CN112037878A

CN112037878A - Treatment system for chronic xerostomia

Info

Publication number: CN112037878A
Application number: CN202011062229.XA
Authority: CN
Inventors: 焦凯; 牛丽娜; 闫舰飞; 卢伟诚
Original assignee: Air Force Medical University of PLA
Current assignee: Air Force Medical University of PLA
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2020-12-04
Anticipated expiration: 2040-09-30
Also published as: CN112037878B

Abstract

The embodiment of the invention provides a treatment system for chronic xerostomia, which comprises a patient unit, a software unit and an artificial intelligence unit; the patient unit is used for stimulating salivary glands of a patient and acquiring intraoral microenvironment data and bioelectric stimulation parameters of the patient in real time; the artificial intelligence unit is wirelessly connected with the patient unit and is used for receiving and storing intraoral microenvironment data and bioelectric stimulation parameters; the software unit is connected with the artificial intelligence unit; the medical treatment unit is used for assisting a doctor to formulate a treatment scheme according to intraoral microenvironment data and bioelectric stimulation parameters; the patient unit executes a treatment protocol. The patient unit realizes data communication with the artificial intelligence unit through the mobile internet, and patient data of the patient are automatically acquired and transmitted. The artificial intelligence unit carries out comprehensive analysis on the patient data and supports the design and assignment of the diagnosis and treatment scheme by the doctor. The patient unit flexibly implements the treatment scheme according to individual conditions of the patient, and carries out accurate bioelectric stimulation on the patient.

Description

Treatment system for chronic xerostomia

Technical Field

The invention relates to the technical field of salivary gland adjuvant therapy, in particular to a treatment system for chronic xerostomia.

Background

The symptom of chronic xerostomia is xerostomia, which is due to hypofunction of salivary glands. Chronic dry mouth is a painful condition that can lead to decreased quality of life, social isolation and autism. Ideally, it would be preferable to develop a device that consistently stimulates salivation effectively because of the benefits of providing natural saliva and the great advantage of treating dry mouth patients for extended periods of time.

Foreign countries have devices that provide this function by providing a microprocessor controlled constant current source periodically to stimulate the corresponding nerve in the mouth with a small current. The device is battery powered and uses an infrared receiver as a switch for the device. In order to ensure low-power operation, the device is provided with an infrared remote controller, and the microprocessor enters a working state only after receiving a starting signal of an infrared receiver; after receiving the off signal of the infrared receiver, the system enters a sleep state.

The foreign device is expensive and has only a single function, cannot control and set medical conditions such as stimulation frequency, stimulation intensity and the like, and cannot overcome the influence of individual difference of patients on curative effect. The infrared remote control switch is easy to be influenced by various external light rays to generate misoperation. The foreign device has simple functions, cannot set the operation parameters of the device, cannot realize networking communication, and limits the function expansion of the device.

Disclosure of Invention

In order to solve the technical problem, the invention provides a treatment system for chronic xerostomia, which comprises the following specific technical scheme:

the embodiment of the invention provides a treatment system for chronic xerostomia, which comprises a patient unit, a software unit and an artificial intelligence unit; the patient unit is used for stimulating salivary glands of a patient and acquiring intraoral microenvironment data and bioelectric stimulation parameters of the patient in real time;

the artificial intelligence unit is wirelessly connected with the patient unit and is used for receiving and storing intraoral microenvironment data and bioelectric stimulation parameters;

the software unit is connected with the artificial intelligence unit; the medical treatment unit is used for assisting a doctor to formulate a treatment scheme according to intraoral microenvironment data and bioelectric stimulation parameters; and sending the treatment plan to the patient unit;

the patient unit executes the treatment protocol.

Further, the patient unit comprises an intelligent control subunit and an intraoral stimulation subunit; the intraoral stimulator unit comprises a carrier; a stimulation portion provided on the carrier for stimulating the salivary gland to secrete saliva; the Bluetooth controller is used for receiving a control signal sent by the control subunit and is arranged in the carrier; the stimulation end of the intraoral stimulation sub unit is positioned at the outer side of the tooth socket and is used for stimulating the salivary gland; a detection section for detecting environmental data in the mouth of the patient; the control subunit is connected with the Bluetooth controller in a Bluetooth mode, and the control subunit is in wireless connection with the artificial intelligence unit.

