CN216257073U - Chest pain on-line monitoring system based on intelligent bracelet - Google Patents

Abstract

The utility model relates to a chest pain online monitoring system based on an intelligent bracelet, which comprises: intelligent bracelet: the system comprises a heart rate acquisition module, an electrocardio acquisition module, an SOS (emergency service) first-aid call module, a GPS (global positioning system) positioning module and a step counting module; chest pain data intelligent evaluation system: comprises a communication module, a knowledge base module and an inference engine module; a data terminal: the system comprises an intelligent doctor APP at a doctor end and a chest pain center call response platform at a service end. The chest pain data evaluation system integrates an SOS intelligent bracelet, a chest pain data intelligent evaluation system and a data terminal. The system utilizes the universality and portability of the intelligent bracelet, so that the whole-course management and closed-loop tracking of chest pain crowds can be realized; the national monitoring is realized, and no matter chest pain patients or recessive risk groups can monitor the physical sign information; the universal system realizes the universalization, gets through the resource sharing of hospitals and institutions at all levels, and improves the emergency treatment efficiency.

Description

Chest pain on-line monitoring system based on intelligent bracelet

Technical Field

The utility model belongs to the technical field of medical health and intelligent equipment, and particularly relates to a chest pain online monitoring system based on an intelligent bracelet.

Background

The chest pain has high morbidity, the life-long incidence rate of the crowd is about 20-40%, and the annual incidence rate is about 15.5%. Acute chest pain is also the most common complaint of emergency admission of patients, and the chest pain patients in the American statistical emergency department probably exceed 800 ten thousand patients per year, account for 5.4 percent of the total emergency patients, and have a higher proportion in China, which accounts for about 5 to 30 percent. The most aggressive category of acute chest pain, cardiogenic chest pain, is mostly caused by Acute Myocardial Infarction (AMI). Acute chest pain is also an important clinical symptom of cardiovascular diseases and is an important reason for the treatment of patients with cardiovascular diseases. The number of cardiovascular diseases (CVD) in the country is estimated to exceed 2.9 million, with AMI of not less than 250 million.

Beginning in 2013, the construction of the Chinese chest pain center has achieved significant success in emergency treatment of acute chest pain patients, but the Chinese chest pain center is only for emergency management and not for health management. The current management object of chest pain is limited to the management of patients after acute chest pain happens, the health management of high-risk groups before the onset of the chest pain, the follow-up management of patients who do not receive treatment and postoperative patients are not involved, and the national management is not realized. Only the FMC-B process is covered, the treatment before the disease onset, the treatment from the disease onset to the first medical contact and the postoperative rehabilitation are not concerned, and the whole-course management is not realized. The obvious problem of the phenomenon is the deficiency of acute chest pain health management, and the Internet + medical treatment brings opportunity for health management, and the mobile medical treatment App, the wearable monitoring equipment, the emergency call system and the like are rapidly switched into the field of health management.

In the united states, the country that established the earliest centers for chest pain, 10% of medical apps were connected to external devices, mostly health tracking devices, followed by heart rate monitoring and smart watches; more than half of the wearable devices are worn on the wrist, and another 23% can be worn on the chest; nearly 90% of the data can be automatically collected in real time and transmitted to the cloud for analysis. Through the devices, intervention is performed on an individual level through recording and transmitting of information, so that the device plays a positive role in prevention and control of cardiovascular diseases, greatly improves the convenience and accuracy of disease management, and is beneficial to timely finding and dealing with emergencies. However, both the construction and development of the chest pain center and the application of the health tracking device are in a relatively independent state, and a chest pain management network integrating follow-up, management and first aid is not available for a while. In China, the chest pain center is only first aid management and not health management. Related researches are mostly developed aiming at a certain aspect of cardiovascular diseases, are fragmented, are incomplete in management population, incomplete in management content and management mode, and do not form a complete health management network.

In the prior art, publication numbers are: CN107103179A, entitled thoracic pain first-aid medical networking system and application method thereof, mainly uses first aid and dispatch of thoracic pain, and a thoracic pain center carries out medical monitoring on admitted thoracic pain patients, integrates corresponding medical equipment, and carries out thoracic pain management on the admitted patients. Therefore, the technology does not manage chest pain of high risk people before hospital, postoperative patients and other risk people, and a complete health management network system is not formed.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide an intelligent bracelet-based chest pain online monitoring system, which aims to realize online dynamic monitoring of chest pain risk groups and a comprehensive and complete chest pain health management network system through an intelligent wearable device, namely a bracelet, with a relatively wide popularization rate.

In order to achieve the purpose, the utility model provides an online chest pain monitoring system based on a bracelet, and the following technical scheme is adopted. The method mainly comprises an intelligent bracelet, an intelligent chest pain data evaluation system and a data terminal, namely a one-key chest pain rescue emergency management system.

The intelligent wristband mainly has the functions of collecting crowd health data, carrying out emergency call and daily patient follow-up visit, and the chest pain data intelligent evaluation system is a clinical decision support system and mainly utilizes an intelligent terminal and data collected clinically for analysis and is used for assisting medical staff in making medical decisions; a data terminal: the system comprises an intelligent doctor APP at a doctor end and a chest pain center call response platform at a service end, and a complete data link from a chest pain patient to first aid is formed.

