CN217793038U - Intracranial physiological parameter monitoring device and remote monitoring system - Google Patents

Abstract

The utility model relates to an intracranial physiological parameter monitoring devices and remote monitoring system. The intracranial physiological parameter monitoring device comprises: a host; the probe end of the sensor is provided with a pressure sensing chip, a temperature sensing chip and a cerebral oxygen saturation detection chip; the pressure sensing chip is used for detecting intracranial pressure, the temperature sensing chip is used for detecting intracranial temperature, and the brain oxygen saturation detection chip is used for detecting intracranial brain oxygen saturation; the transmitting electrode slice is attached outside the skull and used for transmitting electromagnetic wave signals to the skull; the receiving electrode slice is attached outside the skull and used for receiving the electromagnetic wave signals transmitted in the skull; the three-axis sensor is carried on the electrode plate and used for acquiring the shaking information of the skull; each electrode plate and the three-axis sensor are in signal connection with the host; the host machine is provided with a display screen for displaying intracranial pressure, temperature and cerebral oxygen saturation information; the host computer is provided with a wireless communication module for remote wireless interaction. The utility model discloses be favorable to promoting the monitoring precision.

Description

Intracranial physiological parameter monitoring device and remote monitoring system

Technical Field

The utility model belongs to the technical field of medical monitoring, concretely relates to intracranial physiological parameter monitoring devices and remote monitoring system.

Background

The monitoring of the intracranial physiological parameters provides safety guarantee for the craniocerebral minimally invasive surgery and is beneficial to improving the survival rate of high-risk patients.

For a patient using a breathing machine, the removal of the tracheal cannula of the breathing machine is changed according to the experience of each doctor, so that the secondary intubation condition caused by misjudgment exists, and the patient experience is poor.

For patients using sedatives, the dosage of the sedative is determined according to the instruction and the visual observation condition of the patients, the effect of the sedative with a certain dosage cannot be accurately monitored in real time, and the condition that the dosage is excessive or insufficient and needs secondary treatment exists, so that the use of the sedative at the next time cannot be guided.

The existing intracranial physiological parameter monitor does not consider the influence of the change of the environment, such as bump, emergency brake of an ambulance, reduction of environmental temperature and the like, on the change of the intracranial physiological parameters of a patient, so that the monitored intracranial physiological parameters are not accurate enough. In addition, the existing intracranial physiological parameter monitor can only transmit data in a medical place through a local area network and cannot carry out remote monitoring.

SUMMERY OF THE UTILITY MODEL

Based on the above-mentioned shortcomings and deficiencies in the prior art, it is an object of the present invention to at least solve one or more of the above-mentioned problems in the prior art, in other words, to provide an intracranial physiological parameter monitoring device and a remote monitoring system that meet one or more of the above-mentioned needs.

In order to achieve the purpose of the utility model, the utility model adopts the following technical scheme:

an intracranial physiological parameter monitoring device comprising:

a host;

the sensor is in signal connection with the host; the probe end of the sensor is provided with a pressure sensing chip, a temperature sensing chip and a cerebral oxygen saturation detection chip; the pressure sensing chip is used for detecting intracranial pressure, the temperature sensing chip is used for detecting intracranial temperature, and the brain oxygen saturation detection chip is used for detecting intracranial brain oxygen saturation;

the transmitting electrode slice is attached outside the skull and used for transmitting electromagnetic wave signals to the skull;

the receiving electrode slice is attached outside the skull and used for receiving the electromagnetic wave signals transmitted in the skull;

the three-axis sensor is carried on the transmitting electrode slice or the receiving electrode slice and is used for acquiring the shaking information of the skull;

the transmitting electrode slice, the receiving electrode slice and the three-axis sensor are all in signal connection with the host;

the host machine is provided with a display screen for displaying intracranial pressure, temperature and cerebral oxygen saturation information;

the host computer is provided with a wireless communication module for remote wireless interaction.

As a preferred scheme, the host has a drug action observation function switching button; when the medicine effect observation function switching button is pressed, the display interface of the display screen of the host computer is switched to the intracranial pressure waveform which changes along with time.

As a preferred scheme, the sensor, the transmitting electrode plate, the receiving electrode plate and the triaxial sensor are respectively connected with the host through cables.

As a preferred scheme, the intracranial physiological parameter monitoring device further comprises a UPS (uninterrupted power supply), and the UPS is electrically connected with the host.

Preferably, the main machine is provided with an adjusting knob for adjusting the frequency of the electromagnetic waves emitted by the emitter electrode plate.

Preferably, the host computer is provided with an alarm for executing alarm when intracranial pressure, temperature or cerebral oxygen saturation is out of the set range.

Preferably, the alarm is an audible alarm, an optical alarm or an audible and visual alarm.

Preferably, the wireless communication module is a 4G communication module or a 5G communication module.

The utility model also provides an intracranial physiological parameter remote monitoring system, include as above arbitrary scheme intracranial physiological parameter monitoring devices, still diagnose data platform including the hospital, data platform wireless communication is diagnose with the hospital to the host computer.

