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CN-121987955-A - Medical device and control method thereof

CN121987955ACN 121987955 ACN121987955 ACN 121987955ACN-121987955-A

Abstract

The application relates to a medical device and a control method thereof, wherein the control method comprises the steps of responding to a starting signal, controlling an acquisition module to monitor initial physiological data in real time and comparing the initial physiological data with standard physiological data; and the control stimulation module receives the first stimulation parameters and outputs corresponding stimulation pulse signals through the first electrode and/or the second electrode. By the design of the control method, the medical equipment can establish an accurate mapping relation between the three-dimensional physiological state of the treatment area and the working power requirements of the bilateral electrodes by means of the cooperation of the acquisition module, the stimulation module and the control module, so that the treatment area is subjected to more accurate and targeted signal stimulation, and the treatment effect of the medical equipment is ensured.

Inventors

  • JIA YAN
  • WU XUWEN
  • TANG HUAQING

Assignees

  • 上海杉翎医疗科技有限公司

Dates

Publication Date
20260508
Application Date
20260320

Claims (11)

  1. 1. A method of controlling a medical device, comprising: Responding to a starting signal, controlling an acquisition module to monitor initial physiological data in real time, and comparing the initial physiological data with standard physiological data; Generating a first stimulation parameter according to the comparison result, and sending the first stimulation parameter to a stimulation module; And controlling the stimulation module to receive the first stimulation parameters and outputting corresponding stimulation pulse signals through the first electrode and/or the second electrode.
  2. 2. The method of claim 1, wherein the controlling the stimulation module to receive the first stimulation parameter and output a corresponding stimulation pulse signal via the first electrode and/or the second electrode comprises: outputting a first stimulation pulse signal through the first electrode and/or the second electrode; Controlling the acquisition module to monitor real-time physiological data and comparing the real-time physiological data with standard physiological data; if the real-time physiological data is out of the standard physiological data range, generating a second stimulation parameter according to the comparison result, and sending the second stimulation parameter to a stimulation module; controlling the stimulation module to receive the second stimulation parameters and outputting second stimulation pulse signals through the first electrode and/or the second electrode; and controlling the acquisition module to continuously monitor the real-time physiological data.
  3. 3. The method of controlling a medical device according to claim 1, further comprising, after the controlling the stimulation module to receive the first stimulation parameter and output a corresponding stimulation pulse signal through the first electrode and/or the second electrode: controlling the acquisition module to monitor real-time physiological data and comparing the real-time physiological data with preset physiological data; And adjusting the size of the stimulation pulse signals output by the first electrode and/or the second electrode according to the comparison result.
  4. 4. A method of controlling a medical device according to claim 3, wherein adjusting the magnitude of the stimulation pulse signal output by the first electrode and/or the second electrode according to the comparison result comprises: If the real-time physiological data is lower than the preset physiological data, the numerical value of the stimulation pulse signal is increased; And if the real-time physiological data is higher than the preset physiological data, reducing the numerical value of the stimulation pulse signal.
  5. 5. The method of claim 3, further comprising, after said controlling said acquisition module to monitor real-time physiological data and comparing said real-time physiological data with preset physiological data: generating real-time parameters according to the comparison result; and controlling the opening and closing of the stimulation module according to the real-time parameters.
  6. 6. The method for controlling a medical device according to claim 5, wherein controlling the on/off of the stimulation module according to the real-time parameter comprises: If the real-time physiological data is judged to be restored to be within the standard physiological data range and tend to be stable according to the real-time parameters, the stimulation module is controlled to suspend outputting the stimulation pulse signal; and if the real-time physiological data is still out of the standard physiological data range according to the real-time parameters, controlling the stimulation module to continuously output a stimulation pulse signal.
  7. 7. The method for controlling a medical device according to claim 5, wherein the controlling the opening and closing of the stimulation module according to the real-time parameter further comprises: And if the real-time physiological data is judged to be restored to be within the standard physiological data range according to the real-time parameters and fluctuation exists, controlling the stimulation module to output the least effective stimulation pulse signal.
  8. 8. The method of controlling a medical device according to claim 1, wherein the comparing the initial physiological data with standard physiological data comprises: the initial physiological data are sent to an edge AI module, and data processing is carried out; The first stimulation parameters generated by the edge AI module are acquired.
  9. 9. A medical device, comprising: the implanting device comprises an acquisition module, a stimulation module and a control module, wherein the control module is electrically connected with the acquisition module and the stimulation module respectively; The medical equipment comprises an acquisition module, a stimulation module and a control module, wherein the acquisition module is used for acquiring physiological data information, the stimulation module comprises a first electrode and a second electrode, the first electrode and the second electrode are used for outputting different stimulation pulse signals at different positions, and the control module is used for executing the control method of the medical equipment according to any one of claims 1-8.
  10. 10. The medical device of claim 9, further comprising an edge AI module electrically connected to the control module and configured to process information acquired by the acquisition module.
  11. 11. The medical apparatus of claim 9, further comprising a power supply device inductively coupled to the implant device and configured to supply power to the implant device.

