CN113066573A - Pre-hospital emergency monitoring and diagnosis method based on 5G communication technology - Google Patents

Abstract

The invention discloses a pre-hospital emergency monitoring and diagnosing method based on a 5G communication technology, which comprises the following steps of S1: 120 the first aid center receives first aid information of the patient and the preliminary analysis judges the current condition and the cause of the patient to form first data; step S2: and (4) moving the vehicle-mounted CT ambulance under the 5G communication environment, actually analyzing and judging the current condition and the etiology of the patient after the vehicle-mounted CT ambulance arrives at the scene to form second data, and synchronously transmitting the second data to the hospital command center system. The invention discloses a pre-hospital emergency monitoring and diagnosis method based on a 5G communication technology, which has a more effective emergency diagnosis and treatment method, a better treatment scheme and more accurate corresponding measures, and realizes the closed-loop innovation mode construction of hospital medical health based on advanced technologies such as 5G, AI, big data and the like.

Description

Pre-hospital emergency monitoring and diagnosis method based on 5G communication technology

Technical Field

The invention belongs to the technical field of pre-hospital emergency monitoring and diagnosis, and particularly relates to a pre-hospital emergency monitoring and diagnosis method based on a 5G communication technology.

Background

The 120 emergency medical system is an important component in the urban medical security system, the 120 emergency ambulance is the core of the emergency medical system, the audio and video data are transmitted to an emergency center through a network by mounting a camera and wireless video transmission equipment on the 120 emergency ambulance, the emergency center can monitor the dynamic information such as the position and the state of the emergency ambulance in time in a large area range through the received audio and video data, and the condition of an emergency scene and the emergency process in the emergency vehicle can be seen in real time.

According to the scheme, the rescue condition of the patient on the emergency ambulance is recorded and monitored, the monitoring of the emergency ambulance is also important in actual conditions, measures are often required to be taken according to the condition of the patient to shorten the running time and the emergency measures of the emergency ambulance as much as possible in actual conditions, so that the condition that the patient cannot be timely rescued and the optimal treatment opportunity is missed due to delay of the emergency ambulance on the road is avoided.

The authorization notice number is: CN103413025B, entitled inventive patent of a system and a method for monitoring emergency ambulance, the technical proposal thereof discloses that the system comprises:

the monitoring terminal is used for receiving a preliminary diagnosis result of an emergency patient on the emergency ambulance and sending the preliminary diagnosis result to the monitoring server;

the monitoring equipment is used for monitoring the emergency ambulance and sending a monitoring result to the monitoring server;

the monitoring server comprises a diagnosis result receiving module, a monitoring task creating module, an execution flow returning module and a monitoring module;

the diagnostic result receiving module is used for receiving the preliminary diagnostic result sent by the monitoring terminal;

the monitoring task creating module is used for creating a monitoring task for the emergency ambulance;

the execution flow return module is used for extracting the execution flow of the emergency ambulance corresponding to the primary diagnosis result and returning the execution flow to the emergency ambulance;

the monitoring module is used for executing the monitoring task and judging whether the emergency ambulance executes the execution process according to a monitoring result returned by the monitoring equipment;

wherein, the execution flow return module comprises:

the execution process searching sub-module is used for searching an execution process of the emergency ambulance corresponding to the preliminary diagnosis result, and the execution process comprises at least one of alarm pulling, red light running and retrograde motion and at least one of alarm pulling, red light running and retrograde motion;

and the execution flow return submodule is used for returning the execution flow to the emergency ambulance through the dispatching system, or informing the emergency ambulance of the execution flow through voice broadcast ".

Taking the above invention patent as an example, although the monitoring emergency ambulance is mentioned, the technical scheme of the invention is different from the invention, the invention not only monitors the emergency ambulance by the 5G communication technology, but also reasonably distributes medical resources for a hospital integrated system and a central hospital area system, and also discloses remote consultation, treatment and the like, and the invention can monitor and diagnose the treatment process of a patient from the emergency ambulance to a hospital in real time.

Therefore, the above problems are further improved.

Disclosure of Invention

The invention mainly aims to provide a pre-hospital emergency monitoring and diagnosis method based on a 5G communication technology, which has a more effective emergency diagnosis and treatment method, a better treatment scheme and more accurate corresponding measures, and realizes the closed-loop innovation mode construction of hospital medical health based on advanced technologies such as 5G, AI, big data and the like.

