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CN-122006114-A - Trigeminal nerve electrical stimulation equipment and application method thereof

CN122006114ACN 122006114 ACN122006114 ACN 122006114ACN-122006114-A

Abstract

The invention discloses a trigeminal nerve electric stimulation device and a using method thereof, and relates to the technical field of nerve treatment, the device comprises an electric stimulator and a remote controller, wherein a connector is fixedly connected to the electric stimulator, a lead is inserted into the connecting end of the connector, the connector is used for fixing the lead, a plurality of electrode plates are fixedly connected to the outer side of the tail end of the lead, a plurality of anchor points are fixedly connected to the outer side of the lead and the front end of the electrode plates, and the remote controller is in wireless communication connection with the electric stimulator.

Inventors

  • GE FENG
  • ZHONG ZIWEN
  • LU ZHOU

Assignees

  • 复旦大学附属中山医院

Dates

Publication Date
20260512
Application Date
20260403

Claims (7)

  1. 1. The trigeminal nerve electrical stimulation equipment is characterized by comprising an electrical stimulator (1) and a remote controller (7), wherein a connector (5) is fixedly connected to the electrical stimulator (1), a wire (2) is inserted into the connecting end of the connector (5), the connector (5) is used for fixing the wire (2), a plurality of electrode plates (4) are fixedly connected to the outer side of the tail end of the wire (2), a plurality of anchor points (3) are fixedly connected to the outer side of the wire (2) and the front end of the electrode plates (4), and the remote controller (7) is connected with the electrical stimulator (1) in a wireless communication mode.
  2. 2. The trigeminal nerve electrical stimulation device according to claim 1, wherein the remote controller (7) is internally loaded with an external wireless receiving module (12), an external wireless transmitting module (13), a parameter setting module (14), a state self-checking module (15) and an abnormality alarming module (16).
  3. 3. The trigeminal nerve electrical stimulation device according to claim 1, wherein the electrical stimulator (1) is internally loaded with a processor (17), an in-vivo wireless receiving module (8), an in-vivo wireless transmitting module (9), an electrode control module (10) and a state acquisition module (11).
  4. 4. The trigeminal nerve electrical stimulation device according to claim 3, wherein the in-vivo wireless receiving module (8) is used for communicating with the remote controller (7) and receiving data information sent by the remote controller (7), the in-vivo wireless transmitting module (9) is used for communicating with the remote controller (7) and sending data information required to be sent by the electrical stimulator (1) to the remote controller (7), the electrode control module (10) is used for executing a control program according to set parameters and adjusting the electrical stimulation intensity and frequency applied to the trigeminal nerve by the electrode sheet (4), the state acquisition module (11) is used for monitoring and acquiring states of the electrode sheet (4), the electrical stimulator (1) and the battery compartment (6) embedded in a patient, and the processor (17) is used for controlling the electrical stimulator (1) embedded in the patient and processing data generated when the device is used.
  5. 5. The trigeminal nerve electrical stimulation device according to claim 2, wherein the external wireless receiving module (12) is used for communicating with the electrical stimulator (1) and receiving data information sent by the electrical stimulator (1), the external wireless transmitting module (13) is used for communicating with the electrical stimulator (1) and sending data information required to be sent by the remote controller (7) to the electrical stimulator (1), the parameter setting module (14) is used for setting working parameters, such as frequency and intensity, of the electrical stimulator (1), the state self-checking module (15) is used for self-checking states of all components of the device according to the state data of the electrode sheet (4), the electrical stimulator (1) and the battery compartment (6) acquired by the state acquisition module (11), and the abnormality alarm module (16) is used for alarming when an abnormal state of a certain component in the device is detected.
  6. 6. The trigeminal nerve electrical stimulation device according to claim 2, wherein the abnormality alarm module (16) comprises a medical treatment fixed point module (18), an emergency contact module (19) and an active alarm module (20), wherein the medical treatment fixed point module (18) is used for alarming and prompting a relevant department of a fixed point hospital to which a patient belongs when an abnormality occurs, the emergency contact module (19) is used for alarming and prompting a patient emergency contact stored in the remote controller (7), and the active alarm module (20) is used for alarming the patient himself by buzzing and flashing lights through the remote controller (7).
  7. 7. The method for using the trigeminal electro-stimulation device according to claim 1, comprising the steps of: Step one, a doctor performs comprehensive physical examination and nervous system evaluation on a patient to determine the cause and severity of trigeminal neuralgia, performs imaging examination such as Magnetic Resonance Imaging (MRI) or Computed Tomography (CT) to help the doctor understand the structure of the trigeminal neuralgia and the condition of surrounding tissues; When the patient is determined to need to perform the trigeminal nerve electric stimulation operation, designating an implementation scheme, then carrying out anesthesia on the patient, accurately positioning the patient by using a puncture needle under X-ray perspective, then inserting a catheter, then extracting the puncture needle, then inserting a lead (2), an anchor point (3) and an electrode plate (4) into the patient body through the catheter, accurately puncturing the electrode plate (4) and placing the electrode plate near the trigeminal ganglion to ensure that the electrode position is accurate and no complications occur, then inserting one end of the lead (2) into a connector (5), connecting the lead (2) through the connector (5), then adjusting the electrode plate (4) through an electric stimulator (1) to cover a pain area of the patient, and then carrying out ostomy on the patient body after evaluating the operation effect of the patient, and then burying the electric stimulator (1) into the patient body to carry out ostomy; step three, when a patient uses the device in daily life, the device can be controlled through the remote controller (7), parameters of electric stimulation are set through the remote controller (7), then the parameters are sent to the internal wireless receiving module (8) through the external wireless transmitting module (13), after the internal wireless receiving module (8) receives data, the processor (17) recognizes a data instruction, and the electrode plate (4) is controlled through the electrode control module (10); And fourthly, a state acquisition module (11) acquires state data such as voltage and current of the electrode plate (4) and the electric stimulator (1) and the battery compartment (6), and sends the state data to a remote controller (7) through an in-vivo wireless transmitting module (9), after the in-vitro wireless receiving module (12) receives the data, a state self-checking module (15) performs data analysis, self-checking is performed on the electrode plate (4) and the electric stimulator (1) and the battery compartment (6), and when the condition that the data such as voltage and current of the electrode plate (4) and the electric stimulator (1) and the battery compartment (6) are abnormal is detected, an alarm prompt is performed on a relevant department of a fixed-point hospital to which a patient belongs, an alarm prompt is performed on a patient emergency contact stored in the remote controller (7) and a buzzer and a flashing lamp are performed on the patient through the remote controller (7).