Further, the stimulation portion includes a stimulation electrode for outputting a stimulation current; the battery is used for supplying power to the stimulating electrode, and the biological current controller is arranged on a connecting line of the battery and the stimulating electrode circuit and is used for outputting stable current; the Bluetooth controller is respectively connected with the battery and the biological current controller in a control way; the stimulating electrode is a stimulating end of the stimulating part; the stimulation electrode penetrates through the side wall of the carrier, and the current output end of the stimulation electrode is used for stimulating the salivary gland of the patient.

Further, the bioelectric current controller controls the stimulation electrode to generate a bioelectric current that indirectly stimulates the salivary gland by stimulating parasympathetic nerves.

Furthermore, the intelligent control subunit is any one of a smart phone, a tablet personal computer and a notebook computer.

Further, the control subunit is configured to set at least one of a current intensity, a current frequency, an operating time, and an operating frequency of the stimulation portion.

Further, the carrier is a tooth socket.

Furthermore, the tooth socket is an invisible tooth socket, and the stimulation part is embedded in the inner side wall of the tooth socket.

The embodiment of the invention provides a treatment system for chronic xerostomia, which comprises a patient unit, a software unit and an artificial intelligence unit; the patient unit is used for stimulating salivary glands of a patient and acquiring intraoral microenvironment data and bioelectric stimulation parameters of the patient in real time; the artificial intelligence unit is wirelessly connected with the patient unit and is used for receiving and storing intraoral microenvironment data and bioelectric stimulation parameters; the software unit is connected with the artificial intelligence unit; the medical treatment unit is used for assisting a doctor to formulate a treatment scheme according to intraoral microenvironment data and bioelectric stimulation parameters; and sending the treatment plan to the patient unit; the patient unit executes a treatment protocol.

A treatment system for chronic xerostomia comprises a patient unit consisting of an intelligent control subunit and an intraoral stimulator subunit, an artificial intelligence unit comprising a medical database and an artificial intelligence expert system, and a software unit provided with medical application software. The software unit is special software used by doctors for diagnosis and treatment and academic research, can analyze patient data and illness states, pertinently provides treatment schemes for single patient or multiple patients, can automatically track the rehabilitation condition of the patient, provides a patient data analysis report, and communicates with the patient unit in real time. The artificial intelligence unit can store various data of doctors, patients, diagnosis and treatment schemes and disease development, and automatic diagnosis and treatment based on artificial intelligence is achieved through functions of a data adapter, intelligent inspection, big data analysis, a treatment rule base, an expert knowledge base, treatment data cloud computing and pushing and the like. The invention provides a design of a treatment system for chronic xerostomia, which forms an automatic diagnosis and treatment system connected with the whole process of doctors and patients. The patient unit realizes data communication with the artificial intelligence unit through the mobile internet, and automatically acquires and transmits patient data of the patient. The artificial intelligence unit carries out comprehensive analysis on the patient data and supports the design and assignment of the diagnosis and treatment scheme by the doctor. The patient unit uses various resources of the diagnosis and treatment expert system through data transmission, flexibly implements a treatment scheme according to individual conditions of the patient in a targeted manner, and performs accurate bioelectric stimulation on the patient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a control connection diagram of a treatment system for chronic xerostomia according to an embodiment of the present invention.

Figure 2 is a block diagram of a patient unit according to an embodiment of the present invention.

Fig. 3 is a module connection diagram of an intelligent control subunit according to an embodiment of the present invention.

Reference numerals:

1 patient unit, 2 intraoral stimulator sub-units, 3 intelligent control sub-units, 4 artificial intelligence units, 5 software units, 6 stimulation electrodes, 7 biological current controllers and 8 batteries.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all 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.

Example 1

Referring to fig. 1-3, an embodiment of the present invention provides a treatment system for chronic dry mouth, including a patient unit 1, a software unit 5, and an artificial intelligence unit 4; the patient unit 1 is used for stimulating salivary glands of a patient and acquiring intraoral microenvironment data and bioelectric stimulation parameters of the patient in real time; the artificial intelligence unit 4 is in wireless connection with the patient unit 1, and the artificial intelligence unit 4 is used for receiving and storing intraoral microenvironment data and bioelectric stimulation parameters; the software unit 5 is connected with the artificial intelligence unit 4; the medical treatment unit is used for assisting a doctor to formulate a treatment scheme according to intraoral microenvironment data and bioelectric stimulation parameters; and to send the treatment protocol to the patient unit 1; the patient unit 1 executes the treatment protocol.

