CN113160949A - Method and server for providing doctor suggestion and mobile electrocardiogram equipment - Google Patents

Abstract

The application discloses a method for providing a doctor seeing suggestion, a server and mobile electrocardio equipment, wherein the method comprises the following steps: acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade; and determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment. Through the mode, the crisis grade is determined based on the detection result of the electrocardio data, the associated first medical institution is determined according to the first position information and the crisis grade, the medical institution for treatment can be reasonably arranged according to the corresponding crisis grade, the user can be treated timely, and the use scene of the mobile electrocardio equipment is improved.

Description

Method and server for providing doctor suggestion and mobile electrocardiogram equipment

Technical Field

The application relates to the technical field of medical treatment, in particular to a method for providing a doctor seeing suggestion, a server and mobile electrocardio equipment.

Background

Along with the development of the medical industry, more and more electrocardio equipment is used, and the electrocardio equipment is used for automatically recording the bioelectricity signals (electrocardiosignals) generated by exciting the cardiac muscle of a user during the heart activity, so as to provide a basis for clinical diagnosis and scientific research. Electrocardiography is one of the simplest and most important methods for diagnosing cardiovascular diseases. The significance of electrocardiographic examination is as follows: 1. can be used for the diagnosis of coronary heart disease, acute myocardial infarction, myocardial ischemia, myocarditis, cardiomyopathy, and pericarditis. 2. Used for identifying and diagnosing various arrhythmia. 3. The method is used for monitoring the dynamic evolution of acute myocardial infarction and evaluating the thrombolytic curative effect.

Large-scale electrocardio equipment is often used in large hospitals, and the position is relatively fixed. In remote areas such as mountainous areas and towns, small-sized electrocardiographic devices are used, or small-sized electrocardiographic devices for home use are used.

The electrocardio-equipment is located in mountainous areas, villages and towns and places where users live, medical resources in the mountainous areas and the villages and the towns are limited, and the users cannot be effectively cured in time.

Disclosure of Invention

In order to solve the above problems, the application provides a method for providing a doctor-seeing suggestion, a server and a mobile electrocardiograph, which can reasonably arrange a doctor-seeing medical institution according to a corresponding crisis level, so that a user can obtain timely treatment, and the use scene of the mobile electrocardiograph is improved.

The technical scheme adopted by the application is to provide a method for providing a doctor seeing suggestion, and the method comprises the following steps: acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade; and determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment.

Wherein, detect electrocardio data to according to the analysis of testing result and obtain the crisis grade, include: detecting the electrocardio data to obtain a target detection result; and searching for the crisis grade matched with the target detection result in the preset corresponding relation between the detection result and the crisis grade according to the target detection result.

Wherein, confirm the first medical institution that is correlated with according to first position information and crisis rank, and send the second position information of first medical institution to mobile electrocardio equipment, include: determining a medical institution associated with the first location information according to the first location information; determining a first medical institution matching the crisis grade from the medical institutions associated with the first location information according to the crisis grade; and sending the second position information of the first medical institution to the mobile electrocardio device.

The method comprises the steps of detecting electrocardio data to obtain a target detection result, analyzing the electrocardio data to obtain a diagnosis report; and obtaining a target detection result based on the diagnosis report.

Wherein, analyzing the electrocardio data to obtain a diagnosis report, comprising: analyzing the electrocardiogram data based on a preset algorithm to obtain a first diagnosis report; or, the electrocardiogram data is forwarded to the manual detection terminal for detection, a second diagnosis report is obtained, and the second diagnosis report fed back by the manual detection terminal is received.

After determining the associated first medical institution according to the first position information and the crisis level and sending the second position information of the first medical institution to the mobile electrocardiograph, the method comprises the following steps: acquiring user information logged in by the mobile electrocardio equipment; judging whether the user logs in for the first time or not; if yes, sending the user information and the electrocardio data to a first medical institution; and if not, sending the historical electrocardio data and the electrocardio data of the user to the first medical institution.

After determining the associated first medical institution according to the first position information and the crisis level and sending the second position information of the first medical institution to the mobile electrocardiograph, the method further comprises the following steps: searching for emergency contact information in the user information; and sending the detection result and the crisis level to the emergency contact.

Another technical solution adopted by the present application is to provide a server, including a processor and a memory connected to the processor; the memory is for storing program data and the processor is for executing the program data to implement any of the methods provided in the above aspects.

Another technical scheme adopted by the application is to provide a mobile electrocardiograph device, which comprises a processor, a memory and a positioning module, wherein the memory and the positioning module are connected with the processor; the positioning module is used for collecting the position information of the mobile electrocardio equipment, the memory is used for storing program data, and the processor is used for executing the program data so as to realize the following method: sending the first position information and the electrocardiogram data to a server; so that the server detects the electrocardio data to obtain a detection result; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; acquiring second position information of the first medical institution, which is sent by the server; the server detects the electrocardio data, and analyzes the electrocardio data according to a detection result to obtain a crisis grade; and acquiring when the associated first medical institution is determined according to the first position information and the crisis level.