The intelligent bracelet includes following several modules:

heart rate acquisition module: the module is based on photoelectric signal acquisition and is used for acquiring daily heart rate data and continuous dynamic heart rate data when chest pain occurs.

An electrocardio acquisition module: the module is used for acquiring continuous dynamic electrocardiosignals when a patient with chest pain calls for first aid based on acquisition of bioelectric signals.

SOS emergency call module: the module is realized based on a 4G communication network and is mainly used for a chest pain patient to carry out first aid request and remote guidance through a chest pain center by one key when chest pain occurs. Second, the module can be used as a communication function for daily patient follow-up.

The GPS positioning module is mainly used for positioning the position of a user, can automatically position the position information of the patient when the patient needs the SOS emergency treatment by one key, and shortens the time from the connection of the emergency call to the dispatching of the emergency treatment.

A step counting module: the module is composed of an acceleration sensor, on one hand, the module can record the daily step number and the motion state of a user, on the other hand, when a patient falls suddenly, the module can detect an abnormal state, an alarm is automatically sent to a chest pain center through an SOS emergency call module, and a central service staff connects with the call module of the patient to inquire the state. When contact is not available, first aid is dispatched to the patient based on the positioning information.

On the basis of the introduction, the chest pain data intelligent evaluation system is composed of a knowledge base, an inference machine and a communication module.

Wherein, communication module comprises above-mentioned heart rate module, electrocardio module to and the medical treatment equipment in hospital. The heart rate, the electrocardio and the medical equipment module uploads the collected chest pain data to the data management platform.

The knowledge base module stores medical knowledge of major chest pain symptoms including Acute Coronary Syndrome (ACS), aortic dissection, Pulmonary Embolism (PE), pneumothorax, pericarditis, pericardial stuffing, esophageal rupture and the like.

The inference engine module is specifically used for comparing and inferring data and a related knowledge base by a chest pain assessment engine after information generated by a patient in the process of seeing a doctor and home health management, including medical history, diseases, inspection and examination results, medication information, personal health files and the like, enters a data management platform, and feeding back the inference results to doctors and patients. In addition, the system intelligently analyzes and interprets data according to heart rate and electrocardio data uploaded by the communication module, evaluates whether chest pain occurs currently, the current chest pain degree and the like, feeds back results to a chest pain center, and the chest pain center carries out follow-up tracking on patients according to the evaluation results.

A data terminal: comprises an intelligent doctor APP at a doctor end and a chest pain center call response platform at a service end,

doctor end intelligence doctor APP realizes looking over of first aid patient comprehensive information report before art, historical data's playback.

The service end chest pain center calls the response platform to realize the functions of whole-process voice transcription, disease information recording, preoperative emergency comprehensive report generation and the like.

Further, the SOS emergency call module comprises an automatic call button and an active call button, a metal contact is arranged on the active call button, and the metal contact and a metal contact of the electrocardio acquisition module positioned on the back of the bracelet form a single-lead electrocardio monitoring loop; the heart rate acquisition module is arranged on the back of the smart bracelet; the data terminal further comprises a voice interaction module, a GPS position sharing module and a basic physiological index acquisition module.

The chest pain data evaluation system integrates an SOS intelligent bracelet, a chest pain data intelligent evaluation system and a data terminal. The system utilizes the universality and portability of the intelligent bracelet, so that the whole-course management and closed-loop tracking of chest pain crowds can be realized; the national monitoring is realized, and no matter chest pain patients or recessive risk groups can monitor the physical sign information; the universal system realizes the universalization, gets through the resource sharing of hospitals and institutions at all levels, and improves the emergency treatment efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent bracelet;

fig. 2 is a schematic structural diagram of the back side of the smart bracelet;

FIG. 3 is a schematic diagram of the operation of the on-line detection system;

in the figure, 1-smart bracelet, 101-heart rate acquisition module, 102-electrocardiogram acquisition module, 103-automatic call button and 104-active call button.

Detailed Description

In order that the objects and aspects of the utility model will become more apparent, the utility model is further described in conjunction with the accompanying drawings and detailed description.

As shown in fig. 1-3, the chest pain on-line detection system based on the smart band of the present invention specifically includes:

intelligent bracelet: the system comprises a heart rate acquisition module for acquiring heart rate data based on photoelectric signals, an electrocardio acquisition module for acquiring electrocardio signals based on bioelectric signals, an SOS emergency call module for realizing emergency requests and remote guidance based on a 4G communication network, a GPS positioning module for positioning the position of a user, and a step counting module for recording the daily step number and the motion state of the user and detecting the abnormal state of the user;

chest pain data intelligent evaluation system: the intelligent chest pain diagnosis system comprises a communication module in communication connection with an intelligent bracelet, a knowledge base module for storing chest pain related medical knowledge, and an inference engine module for comparing, reasoning and grading the knowledge base and feeding inference results back to doctors and patients;

a data terminal: the system comprises an intelligent doctor APP at a doctor end and a chest pain center call response platform at a service end.

