus diagnosis module may be the same as or different from the left and right ears, and the combined audio signal includes, but is not limited to, a compound tone, a pure tone, sing tones, narrowband noise, wideband noise, colored noise, 835Hz immunostimulant tone, a tone, an amplitude modulation tone, a brain wave combined tone, an isochronous audio frequency, and a mixed tone of one or more audio signals.

In a preferred embodiment of the present invention, the audio tone signal output file format in the tinnitus treatment module is enclosed but not limited to wav, mp3, mp4, wnd, bau, iff, cda, wma, ape, flac, aac, ac3, mmf, m4a, m4r, ogg.

In a preferred embodiment of the present invention, the uploading server in the tinnitus treatment module includes, but is not limited to, a cloud server, a private server, and a stand-alone server.

In a preferred embodiment of the present invention, the binaural optimization, the brain wave complex acoustic stimulation signals, and the balance adjustment in the tinnitus treatment module include, but are not limited to, waveforms of multiple channels, audio signals, brain wave signals modulated individually in frequency and amplitude range, and multi-channel background audio signals set individually in volume range, and the total loudness of the resulting complex sound can be adjusted separately or together for left and right ears.

In a preferred embodiment of the invention, the tinnitus signal database and the local tinnitus prescription are uploaded, the audio signal files of each diagnosis and treatment of the individual patients are managed, and the medical orders are arranged in a classified mode according to time and diagnosis and treatment information. The audio signal files are of various types and are output according to the treatment of the patient through the individualized and precise modulation of the patient. The local tinnitus prescription library includes, but is not limited to, parameters of frequency, amplitude, brain wave, multi-channel background audio signal and the like in response to multi-channel waveform, and restores and outputs audio signal which is in accordance with individuation of the patient.

In a preferred embodiment of the present invention, the mobile end of the mobile end treatment module includes, but is not limited to, an apple phone, an android phone, an IOS tablet, an android tablet, a windows tablet, and a CE tablet.

In a preferred embodiment of the present invention, the preset files in the brain wave and meditation files of the mobile terminal therapy module include, but are not limited to, 2.5Hz, 4Hz, 5Hz, 8Hz, 10Hz, 20Hz, 835Hz and brain wave combined audio files or recorded audio files, respectively.

In a preferred embodiment of the present invention, the management information of the mobile terminal therapy module includes, but is not limited to, user information registration, login, diagnosis and treatment management, remote diagnosis and treatment, diagnosis and treatment clock setting, training plan, and other information management.

The invention has the beneficial effects that: the tinnitus diagnosis and treatment system of the multi-channel waveform composite brain wave combined acoustic stimulation can interactively modulate millions of tinnitus audio signals separately from the left ear and the right ear or simultaneously modulate the two ears, and form an individualized and precise tinnitus treatment prescription.

Drawings

FIG. 1 is a frame diagram of the preferred embodiment of the present invention of the tinnitus diagnosis and treatment system of the multi-channel waveform composite brain wave combined acoustic stimulation;

FIG. 2 is a block diagram of a customer profile module according to the present invention;

fig. 3 is a schematic diagram of a frame of a tinnitus treatment module according to the present invention;

fig. 4 is a schematic diagram of a frame of a tinnitus treatment module of the present invention;

FIG. 5 is a block diagram of a system setup module of the present invention;

fig. 6 is a schematic diagram of a frame of the mobile terminal of the present invention.

Detailed Description

The invention is described in detail below with reference to the drawings and the detailed description so that the advantages and features of the invention can be more easily understood by those skilled in the art, and the scope of the invention is more clearly and clearly defined.