In order to achieve the above purpose, the invention provides a method for monitoring and diagnosing pre-hospital emergency based on 5G communication technology, which comprises the following steps:

step S1: 120 the emergency center (of the hospital system) receives the emergency information of the patient and the preliminary analysis determines the current condition and the cause of the patient to form first data;

step S2: the vehicle-mounted CT ambulance is taken out under the 5G communication environment, the current condition and the etiology of the patient are actually analyzed and judged after the vehicle-mounted CT ambulance arrives at the scene, so that second data are formed, and the second data (5G communication) are synchronously transmitted to the hospital command center system;

step S3: the hospital command center system judges whether corresponding emergency treatment is needed or not according to the second data, if so, the front and back information data of the patient subjected to the emergency treatment are synchronously transmitted to the hospital command center system, and the hospital command center system judges the state of an illness to form third data;

step S4: and the hospital command center system judges that the patient is transferred to the hospital system or the central institution system for treatment according to the third data (the factors include the distance between the patient and the hospital, and the like).

As a further preferable embodiment of the above technical means, step S4 is specifically implemented as the following steps:

step S4.1: the hospital system carries out diagnosis and treatment on the patient;

step S4.2: the central yard system diagnoses and treats the patient.

As a further preferred embodiment of the above technical solution, step S4.1 is specifically implemented as the following steps:

step S4.1.1: the hospital system carries out first emergency diagnosis and treatment on the patient to obtain a first diagnosis and treatment result (comprising real-time vital sign data of the patient and historical vital sign data in a vital sign database, which is beneficial to treatment), and processes according to the first diagnosis and treatment result;

step S4.1.2: if the first diagnosis and treatment result is within the treatment range of the hospital system, performing local processing;

step S4.1.3: and if the first diagnosis and treatment result is not within the treatment range of the hospital system, the application center institution system carries out remote consultation through the emergency monitoring system and the first-aid visualization system.

As a further preferable embodiment of the above technical solution, the step S4.1.3 is specifically implemented as the following steps:

step S4.1.3.1: the real-time data of the patient are collected and transmitted to a central yard system through a 5G communication and emergency visualization system;

step S4.1.3.2: the central hospital system conducts remote guidance diagnosis and treatment, whether referral is needed or not is judged according to real-time data of the patient, and in the referral process, the vehicle-mounted CT ambulance conducts emergency treatment through the vehicle-mounted emergency system (if needed, the hospital system conducts referral, and the central hospital system conducts preparation for receiving treatment).

As a further preferred technical solution of the above technical solution, the first aid visualization system includes an ICU sign visualization system, a respiratory sign visualization system, an intraoperative sign visualization system, a dialysis sign visualization system, a remote sign visualization system, and a mobile billboard.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

In the preferred embodiment of the present invention, those skilled in the art should note that the hospital system and central institution system, etc. referred to in the present invention can be regarded as the prior art.

The integrated hospital system is a primary hospital and a subordinate hospital; the central courtyard system is a superior hospital.

Preferred embodiments.

The invention discloses a pre-hospital emergency monitoring and diagnosing method based on a 5G communication technology, which comprises the following steps of:

step S1: 120 the emergency center (of the hospital system) receives the emergency information of the patient and the preliminary analysis determines the current condition and the cause of the patient to form first data;

step S2: the vehicle-mounted CT ambulance is taken out under the 5G communication environment, the current condition and the etiology of the patient are actually analyzed and judged after the vehicle-mounted CT ambulance arrives at the scene, so that second data are formed, and the second data (5G communication) are synchronously transmitted to the hospital command center system;

step S3: the hospital command center system judges whether corresponding emergency treatment is needed or not according to the second data, if so, the front and back information data of the patient subjected to the emergency treatment are synchronously transmitted to the hospital command center system, and the hospital command center system judges the state of an illness to form third data;

step S4: and the hospital command center system judges that the patient is transferred to the hospital system or the central institution system for treatment according to the third data (the factors include the distance between the patient and the hospital, and the like).

Specifically, step S4 is implemented as the following steps:

step S4.1: the hospital system carries out diagnosis and treatment on the patient;

step S4.2: the central yard system diagnoses and treats the patient.