Another technical solution adopted by the present application is to provide a computer-readable storage medium for storing program data, which when executed by a processor, is used for implementing any one of the methods provided in the above-mentioned solutions.

The beneficial effect of this application is: in contrast to the state of the art, a method of the present application for providing a medical advice, the method comprising: acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade; and determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment. Through the mode, the crisis grade is determined based on the detection result of the electrocardio data, the associated first medical institution is determined according to the first position information and the crisis grade, the medical institution for treatment can be reasonably arranged according to the corresponding crisis grade, the user can be treated timely, and the use scene of the mobile electrocardio equipment is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic flow chart diagram of a first embodiment of a method for providing a medical advice provided herein;

FIG. 2 is a schematic flow chart diagram of a second embodiment of a method for providing a medical advice provided by the present application;

FIG. 3 is a schematic flow chart of step 22;

FIG. 4 is an interaction diagram of a server, a manual detection terminal and a mobile electrocardiograph device in a second embodiment provided by the present application;

FIG. 5 is a schematic flow chart diagram of a third embodiment of a method for providing a visit recommendation provided by the present application;

FIG. 6 is a schematic flow chart diagram illustrating a fourth embodiment of a method for providing medical advice provided by the present application;

FIG. 7 is a schematic flow chart diagram of a fifth embodiment of a method for providing a medical advice provided by the present application;

FIG. 8 is a schematic flow chart diagram illustrating a sixth embodiment of a method for providing medical advice provided by the present application;

FIG. 9 is a schematic block diagram of an embodiment of a server provided by the present application;

FIG. 10 is a schematic structural diagram of an embodiment of a mobile electrocardiograph device provided by the present application

FIG. 11 is an exploded schematic view of another embodiment of a mobile electrocardiograph device;

FIG. 12 is a schematic structural diagram of an embodiment of a computer-readable storage medium provided in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. 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 application.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1, fig. 1 is a schematic flow chart of a first embodiment of a method for providing a doctor suggestion provided by the present application, the method being applied to a server, and the method including:

step 11: and acquiring first position information and electrocardiogram data sent by the mobile electrocardiogram equipment.

In some embodiments, the mobile electrocardiograph device includes a positioning module, the first position information is acquired by the positioning module of the mobile electrocardiograph device, and the electrocardiograph data is acquired by the mobile electrocardiograph device.

The mode of the Positioning module acquiring the position information may be one or more of GPS (Global Positioning System), base station, wifi (Wireless local area network), Global NAVIGATION System SATELLITE SYSTEM, and beidou Positioning.

Step 12: and detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade.

In some embodiments, the server may detect the electrocardiographic data according to the big data to obtain a detection result.

There may be 5 or 6 waves on the electrocardiogram, with P, Q, R, S, T and U from left to right; it is divided into 7 parts, namely P wave, PR segment, PR interval, QRS complex, ST segment, T wave and QT interval.

For example, diagnosing normal sinus rhythm includes: judging the direction of the P wave: the vertical type is adopted, PII is vertical, PAVR is inverted, PIII and aVF are also vertical generally; PR interval: QRS complexes follow each P-wave, PR intervals 0.12-20 seconds, and are constant at each heart beat, etc.

In some embodiments, the server sends the electrocardiographic data and the first position information to the diagnosis terminal, and the diagnosis terminal determines whether the electrocardiographic data is in an early warning state or not to obtain a detection result.

Through these tests, the test results are obtained. Such as: normal sinus rhythm, sinus arrhythmia, atrial arrhythmia, junctional arrhythmia, ventricular arrhythmia, atrioventricular block, bundle branch block, myocardial infarction, electrolyte disturbance, etc.

And after the inspection result is obtained, obtaining a corresponding crisis grade according to the detection result.

In some embodiments, after the detection result is obtained, the detection result is sent to a manual terminal for manual analysis, so as to analyze the crisis level of the detection result.

In some embodiments, the detection result is a disease corresponding to the electrocardiographic data, and crisis grade division is performed on the known disease in the server in advance to form a corresponding relation between the disease and the crisis grade. The correspondence is stored in the form of a table, as shown in the following table:

the result of the detection	Crisis rank
		A	Level 1
B	Stage 2
		C	Grade 3
D	4 stage
		E	Stage 2
F	Level 1

In some embodiments, as shown in the table above, the crisis ranks are highest at rank 1 and lowest at rank 4, e.g., rank 1 for endangered, rank 2 for critical, rank 3 for acute, and rank 4 for non-acute.

After the server obtains the detection result, traversing the detection result in the upper table to find the corresponding crisis grade, if the corresponding crisis grade is not found in the upper table, firstly confirming that the crisis grade is grade 1, and after the user is treated, the medical staff re-affirms the crisis grade according to the detection result and adds the crisis grade into the table.

Step 13: and determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment.