Specifically, the embodiment of the invention provides a treatment system for chronic xerostomia, which comprises a patient unit 1 consisting of an intelligent control subunit 3 and an intraoral stimulator subunit 2, an artificial intelligence unit 4 comprising a medical database and an artificial intelligence expert system, and a software unit 5 provided with medical application software. The software unit 5 is dedicated software for diagnosis and treatment and academic research by a doctor, and can analyze patient data and disease conditions, provide a treatment plan for a single patient or a plurality of patients in a targeted manner, automatically track the rehabilitation status of the patient, provide a patient data analysis report, and communicate with the patient unit 1 in real time. The artificial intelligence unit 4 can store various data of doctors, patients, diagnosis and treatment schemes and disease development, and realizes automatic diagnosis and treatment based on artificial intelligence through functions of a data adapter, intelligent inspection, big data analysis, a treatment rule base, an expert knowledge base, treatment data cloud computing and pushing and the like. The invention provides a design of a treatment system for chronic xerostomia, which forms an automatic diagnosis and treatment system connected with the whole process of doctors and patients. The patient unit 1 realizes data communication with the medical database and the artificial intelligence expert system through the mobile internet, and automatically collects and transmits patient data of the patient. The medical database and the artificial intelligence expert system comprehensively analyze patient data and support doctors to design and issue diagnosis and treatment schemes. The patient unit 1 uses various resources of the diagnosis and treatment expert system through data transmission, flexibly implements a treatment scheme according to individual conditions of the patient in a targeted manner, and performs accurate bioelectric stimulation on the patient.

In one embodiment, referring to fig. 2, the patient unit 1 comprises an intelligent control subunit 3, an intraoral stimulator subunit 2; the intraoral stimulation sub-unit 2 comprises a carrier; a stimulation portion provided on the carrier for stimulating the salivary gland to secrete saliva; the Bluetooth controller is used for receiving a control signal sent by the control subunit and is arranged in the carrier; the stimulation end of the intraoral stimulation sub unit 2 is positioned at the outer side of the mouthpiece and is used for stimulating the salivary gland; a detection section for detecting environmental data in the mouth of the patient; the control subunit is connected with the Bluetooth controller in a Bluetooth mode, and the control subunit is wirelessly connected with the artificial intelligence unit 4.

It should be noted that, the above-mentioned smart control subunit 3 may be a smart phone carrying a control APP, and the above-mentioned smart phone is connected with the bluetooth controller through bluetooth, and is used to send a control instruction to the bluetooth controller, or is used to receive intraoral environmental data of a patient sent by the bluetooth controller, and the above-mentioned detection portion is a sensor capable of detecting intraoral environmental data of the patient, and this embodiment does not limit the specific model of the above-mentioned detection portion.

It should be noted that the bluetooth controller may be in the following structure, including a PCB board, a bluetooth module, a power port, a control interface, and a control module, which are disposed on the PCB board; the power supply port is connected with a battery 8 and provides electric energy for the Bluetooth controller; the Bluetooth module is used for forming a signal transmission chain with the Bluetooth module at the control end; the control interface is respectively connected with the constant current source and the battery 8 and used for controlling whether the power supply supplies power for the stimulating electrode 6 and controlling whether the constant current source works, and the control module is connected with the Bluetooth module in a wired mode and used for receiving the instruction received by the Bluetooth module and outputting the control instruction to the battery 8 and the constant current source through the control interface.

It should be noted that the carrier may be a hidden mouthpiece, such as a protective mouthpiece worn by a basketball player during play; the stimulation part is embedded in the blind hole, and it can be understood that the stimulation end needs to be positioned outside the tooth socket in order to ensure that the stimulation end of the stimulation part can effectively stimulate salivary glands, namely, when the tooth socket is worn by a user, the stimulation end can stimulate the salivary glands of the user. The stimulation part can stimulate the salivary gland by using micro current, and the structure of the stimulation part can be that the stimulation part comprises a stimulation electrode 6 for outputting stimulation current; the battery 8 is used for supplying power to the stimulating electrode 6, and the constant current device is arranged on a circuit connecting line of the battery 8 and the stimulating electrode 6 and is used for outputting stable current; the Bluetooth controller is respectively connected with the battery 8 and the constant current device in a control mode; the stimulating electrode 6 is a stimulating end of the stimulating part; the stimulating electrode 6 penetrates through the side wall of the tooth socket, and a current output end of the stimulating electrode 6 outputs stimulating current to the salivary gland. In this embodiment, it is ensured that the micro-current stimulation to the salivary gland of the user can be realized by using the integrated structure of the tooth socket and the stimulation part.