Description

Trigeminal nerve electrical stimulation equipment and application method thereof Technical Field The invention relates to the technical field of nerve treatment, in particular to trigeminal nerve electrical stimulation equipment and a using method thereof. Background The nerve electric stimulation is mainly used for treating trigeminal neuralgia by pulse radio frequency, percutaneous nerve electric stimulation, transcranial magnetic stimulation and other methods. The nerve electrical stimulation treatment of trigeminal neuralgia is a minimally invasive treatment method and can effectively relieve pain symptoms. However, when the existing trigeminal nerve electric stimulation device is used, a patient needs to be subjected to operation, then the trigeminal nerve of the patient is subjected to electric stimulation in the operation, and then the trigeminal nerve electric stimulator is taken out, however, after one operation, if the pain feedback of the patient still exists, the patient needs to be subjected to multiple operations to restrain the pain of the patient, so that the damage to the body of the patient is larger. Disclosure of Invention Aiming at the defects of the prior art, the invention provides trigeminal nerve electric stimulation equipment and a using method thereof, and solves the problems in the background art. The trigeminal nerve electrical stimulation device comprises an electrical stimulator and a remote controller, wherein a connector is fixedly connected to the electrical stimulator, a wire is inserted into the connecting end of the connector, the connector is used for fixing the wire, a plurality of electrode plates are fixedly connected to the outer side of the tail end of the wire, a plurality of anchor points are fixedly connected to the outer side of the wire and positioned at the front end of the electrode plates, and the remote controller is in wireless communication connection with the electrical stimulator. Optionally, an external wireless receiving module, an external wireless transmitting module, a parameter setting module, a state self-checking module and an abnormality alarming module are loaded in the remote controller. Optionally, the electric stimulator is internally loaded with a processor, an in-vivo wireless receiving module, an in-vivo wireless transmitting module, an electrode control module and a state acquisition module. The device comprises a remote controller, an in-vivo wireless receiving module, an in-vivo wireless transmitting module, an electrode control module, a state acquisition module and a processor, wherein the in-vivo wireless receiving module is used for communicating with the remote controller and receiving data information sent by the remote controller, the in-vivo wireless transmitting module is used for communicating with the remote controller and sending the data information required to be sent by an electric stimulator to the remote controller, the electrode control module is used for executing a control program according to set parameters and adjusting the electric stimulation intensity and frequency applied by an electrode plate to a trigeminal nerve, the state acquisition module is used for monitoring and acquiring states of the electrode plate embedded into a patient, the electric stimulator and a battery compartment, and the processor is used for controlling the electric stimulator embedded into the patient and processing data generated when the device is used. The system comprises an external wireless receiving module, an external wireless transmitting module, a parameter setting module, a state self-checking module and an abnormality alarming module, wherein the external wireless receiving module is used for communicating with an electric stimulator and receiving data information sent by the electric stimulator, the external wireless transmitting module is used for communicating with the electric stimulator and sending the data information required to be sent in a remote controller to the electric stimulator, the parameter setting module is used for setting working parameters such as frequency and strength of the electric stimulator, the state self-checking module is used for self-checking states of all parts of the equipment according to state data of an electrode plate, the electric stimulator and a battery compartment, which are acquired by the state acquisition module, and the abnormality alarming module is used for alarming when an abnormal state of a certain part of the equipment is detected. Optionally, the abnormality alarm module comprises a medical fixed point module, an emergency contact module and an active alarm module, wherein the medical fixed point module is used for alarming and prompting a relevant department of a fixed point hospital to which a patient belongs when an abnormal state occurs, the emergency contact module is used for alarming and prompting a patient emergency contact stored in a remote controller, and the