Preferably, the intracranial physiological parameter monitoring device is mounted on an ambulance or a medical ship.

Compared with the prior art, the utility model, beneficial effect is:

(1) The utility model discloses an intracranial physiological parameter monitoring devices, the multiple items such as integrated intracranial pressure, temperature, cerebral oxygen saturation and brain electromagnetic wave signal detect the function in an organic whole to still utilize the three-axis sensor to acquire the information that rocks of skull, so that revise the measuring result of intracranial pressure, temperature, cerebral oxygen saturation and brain electromagnetic wave signal in view of the above, be favorable to promoting intracranial physiological parameter monitoring precision;

(2) The host machine is provided with a wireless communication module to realize remote interaction and facilitate the wireless transmission of intracranial physiological parameter monitoring to a remote end;

(3) The design of the medicine action observation function switching button is convenient for medical care personnel to know the effect of the medicine after the medicine is injected so as to guide the adjustment of the injection amount of the medicine;

(4) The UPS standby power supply is designed, when the external power supply of the host computer is powered off, the UPS standby power supply is automatically started to continuously supply power to the host computer, and the safety is improved;

(5) The utility model discloses an intracranial physiological parameter remote monitoring system realizes that the data platform of diagnosing of hospital in time learns intracranial physiological parameter information of critical patient to take timely effectual rescue measures.

Drawings

Fig. 1 is a schematic structural diagram of an intracranial physiological parameter monitoring device according to embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of the host and the sensor according to embodiment 1 of the present invention;

fig. 3 is a schematic structural diagram of an intracranial physiological parameter remote monitoring system according to embodiment 1 of the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention, the following description will explain embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.

Example 1:

as shown in fig. 1, the intracranial physiological parameter monitoring device of the present embodiment includes a host 1, a sensor 2, a transmitting electrode plate 3, a receiving electrode plate 4, and a three-axis sensor 5.

The host 1 of the present embodiment functions as a data receiving and processing center.

As shown in fig. 2, the sensor 2 of the present embodiment is connected to the host 1 through a cable, thereby realizing signal connection. The sensor 2 punches the skull, the probe end is placed in a ventricle, and the sensor is provided with double electrodes and can return intracranial pressure, temperature, oxygen saturation and other signals at the same time. The probe end of the sensor 2 is provided with a pressure sensing chip, a temperature sensing chip and a cerebral oxygen saturation detection chip, the pressure sensing chip is used for detecting intracranial pressure, the temperature sensing chip is used for detecting intracranial temperature, and the cerebral oxygen saturation detection chip is used for detecting intracranial cerebral oxygen saturation.

The transmitting electrode plate 3 of the embodiment is in signal connection with the host 1 through a cable, and when the transmitting electrode plate 3 is used, the transmitting electrode plate 3 is attached to the outside of the skull, specifically to the back of the ear, and is used for transmitting electromagnetic wave signals to the intracranial;

the receiving electrode plate 4 of the embodiment is in signal connection with the host 1 through a cable, and when the receiving electrode plate 4 is used, the receiving electrode plate 4 is attached to the outside of a skull, specifically can be attached to the back of an ear and is used for receiving electromagnetic wave signals transmitted in the skull; thereby obtaining brain wave signals.

The triaxial sensor 5 of the present embodiment is in signal connection with the host 1 through a cable, is carried on a transmitting electrode plate or a receiving electrode plate, and is used for acquiring the cranium shaking information. According to the embodiment, the influence of the shaking of the skull on the intracranial physiological parameters is monitored according to the change condition of the sensor and electrode plate data caused by the returned shaking of the skull, so as to balance and correct errors generated by the shaking of the skull.

Specifically, the host of the embodiment has a display screen, a wireless communication module and a drug action observation function switching button M, and the host has software for analyzing and processing signals returned by the sensor, the electrode plate and the triaxial sensor, outputting the signals in the form of data and waveforms in a combined manner, and displaying the signals on the display screen. The drug action observation function switching button designed on the host machine is pressed when the patient is clinically injected with the sedative, and the host machine automatically judges the use effect of the sedative according to the change of intracranial pressure, for example: the waveform of the intracranial pressure within 1 hour after the action of the injected medicament is changed compared with that before the injection of the medicament, and whether the analyzed medicament is sufficient can be checked when the medicament is used next time. In addition, the host can also analyze the breathing condition of the patient and output the respiratory wave through the intracranial oxygen saturation signal. The waveform conversion and display can refer to the prior art and are not described herein.

Wherein, wireless communication module is 5G communication module, also can adopt 4G communication module, guarantees the smooth and easy of communication. In addition, the drug effect observation function switching button may be a physical button or a touch button on a display screen.

The host of the embodiment is also provided with an alarm for executing alarm when the intracranial pressure, temperature or cerebral oxygen saturation is out of the set range. The alarm can be selected from an audible alarm, a light alarm or an audible and visual alarm, and is specifically selected according to actual requirements.

The intracranial physiological parameter monitoring device can be applied to bumpy remote environments such as ambulances, ships and the like.