In a specific embodiment, the stimulation portion includes a stimulation electrode 6 for outputting a stimulation current; a battery 8 for supplying power to the stimulating electrode 6, a biological current controller 7 arranged on the circuit connecting line of the battery 8 and the stimulating electrode 6 and used for outputting stable current; the Bluetooth controller is respectively connected with the battery 8 and the biological current controller 7 in a control way; the stimulating electrode 6 is a stimulating end of the stimulating part; the stimulation electrode 6 penetrates through the side wall of the carrier, and the current output end of the stimulation electrode 6 is used for stimulating the salivary gland of the patient.

The embodiment of the invention provides a novel patient unit 1 which comprises a smart phone, a mobile phone APP, a Bluetooth controller, a constant current source, a stimulation electrode 6 and a battery 8. The smart phone and the cell phone APP are the external part of the device as the wireless control and networking communication unit of the device. The Bluetooth controller, the constant current source, the stimulating electrode 6 and the battery 8 are used as a stimulating execution unit of the device to form the intraoral part of the device, and the intraoral part is placed in the oral cavity by being embedded into the tooth socket. Through smart mobile phone and the cell-phone APP and the bluetooth controller wireless connection and the both-way communication of installing on smart mobile phone. Switch operating condition of the internal part of the mouth can be controlled wirelessly through the smart phone and the mobile phone APP. Can also collect and set up the device's various executive parameter through smart mobile phone and cell-phone APP to the networking function of usable smart mobile phone uploads various executive parameter to the internet.

The device switch function realized through the bluetooth communication of smart mobile phone and bluetooth controller can realize the start-up and the stop of equipment in 10 meters within ranges, need not to aim at infrared receiver's operation with infrared remote controller in closely, has expanded operating range, makes things convenient for the patient to use. When the patient switches the equipment, the equipment does not need to be taken out of the mouth, the operation method is simplified, and misoperation caused by various interferences is avoided.

Utilize smart mobile phone and cell-phone APP, greatly promoted the intellectuality of device, satisfied patient's individualized treatment demand. The doctor can be according to the operation parameter of the long-range setting device of patient's information, and the patient also can obtain more treatment resources through the long-range expert system of smart mobile phone and cell-phone APP connection.

The interface for user operation is realized by using the mobile phone APP, and the operation of a patient can be facilitated.

The stimulating electrode 6 may have the following structure, including a first electrode, a second electrode, and an insulating gel; the first electrode comprises a metal needle body and a first connecting lead; the metal needle body comprises a first coating stripping area positioned at the needle point, a coated area positioned in the middle and a second coating stripping area positioned at the needle tail, wherein the first coating stripping area is used for target point stimulation, and the second coating stripping area is connected with the first connecting lead and is used for stimulating signal conduction; the second electrode axially penetrates through the surface of the coated area of the first electrode, the second electrode comprises a metal pipe body and a second connecting lead, and the second connecting lead is positioned at one end of the metal pipe body and is far away from the first coating stripping area; the second electrode is fixedly connected with the first electrode through an insulating colloid to form a stimulation loop. The stimulating electrode 6 is introduced and connected to the positive and negative electrodes of the battery 8 by the first connecting wire and the second connecting wire, respectively, to form a power supply circuit.

Specifically, the stimulation portion is composed of a bioelectric current controller 7, a stimulation electrode 6, and a battery 8, and is an intraoral portion of the patient unit 1. The electric stimulation device is an execution unit of biological electric stimulation and is arranged at a corresponding position in the oral cavity by being embedded into a tooth socket. On one hand, the method calculates the received bioelectric stimulation operation parameters and carries out bioelectric current stimulation on the tongue nerve of the patient according to a fuzzy control algorithm, and on the other hand, the bioelectric current stimulation can also be carried out on the tongue nerve of the patient according to acquired microenvironment data in the mouth of the patient and an adaptive control method. Meanwhile, collected microenvironment data and biological electrical stimulation parameters in the mouth of the patient can be uploaded to the mobile phone APP and finally sent to the artificial intelligence unit 4 for further diagnosis and treatment.