More specifically, step S4.1 is embodied as the following steps:

step S4.1.1: the hospital system carries out first emergency diagnosis and treatment on the patient to obtain a first diagnosis and treatment result (comprising real-time vital sign data of the patient and historical vital sign data in a vital sign database, which is beneficial to treatment), and processes according to the first diagnosis and treatment result;

step S4.1.2: if the first diagnosis and treatment result is within the treatment range of the hospital system, performing local processing;

step S4.1.3: and if the first diagnosis and treatment result is not within the treatment range of the hospital system, the application center institution system carries out remote consultation through the emergency monitoring system and the first-aid visualization system.

Further, step S4.1.3 is specifically implemented as the following steps:

step S4.1.3.1: the real-time data of the patient are collected and transmitted to a central yard system through a 5G communication and emergency visualization system;

step S4.1.3.2: the central hospital system conducts remote guidance diagnosis and treatment, whether referral is needed or not is judged according to real-time data of the patient, and in the referral process, the vehicle-mounted CT ambulance conducts emergency treatment through the vehicle-mounted emergency system (if needed, the hospital system conducts referral, and the central hospital system conducts preparation for receiving treatment).

Still further, the first aid visualization system includes an ICU sign visualization system, a respiratory sign visualization system, an intraoperative sign visualization system, a dialysis sign visualization system, a remote sign visualization system, and a mobile billboard.

It should be noted that the technical features of the hospital system and the central hospital area system related to the present patent application should be regarded as the prior art, and the specific structure, the operation principle, the control mode and the spatial arrangement mode of the technical features may be selected conventionally in the field, and should not be regarded as the invention point of the present patent, and the present patent is not further specifically described in detail.

It will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.

Claims (5)

1. A pre-hospital emergency monitoring and diagnosis method based on a 5G communication technology is characterized by comprising the following steps:

step S1: 120 the first aid center receives first aid information of the patient and the preliminary analysis judges the current condition and the cause of the patient to form first data;

step S2: the vehicle-mounted CT ambulance is taken out under the 5G communication environment, the current condition and the etiology of the patient are actually analyzed and judged after the vehicle-mounted CT ambulance arrives at the scene, so that second data are formed, and the second data are synchronously transmitted to the hospital command center system;

step S3: the hospital command center system judges whether corresponding emergency treatment is needed or not according to the second data, if so, the front and back information data of the patient subjected to the emergency treatment are synchronously transmitted to the hospital command center system, and the hospital command center system judges the state of an illness to form third data;

step S4: and the hospital command center system judges whether the patient is transferred to the hospital system or the central institution system for treatment according to the third data.

2. The method for monitoring and diagnosing pre-hospital emergency based on 5G communication technology as claimed in claim 1, wherein step S4 is implemented as the following steps:

step S4.1: the hospital system carries out diagnosis and treatment on the patient;

step S4.2: the central yard system diagnoses and treats the patient.

3. The method for monitoring and diagnosing pre-hospital emergency based on 5G communication technology as claimed in claim 2, wherein step S4.1 is implemented as the following steps:

step S4.1.1: the integrated medical system carries out first emergency diagnosis and treatment on the patient to obtain a first diagnosis and treatment result, and processing is carried out according to the first diagnosis and treatment result;

step S4.1.2: if the first diagnosis and treatment result is within the treatment range of the hospital system, performing local processing;

step S4.1.3: and if the first diagnosis and treatment result is not within the treatment range of the hospital system, the application center institution system carries out remote consultation through the emergency monitoring system and the first-aid visualization system.

4. The method for monitoring and diagnosing pre-hospital emergency based on 5G communication technology as claimed in claim 3, wherein the step S4.1.3 is implemented as the following steps:

step S4.1.3.1: the real-time data of the patient are collected and transmitted to a central yard system through a 5G communication and emergency visualization system;

step S4.1.3.2: the central hospital system conducts remote guidance diagnosis and treatment, whether a referral is needed or not is judged according to real-time data of a patient, and in the referral process, the vehicle-mounted CT ambulance carries out first-aid treatment through the vehicle-mounted first-aid system.

5. The method of claim 4, wherein the first aid visualization system comprises an ICU sign visualization system, a respiratory sign visualization system, an intraoperative sign visualization system, a dialysis sign visualization system, a remote sign visualization system, and a mobile billboard.