As shown in fig. 3, the intracranial physiological parameter remote monitoring system of this embodiment includes the above-mentioned intracranial physiological parameter monitoring device I, cloud database II, ambulance network platform III and hospital diagnosis and treatment data platform IV, the host computer through intracranial physiological parameter monitoring device I and cloud database II are through 5G wireless communication, cloud database II and hospital diagnosis and treatment data platform IV are through 5G wireless communication in order to realize information transmission, or, the host computer through intracranial physiological parameter monitoring device I and ambulance network platform III are through bluetooth or local area network communication, ambulance network platform III and hospital diagnosis and treatment data platform IV are through 5G wireless communication in order to realize information transmission, can in time send intracranial physiological parameter information of critical patient to hospital diagnosis and treatment data platform, so that medical care personnel can take timely and effective rescue measures. Wherein, the intracranial physiological parameter monitoring device is arranged on an ambulance.

In addition, the intracranial physiological parameter remote monitoring system of the embodiment can also be applied to medical ships.

Example 2:

the intracranial physiological parameter monitoring device of the present embodiment is different from that of embodiment 1 in that:

the intracranial physiological parameter monitoring device also comprises a UPS (uninterrupted power supply), and the UPS is electrically connected with the host; when the UPS is used, when an external power supply connected with the host is powered off, the UPS is automatically started and supplies power for the host temporarily, so that the patient is prevented from being away from monitoring due to an emergency, and the safety is improved;

the intracranial physiological parameter remote monitoring system adopts the intracranial physiological parameter monitoring device;

other structures can refer to embodiment 1.

Example 3:

the intracranial physiological parameter monitoring apparatus of the present embodiment is different from that of embodiment 1 in that:

the host machine is also provided with an adjusting knob for adjusting the frequency of the electromagnetic waves emitted by the emitting electrode slice; when the electromagnetic wave transmission device is used, the frequency of the electromagnetic waves transmitted by the transmitting electrode plate can be adjusted by manually rotating the adjusting knob, so that the electromagnetic wave transmission device is convenient and quick;

the intracranial physiological parameter remote monitoring system adopts the intracranial physiological parameter monitoring device of the embodiment;

other structures can refer to embodiment 1.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing has been a detailed description of the preferred embodiments and principles of the present invention, and it will be apparent to those skilled in the art that variations may be made in the specific embodiments based on the concepts of the present invention, and such variations are considered as within the scope of the present invention.

Claims (10)

1. An intracranial physiological parameter monitoring device, comprising:

a host;

the sensor is in signal connection with the host; the probe end of the sensor is provided with a pressure sensing chip, a temperature sensing chip and a cerebral oxygen saturation detection chip; the pressure sensing chip is used for detecting intracranial pressure, the temperature sensing chip is used for detecting intracranial temperature, and the brain oxygen saturation detection chip is used for detecting intracranial brain oxygen saturation;

the transmitting electrode slice is attached outside the skull and is used for transmitting electromagnetic wave signals to the skull;

the receiving electrode slice is attached outside the skull and used for receiving the electromagnetic wave signals transmitted in the skull;

the three-axis sensor is carried on the transmitting electrode slice or the receiving electrode slice and is used for acquiring the shaking information of the skull;

the transmitting electrode slice, the receiving electrode slice and the three-axis sensor are all in signal connection with the host;

the host machine is provided with a display screen and is used for displaying intracranial pressure, temperature and cerebral oxygen saturation information;

the host computer is provided with a wireless communication module for remote wireless interaction.

2. The intracranial physiological parameter monitoring device according to claim 1, wherein the host has a drug action observation function switch button; when the drug effect observation function switching button is pressed, the display interface of the display screen of the host computer is switched to the waveform of the intracranial pressure which changes along with time.

3. The intracranial physiological parameter monitoring device according to claim 1, wherein the sensor, the transmitting electrode plate, the receiving electrode plate and the triaxial sensor are respectively connected to the host machine through cables.

4. The intracranial physiological parameter monitoring device as recited in claim 1, further comprising a UPS backup power source electrically connected to the host.

5. The intracranial physiological parameter monitoring device according to claim 1, wherein the host computer has an adjusting knob for adjusting the frequency of the electromagnetic waves emitted by the emitter electrode pad.

6. The intracranial physiological parameter monitoring device according to claim 1, wherein the host computer has an alarm for performing an alarm when intracranial pressure, temperature or cerebral oxygen saturation is out of a set range.

7. The intracranial physiological parameter monitoring device according to claim 6, wherein the alarm is an audible alarm, an optical alarm, or an audible and visual alarm.

8. The intracranial physiological parameter monitoring device as recited in claim 1, wherein the wireless communication module is a 4G communication module or a 5G communication module.

9. A remote intracranial physiological parameter monitoring system, comprising the intracranial physiological parameter monitoring device as defined in any one of claims 1-8, and further comprising a hospital diagnosis and treatment data platform, wherein the host computer is in wireless communication with the hospital diagnosis and treatment data platform to realize information transmission.

10. The intracranial physiological parameter remote-monitoring system according to claim 9, wherein the intracranial physiological parameter monitoring device is mounted on an ambulance or medical ship.

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