As shown in fig. 1, an embodiment of the present invention includes:

tinnitus diagnosis and treatment system of multichannel waveform composite brain wave combined acoustic stimulation

It includes: the tinnitus diagnosis system comprises a hardware platform formed by a customer file module, a tinnitus diagnosis module, a tinnitus treatment module, a setting module and the like, and a mobile terminal formed by a server side and a tinnitus treatment, telemedicine, tinnitus management, brain waves, a meditation library, training documents and settings. The hardware platform is used for diagnosing and treating tinnitus patients, managing patient files, all signal libraries, system settings and the like. The server is used for storing patient files, signal libraries, training materials and the like. The mobile terminal is used for treating tinnitus patients, remote diagnosis and training and other services.

As shown in fig. 2, the embodiment of the present invention includes:

the customer profile module includes: patient information, file information, initial diagnosis (medical record inquiry table, tinnitus inquiry table, clinical energy evaluation table, tinnitus disorder evaluation table and other evaluation tables), medical record, diagnosis and treatment record (local diagnosis and treatment, remote diagnosis and treatment), and other files, which are respectively used for managing information data files of patients.

As shown in fig. 3, an embodiment of the present invention includes:

the tinnitus diagnosis module comprises: right ear diagnostic control 20, left ear diagnostic control 21, curve type 40, loudness control 50, listening 60, tinnitus diagnostic prescription (right ear, left ear, or both) 70. The right ear diagnosis includes: a multi-channel controller 201, a multi-channel background sound controller 202 and a brain wave signal and waveform modulation controller 301. The multichannel controller 201 includes: lane 1 … lane N2011. The channel N2011 includes: loudness 20111, frequency 20112, waveform 20113. The multi-channel background sound controller 202 includes: channel 1 … channel N2021. Channel N2021 includes: loudness 20211. The left ear diagnosis includes: a multi-channel controller 211, a multi-channel background sound controller 212, and a brain wave signal and waveform modulation controller 302. The multichannel controller 211 includes: channel 1 … channel N2111. The channel N2111 includes: loudness 21111, frequency 21112, waveform 21113. The multi-channel background sound controller 212 includes: channel 1 … channel N2121. Channel N2121 includes: loudness 21211.

The tinnitus diagnosis module can generate various tinnitus diagnosis audio tone signals through the internal function module of the left ear diagnosis controller or the right ear diagnosis controller, and tinnitus diagnosis technicians can monitor 60 audio tone signals felt by patients in the whole process according to interactive feedback with users and finally output a left ear diagnosis prescription, a right ear diagnosis prescription or a double ear diagnosis prescription.

The multi-channel controller 201, 211 is individually set by the waveforms, frequencies, loudness of a plurality of individual channels and forms a combination of N channels and then produces a composite audio tone signal.

The brain wave signal and waveform modulation controller 301 and the brain wave signal and waveform modulation controller 302 modulate the composite audio signal generated by the multi-channel controller according to the rate, compression, amplitude, peak delay, trough value, etc. using a special brain wave signal, and then output an audio tone signal that can stimulate cranial nerves.

The multi-channel background sound controller 202 and the multi-channel background sound controller 202 can individually select the background audio signal of each channel, adjust the loudness of each channel and simultaneously output a composite background audio signal.

The curve type 40 may be a Fredman (Fredman) masking curve, a masking hearing curve, a residual inhibition test plot, a masking level curve, a masking key curve.

As shown in fig. 4, the embodiment of the present invention includes:

the tinnitus treatment module comprises: tinnitus diagnosis prescription (right ear, left ear or both ears) 70, tinnitus diagnosis module 2, output audio signal 31, time setting 32, data storage 33, upload server 34. The tinnitus treatment module is used for forming an audio tone signal to be supplied to a tinnitus patient for craniocerebral nerve acoustic stimulation treatment by leading in a tinnitus diagnosis prescription to the tinnitus treatment interface, and can perform monaural fine adjustment or binaural simultaneous fine adjustment in an interaction process, wherein the fine adjustment process is to call the tinnitus diagnosis module 2 and time setting, finally determine the treatment and output the audio signal. And then storing data, managing records and uploading to a server.