Further, the SOS emergency call module includes an auto-call button and an active-call button.

Furthermore, a metal contact is arranged on the active call button, and the metal contact of the electrocardio acquisition module positioned on the back of the bracelet form a single-lead electrocardio monitoring loop.

Further, heart rate acquisition module sets up the back that is located intelligent bracelet.

Furthermore, the data terminal also comprises a voice interaction module, a GPS position sharing module and a basic physiological index acquisition module.

When the utility model is used for the concrete work,

the heart rate acquisition module acquires heart rate signals based on a photoelectric signal principle, and the daily heart rate signals are acquired at a certain frequency and uploaded to a data management system in real time.

When a chest pain patient suffers from chest pain, an active call button of the SOS communication module is pressed by one key to call a chest pain emergency center, the heart rate module starts to acquire continuous dynamic data while the chest pain center is connected, meanwhile, when the chest pain patient presses the active call button of the SOS communication module, a metal contact on a finger contact button and a metal contact of the electrocardio acquisition module on the back of a bracelet form a single-lead electrocardio monitoring loop, dynamic electrocardio data acquisition is started at the moment, and data are uploaded to a data management system in real time.

When the one-key emergency treatment is started, the GPS positioning module can automatically start to position the current position of the chest pain patient, and the current position is immediately uploaded to the data management system after the positioning is successful.

The step-counting module collects corresponding data for daily health management. Further, when the patient falls suddenly, the module can detect an abnormal state, automatically sends an alarm to the chest pain center through the SOS emergency treatment module, and a central service staff connects the automatic call button module of the patient to inquire the state. When contact is not available, first aid is dispatched to the patient based on the positioning information.

The utility model provides an intelligent chest pain data evaluation system based on an intelligent bracelet. The chest pain data intelligent evaluation system is a clinical decision support system and is mainly used for assisting medical staff in making medical decisions. The system intelligently evaluates and compares the data with a related knowledge base by the health data uploaded by the bracelet and combining the information generated by the patient in the process of seeing a doctor and managing the home health, including medical history, diseases, inspection and examination results, medication information, personal health files and the like, conjectures the current physiological state of the patient, and feeds back the inference result to the doctor and the patient. When an abnormal result is generated, the result is pushed to the chest pain center at the first moment, the center service staff inquires the state of the patient through the communication function of the bracelet, and whether emergency personnel are dispatched or not is selected according to the self-statement of the patient. Further when the service personnel can not normally contact the patient, the center service personnel can dispatch emergency personnel to the patient according to the position information of the SOS bracelet in the process of chest pain positioning by the GPS.

The data terminal, namely the one-key rescue chest pain first-aid management system, comprises an intelligent doctor APP at a doctor end and a server end emergency treatment platform, wherein after a patient initiates an emergency treatment request through an SOS intelligent bracelet, the server end calls an answering platform to automatically start an alarm to connect a chest pain center customer service staff for first-aid confirmation. The chest pain center attendant assists the patient in getting through 120, the patient emergency contact, the hospital chest pain department, etc. The system background automatically collects the current dynamic heart rate and electrocardio data of the patient, electronic medical record files and health files, automatically arranges emergency voice conversations into formatted data files, forms an emergency comprehensive report before operation, and pushes the report to relevant personnel such as 120 emergency responders, emergency medical service hospital doctors and the like.

Claims (5)

1. The utility model provides a chest pain on-line monitoring system based on intelligence bracelet, its characterized in that, this monitoring system includes:

smart bracelet (1): the system comprises a heart rate acquisition module (101) for acquiring heart rate data based on photoelectric signals, an electrocardio acquisition module (102) for acquiring electrocardiosignals based on bioelectric signals, an SOS (emergency call system) emergency call module for realizing emergency requests and remote guidance based on a 4G (fourth generation) communication network, a GPS (global positioning system) positioning module for positioning the position of a user, and a step counting module for recording the daily steps and motion states of the user and detecting the abnormal state of the user;

chest pain data intelligent evaluation system: the intelligent chest pain diagnosis system comprises a communication module in communication connection with an intelligent bracelet (1), a knowledge base module for storing chest pain related medical knowledge, and an inference engine module for comparing, reasoning and grading with the knowledge base and feeding inference results back to doctors and patients;

a data terminal: the system comprises an intelligent doctor APP at a doctor end and a chest pain center call response platform at a service end.

2. The system for monitoring chest pain on line based on smart band as claimed in claim 1, wherein the SOS emergency call module comprises an automatic call button (103) and an active call button (104).

3. The chest pain on-line monitoring system based on the smart band as claimed in claim 2, wherein the active talk button (104) is provided with a metal contact, and the metal contact of the ecg collection module (102) located on the back of the smart band form a single lead ecg monitoring loop.

4. The intelligent bracelet-based chest pain online monitoring system according to claim 1, wherein the heart rate acquisition module (101) is disposed on the back of the intelligent bracelet (1).

5. The system according to claim 1, wherein the data terminal further comprises a voice interaction module, a GPS location sharing module and a basic physiological index collecting module.

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