Description

Medical device and control method thereof Technical Field The application relates to the field of medical equipment, in particular to medical equipment and a control method thereof. Background In modern medicine, implantable medical devices have become an important tool for the treatment of certain diseases, such as hypoglossal nerve stimulators, which are widely used for the treatment of respiratory disorders, sleep problems related diseases. Taking Obstructive Sleep Apnea Syndrome (OSAS) as an example, in the treatment process, a hypoglossal nerve stimulator is implanted in the mandible of a patient, and an application with a transmission coil fixed thereon is matched, and the application is arranged in the mandible and corresponds to the hypoglossal nerve stimulator implanted in the body, so as to provide wireless energy signal transmission for the hypoglossal nerve stimulator. However, in existing designs, electrical stimulation of the stimulator may cause the patient's tongue to skew to one side, resulting in failure to address the patient's respiratory disorder even if the stimulator provides electrical stimulation. Disclosure of Invention The application provides a medical device and a control method thereof, which are used for solving part or all of the defects in the related art. The application provides a control method of medical equipment, which comprises the following steps: Responding to a starting signal, controlling an acquisition module to monitor initial physiological data in real time, and comparing the initial physiological data with standard physiological data; Generating a first stimulation parameter according to the comparison result, and sending the first stimulation parameter to a stimulation module; And controlling the stimulation module to receive the first stimulation parameters and outputting corresponding stimulation pulse signals through the first electrode and/or the second electrode. Optionally, the controlling the stimulation module to receive the first stimulation parameter and output a corresponding stimulation pulse signal through the first electrode and/or the second electrode includes: outputting a first stimulation pulse signal through the first electrode and/or the second electrode; Controlling the acquisition module to monitor real-time physiological data and comparing the real-time physiological data with standard physiological data; if the real-time physiological data is out of the standard physiological data range, generating a second stimulation parameter according to the comparison result, and sending the second stimulation parameter to a stimulation module; controlling the stimulation module to receive the second stimulation parameters and outputting second stimulation pulse signals through the first electrode and/or the second electrode; and controlling the acquisition module to continuously monitor the real-time physiological data. Optionally, after the controlling the stimulation module to receive the first stimulation parameter and output a corresponding stimulation pulse signal through the first electrode and/or the second electrode, the method further includes: controlling the acquisition module to monitor real-time physiological data and comparing the real-time physiological data with preset physiological data; And adjusting the size of the stimulation pulse signals output by the first electrode and/or the second electrode according to the comparison result. Optionally, the adjusting the size of the stimulation pulse signal output by the first electrode and/or the second electrode according to the comparison result includes: If the real-time physiological data is lower than the preset physiological data, the numerical value of the stimulation pulse signal is increased; And if the real-time physiological data is higher than the preset physiological data, reducing the numerical value of the stimulation pulse signal. Optionally, after the controlling the acquisition module monitors the real-time physiological data and compares the real-time physiological data with the preset physiological data, the method further includes: generating real-time parameters according to the comparison result; and controlling the opening and closing of the stimulation module according to the real-time parameters. Optionally, the controlling the on/off of the stimulation module according to the real-time parameter includes: If the real-time physiological data is judged to be restored to be within the standard physiological data range and tend to be stable according to the real-time parameters, the stimulation module is controlled to suspend outputting the stimulation pulse signal; and if the real-time physiological data is still out of the standard physiological data range according to the real-time parameters, controlling the stimulation module to continuously output a stimulation pulse signal. Optionally, the controlling the opening and closing of the stimulating module accor