The output audio signal 31 is a built-in audio signal recording function, and the recording output format includes, but is not limited to, wav, mp3, mp4, wnd, bau, iff, cda, wma, ape, flac, aac, ac3, mmf, m4a, m4r, and ogg.

The uploading server 34 uploads data, audio files, signal library files and training files from the client to the server or the cloud through a wired network or a wireless network so as to provide access to the mobile terminal.

As shown in fig. 5, the embodiment of the present invention includes:

the setting module is used for setting the device to comprise: the system comprises a tinnitus background sound library, a waveform signal library, a tinnitus signal library, a brain wave library, a meditation library, telemedicine, a training document, brain wave signal and waveform modulation and system setting.

The tinnitus background sound library comprises: and the audio signal file is formed by various natural sounds, compound sounds and recorded sounds.

As shown in fig. 6, the embodiment of the present invention includes:

it includes that it of removal end module: user login, tinnitus treatment, telemedicine, brain waves, meditation library, training documents, cost management, and settings. The mobile terminal module is that the patient carries out the user through removing the end download APP or through the little letter procedure and logs on and carry out tinnitus treatment, can make wired earphone or bluetooth headset as output talker, in the treatment, if the patient feels need to adjust tinnitus prescription can initiate the request to the server side through telemedicine and carry out telemedicine service, and tinnitus technical staff can follow the request of patient and carry out the adjustment of scheme, then uploads the server side again.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. The tinnitus diagnosis and treatment system is characterized by comprising a hardware platform, a server side and a mobile side treatment module, wherein the hardware platform comprises a customer file module, a tinnitus diagnosis module, a tinnitus treatment module and the like;

the customer file module is used for storing patient files, diagnosis and treatment records, cases and treatment records;

the tinnitus diagnosis module modulates the left ear multichannel waveform composite brain wave, the combined audio signal of the multichannel background audio, the right ear multichannel waveform composite brain wave, the combined audio tone signal of the multichannel background audio or the binaural synchronization respectively and forms a diagnosis prescription to be output to the tinnitus treatment software module;

the tinnitus treatment module generates an audio tone signal by a combined diagnosis prescription of input left and right ear multichannel waveform composite brain waves and multichannel background audio, outputs the audio tone signal to an earphone for treating a patient, further optimizes double ears of the patient through interaction with the patient, particularly senses and adapts to a sound forming stimulation signal compounded by the brain waves, and finally determines to form an audio signal file to be uploaded to a server tinnitus signal library and store a local tinnitus prescription so as to be used by a mobile end treatment module after balance and adaptation nerve regulation;

the server side stores patient files and manages various audio signal libraries, updates interactive data in real time, and starts data interaction between the hardware platform and the mobile terminal treatment module;

the mobile terminal treatment module regulates the output of the audio signal generated by the diagnosis prescription for managing the combination of the multi-channel waveform composite brain waves of the left ear and the right ear and the background sound to treat the patient, and integrates the management of a general brain wave file, a meditation file, a multi-time diagnosis and treatment prescription file, clock setting, course training, remote diagnosis and treatment and patient self-diagnosis and treatment files on the module.

2. The system of claim 1, wherein the hardware platform comprises a mobile terminal, a cloud server, a desktop computer, a laptop computer, a tablet computer with an audio output port or a USB interface, and the preset accessible software comprises compatible software such as electronic otoscope software, hearing test software, tinnitus diagnosis and treatment software, hearing aid fitting software, a multichannel sound source positioning system, and a hearing aid analysis system.