In some embodiments, the crisis level is set to different levels, such as high, medium, low. When the crisis level is low, the current electrocardiogram data is relatively normal, and the associated medical institution is determined based on the first position, the determined medical institution can be a primary hospital providing medical, preventive, rehabilitation and health care comprehensive services for the community. When the detection result is a medium level, the current electrocardiogram data is relatively abnormal, and the associated medical institution is determined based on the first position, the determined medical institution can be a regional hospital which provides medical and health services across several communities. When the detection result is high-grade, the current electrocardiogram data is seriously abnormal, and the related medical institution is determined based on the first position, the determined medical institution can be a hospital which provides medical and health services across regions, provinces, cities and nationwide, and is a medical prevention technical center with comprehensive medical, teaching and scientific research capabilities.

In the process, a plurality of associated medical institutions are acquired based on the first position, at the moment, the medical institutions matched with the crisis levels within the range of the first position information can be selected, and the second position information of the medical institutions is sent to the mobile electrocardio device.

In some embodiments, if the current location of the user of the mobile electrocardiograph device is located at a medical institution, but the condition of the user cannot be treated at the medical level of the medical institution, the location information of the medical institution with the higher medical treatment level is sent to the mobile electrocardiograph device, and the current medical institution is informed that the referral preparation is made, and the medical institution with the higher medical treatment level is informed that the treatment taking preparation is made.

In some embodiments, when the crisis level is obtained, information of a main doctor in the historical medical records of visiting patients in the mobile electrocardiogram is obtained, the medical level of a working medical institution of the main doctor is determined to be matched with the crisis level, the number of the main doctor is hung for the user in advance, the working medical institution of the main doctor is determined to be the medical institution associated with the first position information determination, and second position information of the medical institution is sent to the mobile electrocardiogram equipment.

In some embodiments, after the second location information of the first medical institution is sent to the mobile electrocardiograph device, user information logged in by the mobile electrocardiograph device is acquired; judging whether the user logs in for the first time or not; if yes, sending the user information and the electrocardio data to a first medical institution; and if not, sending the historical electrocardio data and the electrocardio data of the user to the first medical institution. The user information or the historical electrocardio data and the electrocardio data are sent to the first medical institution, so that the first medical institution prepares for receiving a diagnosis in advance according to the electrocardio data and treats the user in time.

In some embodiments, after sending the second location information of the first medical institution to the mobile electrocardiograph device, the crisis level and the first location information are sent to the first medical institution, and the first medical institution arranges the ambulance to go to the first location receiving user with the corresponding emergency rescue device according to the crisis level and sends the medical institution receiving information to the mobile electrocardiograph device.

In some embodiments, after the second location information of the first medical institution is sent to the mobile electrocardiograph device, the emergency contact information is searched for in the user information; and sending the detection result and the crisis level to the emergency contact. It is understood that the emergency contact may be configured as a doctor for daily visits to enable the doctor to learn the ecg data of the user and to prepare for treatment in advance. The emergency contact may also be configured as a caregiver of the user, such as a nurse or a relative, so that the caregiver can arrange the user to go to the medical institution for a medical treatment according to the detection result and the crisis level.

In an application scenario, a user uses the mobile electrocardio device in a medical institution in a village and a town, after the server acquires first position information and electrocardio data sent by the mobile electrocardio device and detects serious abnormality of the electrocardio data, a three-stage medical institution closest to the mobile electrocardio device is determined based on the first position information, and the position information of the three-stage medical institution is sent to the mobile electrocardio device.

In contrast to the state of the art, a method of the present application for providing a medical advice, the method comprising: acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade; and determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment. Through the mode, the crisis grade is determined based on the detection result of the electrocardio data, the associated first medical institution is determined according to the first position information and the crisis grade, the medical institution for treatment can be reasonably arranged according to the corresponding crisis grade, the user can be treated timely, and the use scene of the mobile electrocardio equipment is improved.

Referring to fig. 2, fig. 2 is a schematic flow chart of a second embodiment of the method for providing a doctor suggestion provided by the present application, applied to a server, and the method includes:

step 21: and acquiring first position information and electrocardiogram data sent by the mobile electrocardiogram equipment.

Step 21 has the same or similar technical solutions as those in the above embodiments, and details are not described here.

Step 22: and detecting the electrocardio data to obtain a target detection result.

In some embodiments, referring to fig. 3, step 22 specifically is:

step 221: and analyzing the electrocardio data to obtain a diagnosis report.

In some implementations, the server analyzes the electrocardiographic data based on a preset algorithm and obtains a first diagnostic report;

in some embodiments, the server forwards the electrocardiographic data to the manual detection terminal for detection to obtain a second diagnosis report, and receives the second diagnosis report fed back by the manual detection terminal.

Referring to fig. 4, fig. 4 is an interaction schematic diagram of a server, an artificial detection terminal, and a mobile electrocardiograph device in a second embodiment provided in the present application, where the mobile electrocardiograph device sends first position information and electrocardiograph data to the server, the server then sends the electrocardiograph data to the artificial detection terminal, the artificial detection terminal performs artificial analysis and detection to obtain a diagnosis report, and sends the diagnosis report to the server, the server obtains a detection result based on the diagnosis report, obtains a medical institution associated with the first position information of the mobile electrocardiograph device based on the detection result, and sends second position information of the medical institution to the mobile electrocardiograph device.