The biological current controller 7 generates and controls biological current for effectively stimulating parasympathetic nerves, the current intensity, the frequency and other operation parameters of the biological current controller are set through the mobile phone APP, the biological current controller can also be obtained by calculation according to the received biological electrical stimulation operation parameters, and the mobile phone APP selects an operation fuzzy control mode and an adaptive control mode.

The stimulation portion realizes wireless connection and two-way communication through the smart phone and the mobile phone APP. The patient can the switch operating condition of the intraoral part of wireless control through smart mobile phone and cell-phone APP. Can also gather and set up the various operating parameter of biological current controller 7 through smart mobile phone and cell-phone APP to the networking function of usable smart mobile phone uploads various executive parameters to the internet, with other functions of supporting extension the device.

The switch of the intraoral stimulation terminal is realized through the specially designed wireless communication function between the smart phone and the biological current controller 7, so that the equipment can be started and stopped within a small range, the use of a patient is facilitated, and the interference to other surrounding electronic equipment is avoided. When the patient switches the equipment, the equipment does not need to be taken out of the mouth, the operation method is simplified, and misoperation caused by various interferences is avoided.

By means of the smart phone and the mobile phone APP, the intelligence of the system is greatly improved, and the personalized treatment requirements of the patient are met. The doctor can be through cell-phone and patient instant messaging, and the real-time condition of patient also can be more timely and accurate through smart mobile phone and cell-phone APP feedback. The interface for user operation is realized by using the mobile phone APP, so that the operation of a patient is facilitated.

It should be noted that the mobile phone APP may include an acquisition module, a setting module, and a switch module; the acquisition module, the setting module and the switch module are respectively connected with the Bluetooth controller.

Specifically, the acquisition module is used for acquiring the operation parameters of the salivary gland intraoral stimulation sub unit 2, and can display the operation parameters of the salivary gland intraoral stimulation sub unit 2 such as the power supply electric quantity, the current data of the stimulation electrode 6 and the like at the control end, so that a user can know the operation condition of the salivary gland intraoral stimulation sub unit 2 in real time, it needs to be explained that displaying the electric quantity of the battery 8 belongs to a conventional means in the field, and when the control module acquires the electric quantity data, the electric quantity data is transmitted to the control end through a Bluetooth connection link between the Bluetooth module and the control end, and the electric quantity data is displayed; the current data can be detected by using the existing micro-current sensor, the current data is transmitted to the control module, the control module is transmitted to the control end by using a Bluetooth connecting link between the Bluetooth module and the control end, and the control end displays the current data.

The setting module is used for inputting the set value of the operation parameter to the bluetooth controller, for example, the power supply time, the current intensity, etc. of the power supply can be set by the setting module, and the control module in the bluetooth controller controls the battery 8 to execute the setting by the primary constant current source according to the setting.

Switch module's effect is the operating condition of control bluetooth controller, and it can control bluetooth controller and begin work, also can control bluetooth controller stop work, and its theory of operation is similar to current children's toy, for example, little rabbit, can utilize cell-phone APP to control little rabbit's operating condition, controls it and opens or close. The technology of transmitting control commands by using bluetooth belongs to the conventional technical means in the field, and the embodiment does not limit the technology.

In one embodiment, the bioelectric current controller 7 controls the stimulation electrode 6 to generate a bioelectric current that indirectly stimulates salivary glands by stimulating parasympathetic nerves. The salivary gland can not be directly stimulated by bioelectric current, in the embodiment, the bioelectric current stimulates parasympathetic nerve by stimulating tongue nerve, and further indirectly stimulates the salivary gland, so that the function of indirectly stimulating the salivary gland can be realized.

In a specific embodiment, the intelligent control subunit 3 is any one of a smart phone, a tablet computer, and a notebook computer.

In a specific embodiment, the control subunit is configured to set at least one of a current intensity, a current frequency, an operating time, and an operating frequency of the stimulation portion.

In a specific embodiment, the carrier is a mouthpiece. The user wearing is convenient, and the user experience is improved.

In one embodiment, the mouthpiece is a hidden mouthpiece, and the stimulation portion is embedded in an inner sidewall of the mouthpiece.