3. The system of claim 1, wherein the tinnitus diagnosis therapy system comprises a pre-set waveform signal for each channel of the left and right ears of the multi-channel waveform in the tinnitus diagnosis module, wherein the pre-set waveform signal library includes but is not limited to sine wave, square wave, rectangular wave, triangular wave and sawtooth wave, step wave, pulse wave, noise wave, complex clutter, linear wave, shock wave and other waveform signals related to waveform, each pre-set audio signal includes but is not limited to pure tone, pulse pure tone, sing tone, pulse sing tone, narrow band noise, width noise, colored noise, recorded audio signal, each channel pre-set signal frequency range, amplitude range, pre-set frequency range includes but is not limited to 20HZ to 20000HZ, and pre-set amplitude range includes but is not limited to 0dB to 120 dB;

the multichannel waveform composite brain waves in the tinnitus diagnosis module comprise preset brain wave libraries of left and right ears, including but not limited to Beta (β waves), Delta (waves), Theat (theta waves), Alpha (α waves) and mutual combination of the brain waves;

the tinnitus diagnosis module is characterized in that a multi-channel background audio database is preset in each channel of the left ear and the right ear, wherein the database comprises but is not limited to white noise, narrow-band noise, storm noise, ice and snow sound, Buddhist sound, immersion sound, atmosphere sound, flute sound, cave sound, rain sound, sleep sound, wind bell sound, sea sound, piano sound, orchestral sound, river sound, butterfly sound, happy sound, explosion sound, frog sound, nature sound, melody sound, fan sound and the like, and the audio database records the audio; each channel background audio volume signal preset includes, but is not limited to, 0 to 100;

the multi-channel waveform composite brain wave and the stimulation modulation of the signals individually preset for the left ear and the right ear in the tinnitus diagnosis module comprise speed, compression, wave amplitude, peak value delay and wave valley value.

4. The system of claim 1, wherein the tinnitus diagnosis prescription generated by the tinnitus diagnosis module is the same or different for the left and right ears, and the combined audio tone signals include, but are not limited to, compound tones, pure tones, sing tones, narrowband noise, wideband noise, colored noise, 835Hz immunostimulatory tones, tonal tones, AM tones, EEG combined tones, isochronous audio frequencies, mixed tones of one or more audio signals, Fredman (Fredman) masking curves, masking hearing curves, residual suppression test patterns, masking level curves, masking key tone curves.

5. The system of claim 1, wherein the audio signals in the tinnitus treatment module include recorded audio generators, reproduced audio generators, audio transducers whose output file formats include but are not limited to wav, mp3, mp4, wnd, bau, iff, cda, wma, ape, flac, aac, ac3, mmf, m4a, m4r, ogg;

the uploading server comprises a cloud server, a private server and a stand-alone server;

the binaural optimization and brain wave composite acoustic stimulation signals and balance adjustment comprise that waveforms, audio signals and brain wave signals of a plurality of channels in the tinnitus diagnosis module can be independently modulated within the range of frequency and amplitude, a multi-channel background audio signal is independently set within the range of volume, and the total loudness of the formed composite sound can be separately adjusted for left and right ears or adjusted together.

6. The system of claim 1, wherein the mobile-end therapy module comprises an iphone, an android phone, an IOS tablet, an android tablet, a windows tablet, a CE tablet;

the preset files in the brain wave and meditation library include but are not limited to 2.5Hz, 4Hz, 5Hz, 8Hz, 10Hz, 20Hz, 835Hz and brain wave combined audio files or recorded audio files respectively;

the management information in the mobile terminal treatment module includes but is not limited to information management such as user information registration, login, diagnosis and treatment management, telediagnosis and treatment, diagnosis and treatment clock setting, training plan and the like.

7. The system of claim 1, wherein the remote diagnosis and treatment includes a tinnitus treatment expert who can restore or remodulate a plurality of tinnitus treatment audio tone signal prescriptions which may be similar to the tinnitus of the patient by submitting tinnitus questionnaires such as THI and TFI and description of the tinnitus when the tinnitus patient cannot arrive at the scene or the tinnitus patient is intermittent, and the recipes are uploaded to the server respectively, so that the patient can experience one or more prescriptions preset in the tinnitus treatment library by using the mobile terminal treatment module, find out one or more prescriptions which are similar to the tinnitus of the patient and feed the recipes back to the tinnitus treatment expert.

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