Step 222: and obtaining a target detection result based on the diagnosis report.

In some embodiments, the test result is expressed in text, and if the diagnosis report shows no abnormality, the test result is healthy; if the diagnosis report shows that xxx is abnormal, the detection result is unhealthy, and xxx is abnormal.

In some embodiments, the diagnostic report may also be scored, with the score of the score being taken as the detection result. It is understood that one of the scores represents health, and a score higher or lower than this score indicates a need for visiting the medical institution.

In some embodiments, the detection result is a specific condition, such as acute myocardial infarction, giant R-wave ST-elevation myocardial infarction, acute myocardial ischemia, ventricular flutter, ventricular fibrillation, ventricular tachycardia, supraventricular tachycardia, atrial fibrillation with ventricular pre-excitation, extreme sinus bradycardia, third-degree atrioventricular block, hyperkalemia, hypokalemia, and the like.

Step 23: and searching for the crisis grade matched with the target detection result in the preset corresponding relation between the detection result and the crisis grade according to the target detection result.

In some embodiments, the preset corresponding relationship between the detection result and the crisis level may be established in the form of a table as in the above embodiments, or a one-to-many relationship between the crisis level and the preset detection result may be established in the server, that is, one crisis level corresponds to each detection result, as shown in the following table:

crisis rank	The result of the detection
		Level 1	A、F、K、M、R
Stage 2	B、E、I、N、Q
		Grade 3	C、G、L、O、S
4 stage	D、H、J、P、T

It is understood that the letters shown in the table for the test results indicate the specific condition.

After the target detection result is obtained, the method for searching the crisis grade matched with the target detection result can be that the crisis grade and a preset detection result corresponding to the crisis grade are obtained, then the crisis grade is searched in the preset detection result so as to find out the matched detection result, and then the crisis grade is determined.

Step 24: based on the first location information, a medical institution associated with the first location information is determined.

In some embodiments, step 24 may be determining medical institutions within a first preset range of positions. It is understood that multiple medical institutions may be generally obtained, and the medical grades of the multiple medical institutions may be different.

Step 25: according to the crisis grade, a first medical institution matching the crisis grade is determined from the medical institutions associated with the first location information.

In some embodiments, according to different crisis levels, a first medical institution of different medical levels may be matched, see the following table:

crisis rank	Medical grade
		Level 1	Tri-component of Chinese Tri-component
Stage 2	Triethyl phosphate
		Grade 3	Two-agent
4 stage	Diethyl (diethylene)

It is understood that the table merely illustrates the corresponding relationship between the crisis level and the medical level, and does not limit the fixed relationship between the crisis level and the medical level.

For example, if the crisis rank 1 and there are two or three medical institutions among the medical institutions associated with the first positional information, the medical institution closest to the first positional information is selected as the target medical institution for medical care. If there is no medical institution matching the crisis rank among the medical institutions associated with the first position information, it is determined whether there is a medical institution higher than the medical rank of the medical institution matching the crisis rank among the medical institutions associated with the first position information, if so, it is determined that the medical institution is the target medical institution for medical treatment, and if not, the search range is expanded with the first position information as the center point, and a medical institution satisfying the medical rank is searched.

Step 26: and sending the second position information of the first medical institution to the mobile electrocardio device.

In some embodiments, the second location information of the medical institution is transmitted to the mobile electrocardiograph device, and the electrocardiograph data is also transmitted to the medical institution to prepare the medical institution for treatment. Historical electrocardiographic data and user information can be sent to the medical institution together, so that the medical institution can better know the condition of the user.

Referring to fig. 5, fig. 5 is a schematic flow chart of a third embodiment of the method for providing a doctor suggestion provided by the present application, the method includes:

step 51: and acquiring first position information and electrocardiogram data sent by the mobile electrocardiogram equipment.

Step 52: and detecting the electrocardiogram data to obtain a detection result.

Steps 51 to 52 have the same or similar technical solutions as those in the above embodiments, and are not described herein.

Step 53: and when the detection result meets the set requirement, acquiring the historical medical record of the medical treatment in the mobile electrocardio equipment.

In some embodiments, the detection result meeting the setting requirement specifically is to analyze the detection result to obtain a crisis level, and the crisis level meets the setting requirement. And if the set requirements are met, acquiring the historical medical records of the treatment in the mobile electrocardio equipment. And when the crisis grade does not meet the set requirement, continuously acquiring the electrocardiogram data and the position information. For example, the crisis level in the above embodiment is 1 to 4, in this embodiment, the 5 th level is further provided, and the detection result corresponding to the 5 th level is normal, that is, it is not necessary to go to the medical institution for a medical treatment.