The embodiment of the invention provides a treatment system for chronic xerostomia, which comprises a patient unit 1, a software unit 5 and an artificial intelligence unit 4; the patient unit 1 is used for stimulating salivary glands of a patient and acquiring intraoral microenvironment data and bioelectric stimulation parameters of the patient in real time; the artificial intelligence unit 4 is wirelessly connected with the patient unit 1, and the artificial intelligence unit 4 is used for receiving and storing microenvironment data and bioelectric stimulation parameters in the mouth; the software unit 5 is connected with the artificial intelligence unit 4; the medical treatment unit is used for assisting a doctor to formulate a treatment scheme according to intraoral microenvironment data and bioelectric stimulation parameters; and sends the treatment protocol to the patient unit 1; the patient unit 1 executes a treatment protocol.

A treatment system for chronic xerostomia comprises a patient unit 1 consisting of an intelligent control subunit 3 and an intraoral stimulator subunit 2, an artificial intelligence unit 4 comprising a medical database and an artificial intelligence expert system, and a software unit 5 provided with medical application software. The software unit 5 is dedicated software for diagnosis and treatment and academic research by a doctor, and can analyze patient data and disease conditions, provide a treatment plan for a single patient or a plurality of patients in a targeted manner, automatically track the rehabilitation status of the patient, provide a patient data analysis report, and communicate with the patient unit 1 in real time. The artificial intelligence unit 4 can store various data of doctors, patients, diagnosis and treatment schemes and disease development, and realizes automatic diagnosis and treatment based on artificial intelligence through functions of a data adapter, intelligent inspection, big data analysis, a treatment rule base, an expert knowledge base, treatment data cloud computing and pushing and the like. The invention provides a design of a treatment system for chronic xerostomia, which forms an automatic diagnosis and treatment system connected with the whole process of doctors and patients. The patient unit 1 realizes data communication with the medical database and the artificial intelligence expert system through the mobile internet, and automatically collects and transmits patient data of the patient. The medical database and the artificial intelligence expert system comprehensively analyze patient data and support doctors to design and issue diagnosis and treatment schemes. The patient unit 1 uses various resources of the diagnosis and treatment expert system through data transmission, flexibly implements a treatment scheme according to individual conditions of patients in a targeted manner, and accurately and precisely performs bioelectric stimulation on the patients.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A treatment system for chronic xerostomia is characterized by comprising a patient unit, a software unit and an artificial intelligence unit; the patient unit is used for stimulating salivary glands of a patient and acquiring intraoral microenvironment data and bioelectric stimulation parameters of the patient in real time;

the patient unit executes the treatment protocol.

2. The treatment system for chronic xerostomia according to claim 1, characterized in that said patient unit comprises a smart control subunit, an intraoral stimulator subunit; the intraoral stimulator unit comprises a carrier; a stimulation portion provided on the carrier for stimulating the salivary gland to secrete saliva; the Bluetooth controller is used for receiving a control signal sent by the control subunit and is arranged in the carrier; the stimulation end of the intraoral stimulation sub unit is positioned at the outer side of the tooth socket and is used for stimulating the salivary gland; the device also comprises a detection part for detecting the intraoral environment data of the patient; the control subunit is connected with the Bluetooth controller in a Bluetooth mode, and the control subunit is in wireless connection with the artificial intelligence unit.

3. The system of claim 2, wherein the stimulation portion includes a stimulation electrode for outputting a stimulation current; the battery is used for supplying power to the stimulating electrode, and the biological current controller is arranged on a connecting line of the battery and the stimulating electrode circuit and is used for outputting stable current; the Bluetooth controller is respectively connected with the battery and the biological current controller in a control way; the stimulating electrode is a stimulating end of the stimulating part; the stimulation electrode penetrates through the side wall of the carrier, and the current output end of the stimulation electrode is used for stimulating the salivary gland of the patient.

4. The system of claim 3, wherein the bioelectric current controller controls the stimulation electrode to generate a bioelectric current that indirectly stimulates salivary glands by stimulating parasympathetic nerves.

5. The treatment system for chronic xerostomia according to claim 2, characterized in that said intelligent control subunit is any one of a smartphone, a tablet computer, a laptop computer.

6. The system of claim 5, wherein the control subunit is configured to set at least one of a current intensity, a current frequency, an operating time, and an operating frequency of the stimulation portion.

7. The system of claim 2, wherein the carrier is a mouthpiece.

8. The system of claim 7, wherein the mouthpiece is a hidden mouthpiece and the stimulation portion is mounted on an inner sidewall of the mouthpiece.