In some embodiments, the server determines whether the detection result meets a set requirement, for example, the detection result is presented in the form of a score, different pieces of electrocardiographic data correspond to different scores, and in the scores, a score interval indicates that the electrocardiographic data of the user is normal. It is understood that the different score intervals represent abnormal levels of the electrocardiographic data of the user. And when the detection result falls within a certain score interval, acquiring the historical medical record of the mobile electrocardio equipment.

Step 54: a second medical facility in the historical encounter medical record is acquired.

It is to be appreciated that the second medical facility in the historical encounter history is at least one of the medical facilities with which the first location information is associated.

In some embodiments, where multiple second medical facilities are included in the historical medical records, the second medical facility that was last visited is selected. It can be appreciated that the physician of this second medical facility is more aware of the condition of the user.

In some embodiments, where multiple second medical institutions are included in the historical medical records, the number of visits by each second medical institution is obtained and the second medical institution with the greatest number of visits is selected. It is appreciated that the doctor of the second medical facility is more aware of the condition of the user and the user is more cognizant of the second medical facility.

In some embodiments, where multiple second medical institutions are included in the historical medical records, the current free bed of each second medical institution is obtained and the second medical institution with the most free beds is selected. It can be understood that most users using the electrocardiograph device generally need to be observed in hospital, and a medical institution with more free beds is selected, so that the users can be treated more timely.

Step 55: and sending the third position information of the second medical institution to the mobile electrocardio device.

In some embodiments, the route to the second medical facility may be sent to the mobile electrocardiograph device to guide the user to travel.

Referring to fig. 6, fig. 6 is a schematic flow chart of a fourth embodiment of the method for providing a doctor suggestion provided by the present application, the method includes:

step 61: and acquiring first position information and electrocardiogram data sent by the mobile electrocardiogram equipment.

Step 62: and detecting the electrocardiogram data to obtain a detection result.

And step 63: and when the detection result meets the set requirement, acquiring the historical medical record of the medical treatment in the mobile electrocardio equipment.

Steps 61 to 63 have the same or similar technical solutions as those in the above embodiments, and are not described herein.

Step 64: a second medical facility in the historical encounter medical record is acquired.

It is to be appreciated that the second medical facility in the historical encounter history is at least one of the medical facilities with which the first location information is associated.

Step 65: and determining the second medical institution with the shortest distance to the first position information in at least two second medical institutions.

It can be understood that the medical institution with the shortest distance to the first position information needs less time to visit, and the user can obtain more timely treatment.

And step 66: and sending the third position information of the second medical institution to the mobile electrocardio device.

Referring to fig. 7, fig. 7 is a schematic flow chart of a fifth embodiment of the method for providing a doctor suggestion provided by the present application, which includes:

step 71: and acquiring first position information and electrocardiogram data sent by the mobile electrocardiogram equipment.

Step 72: and detecting the electrocardiogram data to obtain a detection result.

Step 73: and when the detection result meets the set requirement, acquiring the historical medical record of the medical treatment in the mobile electrocardio equipment.

Steps 71-73 have the same or similar technical solutions as the above embodiments, and are not described herein.

Step 74: a second medical facility in the historical encounter medical record is acquired.

It is to be appreciated that the second medical facility in the historical encounter history is at least one of the medical facilities with which the first location information is associated. The historical medical records include at least two second medical institutions.

Step 75: and determining the second medical institution with the least current number of the patients in the at least two second medical institutions.

In some embodiments, the current number of visits may be the current number of registered visits.

For example: three second medical institutions are acquired in historical clinic cases, and the current clinic number is respectively acquired as follows: a first second medical facility 1000, a second medical facility 1500, and a third second medical facility 2000. The first second medical institution is determined to be the target medical institution for the current visit.

In some embodiments, the number of patients that can be accommodated by the medical facility should also be referenced when determining the number of visits. It is understood that medical institutions of different medical grade may accommodate different numbers of patients. If two second medical institutions are acquired in the historical clinic cases, the current clinic number acquired respectively is as follows: a first second medical facility 500, and a second medical facility 1500. And the first second medical institution can contain 300 patients, and the second medical institution can contain 2000 patients, so that the second medical institution is determined as the target medical institution for the current visit.

It can be understood that the medical institution with the least number of people currently attending a doctor indicates that the occupied medical resources are less, so that the medical institution with the least number of people currently attending a doctor can visit the doctor and obtain better medical resources, if the number of people attending the doctor is less, the number of registered people is less, the doctor and the medical equipment can be relatively abundant, and the user can obtain more timely treatment.

Step 76: and sending the third position information of the second medical institution to the mobile electrocardio device.

Referring to fig. 8, fig. 8 is a schematic flow chart of a sixth embodiment of a method for providing a doctor suggestion provided by the present application, the method comprising:

step 81: and acquiring first position information and electrocardiogram data sent by the mobile electrocardiogram equipment.

Step 82: and detecting the electrocardiogram data to obtain a detection result.

Step 83: and when the detection result meets the set requirement, acquiring the historical medical record of the medical treatment in the mobile electrocardio equipment.

Steps 81 to 83 have the same or similar technical solutions as those of the above embodiments, and are not described herein.

Step 84: a second medical facility in the historical encounter medical record is acquired.

It is to be appreciated that the second medical facility in the historical encounter history is at least one of the medical facilities with which the first location information is associated.

Step 85: medical grades of at least two second medical institutions are acquired.

The medical grade division standard is an index for evaluating hospital qualification according to the scale of medical institutions, scientific research direction, talent technical force, medical hardware equipment and the like in China. The method is unified nationwide, and the background, all properties and the like of medical institutions are not distinguished. According to the 'hospital grading management standard', hospitals are determined to be in three levels after evaluation, each level is divided into three levels, namely, A, B, C and the like, wherein the three levels of hospitals are additionally provided with special levels, so that the hospitals are divided into three levels, namely ten levels and the like. Wherein the highest grade is third grade, the lowest grade is first grade, third grade, etc.

Step 86: a medical grade associated with the test result is determined, and a second medical institution corresponding to the medical grade is determined.

And (3) presetting a medical grade associated with the detection result in the server, wherein if the detection result is serious, the corresponding medical grade is third-grade A and the like. After the medical grade is determined, a second medical institution corresponding to the medical grade is determined.

In some embodiments, if a second medical facility in the historical medical records of the visit does not find a medical facility that meets the medical grade, a medical facility of the corresponding grade is obtained. Or judging whether a medical institution higher than the medical grade exists in the second medical institutions in the historical medical record, and determining that the second medical institution is the target medical institution for the current visit.

Step 87: and sending the third position information of the second medical institution to the mobile electrocardio device.

Referring to fig. 9, fig. 9 is a schematic structural diagram of an embodiment of a server provided in the present application, where the server 90 includes a processor 91 and a memory 92 connected to the processor 91; the memory 92 is used for storing program data and the processor 91 is used for executing the program data to realize the following method:

acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade; and determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment.

Optionally, when the processor 91 is configured to execute the program data, the following method is further implemented: detecting the electrocardio data to obtain a target detection result; and searching for the crisis grade matched with the target detection result in the preset corresponding relation between the detection result and the crisis grade according to the target detection result.

Optionally, when the processor 91 is configured to execute the program data, the following method is further implemented: determining a medical institution associated with the first location information according to the first location information; determining a first medical institution matching the crisis grade from the medical institutions associated with the first location information according to the crisis grade; and sending the second position information of the first medical institution to the mobile electrocardio device.

Optionally, when the processor 91 is configured to execute the program data, the following method is further implemented: analyzing the electrocardio data to obtain a diagnosis report; and obtaining a target detection result based on the diagnosis report.

Optionally, when the processor 91 is configured to execute the program data, the following method is further implemented: analyzing the electrocardiogram data based on a preset algorithm to obtain a first diagnosis report; or, the electrocardiogram data is forwarded to the manual detection terminal for detection, a second diagnosis report is obtained, and the second diagnosis report fed back by the manual detection terminal is received.

Optionally, when the processor 91 is configured to execute the program data, the following method is further implemented: acquiring user information logged in by the mobile electrocardio equipment; judging whether the user logs in for the first time or not; if yes, sending the user information and the electrocardio data to a first medical institution; and if not, sending the historical electrocardio data and the electrocardio data of the user to the first medical institution.

Optionally, when the processor 91 is configured to execute the program data, the following method is further implemented: searching for emergency contact information in the user information; and sending the detection result and the crisis level to the emergency contact.

Referring to fig. 10, fig. 10 is a schematic structural diagram of an embodiment of a mobile electrocardiograph apparatus provided in the present application, where the mobile electrocardiograph apparatus 100 includes a processor 101, and a memory 102 and a positioning module 103 connected to the processor 101; the positioning module 103 is configured to collect position information of the mobile electrocardiograph device 100, the memory 102 is configured to store program data, and the processor 101 is configured to execute the program data, so as to implement the following method:

sending the first position information and the electrocardiogram data to a server; so that the server detects the electrocardio data to obtain a detection result; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; acquiring second position information of the first medical institution, which is sent by the server; the server detects the electrocardio data, and analyzes the electrocardio data according to a detection result to obtain a crisis grade; and acquiring when the associated first medical institution is determined according to the first position information and the crisis level.

The mobile electrocardiograph 100 may further include a touch screen, a printing component, a communication circuit, etc. as required, in addition to the processor 101, the memory 102, and the positioning module 103, which is not limited herein.

Specifically, the processor 101 is configured to control itself and the memory 102 to implement the steps in the above-described embodiments. Processor 101 may also be referred to as a CPU (Central Processing Unit). The processor 101 may be an integrated circuit chip having signal processing capabilities. The Processor 101 may also be a general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. In addition, the processor 101 may be commonly implemented by a plurality of integrated circuit chips.

Optionally, the mobile electrocardiograph device can be a tablet computer, a smart phone or other mobile terminal, and the acquisition of electrocardiograph data is completed through an external electrocardiograph acquisition box. Specifically, a data interface of the mobile electrocardiograph device is connected with an electrocardiograph acquisition box through a data line, the electrocardiograph acquisition box is in contact with a human body through a plurality of electrodes to acquire electrocardiograph data, the electrocardiograph acquisition box sends the acquired electrocardiograph data to the mobile electrocardiograph device, and the mobile electrocardiograph device performs subsequent processing on the electrocardiograph data.

Referring to fig. 11, fig. 11 is an exploded view of another embodiment of a mobile electrocardiograph device. As shown in fig. 11, the mobile electrocardiograph device includes a host 111, the host 111 includes a housing 1111 and a display 1112 embedded in the housing, the host 111 may include the processor and the memory shown in fig. 10, and may further include a communication circuit for communicating with an external device, wherein the communication circuit may include at least one of: wifi communication circuit, bluetooth communication circuit, cellular mobile communication circuit, etc.

In one implementation scenario, display 1112 is a touch-sensitive display, such that a user may interact with the mobile electrocardiograph device by touching display 1112. For example, a data acquisition icon is displayed on a display interface of a touch display screen of the mobile electrocardiograph device, and electrocardiograph data acquisition is executed when a touch signal of a user to the data acquisition icon is detected. The mobile electrocardiograph device can also utilize the touch display screen to realize the interactive operation with the user in any embodiment.

The housing 1111 includes a first side portion 11111 and a second side portion 11112 opposite to each other, and the first side portion 11111 is used for connecting with peripheral devices. In one implementation scenario, the peripheral device may include any one of the handle 112, the print assembly 113. In a specific implementation scenario, when the peripheral device is connected to the first side portion 11111, the second side portion 11112 and the peripheral device abut against the supporting surface at the same time, so that a predetermined angle is formed between a plane where the display screen 1112 is located and the supporting surface, so as to facilitate a user to observe an interface displayed on the display screen 1112, or touch the display screen 1112, where the predetermined angle may be set to 30 degrees, 35 degrees, and the like, and the embodiment is not limited in this embodiment.

In addition, in order to conveniently and quickly realize the connection between the host 111 and the peripheral device, connectors matched with each other may be further provided on the host 111 and the peripheral device. The external device includes a handle 112 as an example, positioning grooves 11113 are provided on both sides of the host 111 close to the first side portion 11111, the handle 112 includes two first positioning arms 1121 arranged oppositely, the first positioning arms 1121 and the positioning grooves 11113 are matched with each other, so that the first positioning arms 1121 can be inserted into the positioning grooves 11113, and the detachable connection between the host 111 and the handle 112 is realized. In an implementation scenario, the first side portion 11111 may further have a plurality of fastening holes (not shown), the handle 112 further includes a first mounting portion 1122 disposed between the two first positioning arms 1121, and the first mounting portion 1122 is provided with a first fastening post 11221 matched with the fastening holes. In an implementation scenario, in order to facilitate the user to carry the host 111 through the handle 112, the handle 112 further includes a handle 1123, and the handle 1123, the two first positioning arms 1121 and the first mounting portion 1122 enclose a through-slot 1124 for the user to hold, so that the user can conveniently carry the host 111. Alternatively, when the peripheral device includes the printing assembly 113, the printing assembly 113 may include two second positioning arms 1131 disposed opposite to each other, similar to the handle 112, and the second positioning arms 1131 and the positioning slots 11113 are matched with each other, so that the second positioning arms 1131 can be inserted into the positioning slots 11113 to realize the detachable connection between the host 111 and the printing assembly 113. In one implementation scenario, the printing component 113 further includes a second mounting portion 1132 disposed between the two second positioning arms 1131, and the second mounting portion 1132 is provided with a second clamping column 11321 matched with the clamping hole.

In addition, the host 111 further includes a first collecting interface 11114, a second collecting interface 11115, a switch 11116, and a sound outlet 111121, and a scanning head 111122 for scanning a barcode disposed on the housing 1111 of the second side 11112. In addition, the host 111 may further include at least one of a power adapter interface, an ethernet interface, a USB (Universal Serial Bus) interface, a SD (Secure Digital) memory card slot, a SIM (Subscriber identity Module) card slot, and an NFC (Near Field Communication) recognizer.

In addition, the Operating System (OS) of the host 111 may be based on Linux, Windows, or the like, and the embodiment is not limited in detail herein.

The handle 112 and the printing assembly 113 can be configured according to actual needs. For example, for a scene that is often carried and used outdoors, the handle 112 and the printing component 113 may be additionally reconfigured on the basis of the host 111, and for a scene that is used inside a hospital, the printing component 113 may be additionally reconfigured on the basis of the host 111, or when the host 111 is connected to an external printing device through a network, the printing component 113 may not be additionally configured, which is not illustrated herein.

It is understood that the mobile electrocardiograph device may further be selectively provided with at least one of the following components: the camera shooting assembly is used for carrying out image or video acquisition and is matched with a communication circuit to realize video interaction with a far end, the GPS positioning assembly is used for acquiring the position of the mobile electrocardio device, and the biological characteristic acquisition assembly is used for acquiring the biological characteristics of a user (such as a fingerprint acquisition assembly for acquiring fingerprints, a camera shooting assembly for acquiring pupils and the like).

Referring to fig. 12, fig. 12 is a schematic structural diagram of an embodiment of a computer-readable storage medium 120 provided in the present application, the computer-readable storage medium 120 is used for storing program data 121, and the program data 121, when executed by a processor, is used for implementing the following method steps:

acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade; determining a related first medical institution according to the first position information and the crisis level, and sending second position information of the first medical institution to the mobile electrocardio equipment;

or, sending the first position information and the electrocardiogram data to a server; so that the server detects the electrocardio data to obtain a detection result; the first position information is acquired by a positioning module of the mobile electrocardio equipment, and the electrocardio data is acquired by the mobile electrocardio equipment; acquiring second position information of the first medical institution, which is sent by the server; the server detects the electrocardio data, and analyzes the electrocardio data according to a detection result to obtain a crisis grade; and acquiring when the associated first medical institution is determined according to the first position information and the crisis level.

It is understood that the computer-readable storage medium 120 in this embodiment may be applied to a server, and may also be applied to a mobile electrocardiograph device, and specific implementation steps of the computer-readable storage medium may refer to the foregoing embodiments, which are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other manners. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules or units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated units in the other embodiments described above may be stored in a computer-readable storage medium if they are implemented in the form of software functional units and sold or used as separate products. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A method of providing a visit recommendation, the method comprising:

acquiring first position information and electrocardiogram data sent by mobile electrocardiogram equipment; the first position information is acquired by a positioning module of the mobile electrocardio device, and the electrocardio data is acquired by the mobile electrocardio device;

detecting the electrocardio data, and analyzing according to a detection result to obtain a crisis grade;

and determining a related first medical institution according to the first position information and the crisis grade, and sending second position information of the first medical institution to the mobile electrocardio device.

2. The method of claim 1,

the step of detecting the electrocardiogram data and analyzing according to the detection result to obtain the crisis grade comprises the following steps:

detecting the electrocardio data to obtain a target detection result;

and searching for the crisis grade matched with the target detection result in the corresponding relation between the preset detection result and the crisis grade according to the target detection result.

3. The method of claim 2,

the determining an associated first medical institution according to the first location information and the crisis level and sending second location information of the first medical institution to the mobile electrocardiograph device comprises:

determining a medical institution associated with the first location information according to the first location information;

determining a first medical institution matching the crisis grade from the medical institutions associated with the first location information according to the crisis grade;

and sending the second position information of the first medical institution to the mobile electrocardio device.

4. The method of claim 2,

the detecting the electrocardiograph data to obtain a target detection result comprises the following steps:

analyzing the electrocardio data to obtain a diagnosis report;

and obtaining the target detection result based on the diagnosis report.

5. The method of claim 4,

the analyzing the electrocardiogram data to obtain a diagnosis report comprises:

analyzing the electrocardiogram data based on a preset algorithm to obtain a first diagnosis report;

or, the electrocardiogram data is forwarded to a manual detection terminal for detection, a second diagnosis report is obtained, and the second diagnosis report fed back by the manual detection terminal is received.

6. The method of claim 1,

after determining the associated first medical institution according to the first position information and the crisis level and sending the second position information of the first medical institution to the mobile electrocardiograph device, the method comprises the following steps:

acquiring user information logged in by the mobile electrocardio equipment;

judging whether the user logs in for the first time or not;

if yes, sending the user information and the electrocardiogram data to the first medical institution;

and if not, sending the historical electrocardio data of the user and the electrocardio data to the first medical institution.

7. The method of claim 6,

after determining the associated first medical institution according to the first location information and the crisis level and sending the second location information of the first medical institution to the mobile electrocardiograph device, the method further comprises:

searching for emergency contact information in the user information;

and sending the detection result and the crisis grade to the emergency contact.

8. A server, comprising a processor and a memory coupled to the processor;

the memory is for storing program data, and the processor is for executing the program data to implement the method of any one of claims 1-7.

9. A mobile electrocardiogram equipment is characterized in that the mobile electrocardiogram equipment comprises a processor, a memory and a positioning module, wherein the memory and the positioning module are connected with the processor;

the positioning module is used for acquiring the position information of the mobile electrocardio device, the memory is used for storing program data, and the processor is used for executing the program data so as to realize the following method:

sending the first position information and the electrocardiogram data to a server; the server detects the electrocardiogram data to obtain a detection result; the first position information is acquired by a positioning module of the mobile electrocardio device, and the electrocardio data is acquired by the mobile electrocardio device;

acquiring second position information of the first medical institution, which is sent by the server; the server detects the electrocardiogram data, and analyzes the detection result to obtain a crisis grade; the first medical institution is determined according to the first position information and the crisis level and is acquired.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium is used for storing program data, which, when being executed by a processor, is used for carrying out the method according to any one of claims 1-7.

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