CN111047289A - Rapid data transmission system based on 5G technology for trauma surgery rescue - Google Patents

Abstract

The invention relates to a rapid data transmission system based on a 5G technology for rescuing in trauma surgery, in particular to the field of wireless communication. The method comprises the following steps: the system comprises a pre-yard terminal, a background management terminal and an in-yard terminal; the hospital-front terminal is used for acquiring hospital-front patient information and sending the information to the background management terminal, the background management terminal is used for obtaining an illness state evaluation result according to the hospital-front patient information, the background management terminal is further used for sending the illness state evaluation result to the hospital-front management terminal and displaying the illness state evaluation result, and the hospital-front patient information comprises patient state information and hospital-front time information; and the in-hospital terminal is used for acquiring the patient state information and the pre-hospital time information from the background management system. The technical problem of how to control and improve the first-aid treatment level is solved, and the emergency treatment system is suitable for medical rescue in hospitals and disasters.

Description

Rapid data transmission system based on 5G technology for trauma surgery rescue

Technical Field

The invention relates to the field of wireless communication, in particular to a 5G technology-based rapid data transmission system for trauma surgery rescue.

Background

Under the condition of large-scale accidental disaster accidents, how to organize rescue force in time by accurately evaluating disaster site information, timely and effectively rescue individuals or people on site, carry out necessary medical treatment, save lives, relieve disabilities, timely obtain front patient information, coordinate rear medical resource distribution and timely transmit data is of great importance.

Data transmission under different communication technology backgrounds, different modes of presentation exist, from a telephone in front, to the object of data transmission of patient data, text, spectra and even images in time. The data bandwidth of different communication technologies implies different data capabilities.

From the emergency medical system: there are three sectors that require frequent and efficient data transmission during the rescue activity, including: pre-hospital emergency treatment, emergency treatment in emergency department, ICU (intensive care unit) in hospital, and CCU (coronary heart disease care unit). The three aspects are closely matched to form an emergency chain for information transmission, and any link in the emergency chain plays an irreplaceable role in emergency work.

For sudden injuries (diseases) such as severe wounds, chest pain, cerebral apoplexy and the like, multi-system and multi-special-purpose normative and efficient combined treatment is one of the keys of successful treatment. Compared with the increasingly detailed division of specialized departments and the increasingly strong specialized treatment capability in China, the development of the multi-discipline combined treatment capability is relatively slow, the current situations that the overall treatment capability is relatively weak, the treatment outcome varies greatly among hospitals and the like are presented, and the death rate and disability rate of sudden injuries (diseases) such as severe wounds, chest pain, cerebral apoplexy and the like in China are higher than those in developed countries in the world.

Disclosure of Invention

The invention aims to solve the technical problem of how to control and improve the first-aid and treatment level.

The technical scheme for solving the technical problems is as follows: a rapid data transmission system based on 5G technology for use in the rescue of trauma surgery comprising: the system comprises a pre-yard terminal, a background management terminal and an in-yard terminal;

the hospital-front terminal is used for acquiring hospital-front patient information and sending the information to the background management terminal, the background management terminal is used for obtaining an illness state evaluation result according to the hospital-front patient information, the background management terminal is further used for sending the illness state evaluation result to the hospital-front management terminal and displaying the illness state evaluation result, and the hospital-front patient information comprises patient state information and hospital-front time information;

and the in-hospital terminal is used for acquiring the patient state information and the pre-hospital time information from the background management system.

The invention has the beneficial effects that: according to the scheme, the time flow control equipment records the patient's information of receiving a call, people in different departments can use the flow control equipment, and can synchronously review the information of receiving a call recorded by other people for the same patient, so that the medical staff can view the accepted diagnosis of the patient, the control of each link for treatment is realized, the transmission of first-aid information is enhanced, the rescue effectiveness of critical patients is improved, the medical quality of hospitals is improved, and the technical problem of how to control and improve the first-aid treatment level is solved.

On the basis of the technical scheme, the invention can be further improved as follows.

Further, the patient state information includes first-aid departure state information, site state information, return state information, and hospital state information, and the pre-hospital time information includes first-aid departure time information, site time information, return time information, and hospital time information that correspond to the patient state information in sequence.

The beneficial effect who adopts above-mentioned further scheme is that this scheme is through starting the right first aid, arriving the scene, returning to the hospital from the scene, returning to 4 key points in hospital and taking notes for when later stage patient goes wrong, can accurately investigate out the mistake personnel.

Further, the patient state information further comprises patient basic information, and the patient basic information comprises blood oxygen saturation degree information, blood type information, pulse information and body temperature information of the patient.

Further, the background management system comprises a cloud server, the pre-hospital terminal is used for acquiring the patient information and storing the patient information to the cloud server, and the pre-hospital terminal comprises a current diagnosis receiving module and a historical diagnosis receiving module;

the current diagnosis receiving module is used for acquiring patient information and storing the patient information to the cloud server, the current diagnosis receiving module is used for receiving the patient information and then acquiring current time as diagnosis receiving time information, the current diagnosis receiving module is also used for receiving diagnosis confirmation information input by a user and acquiring current time as end time information, and the current diagnosis receiving module is also used for sending the end time and the diagnosis receiving time information to the cloud server;

the historical diagnosis receiving module is used for acquiring the diagnosis receiving time information, the diagnosis content information and the end time information corresponding to the patient verification information from the cloud server according to the patient verification information.

The technical scheme has the advantages that the time spent from the diagnosis receiving to the end of the diagnosis receiving can be clearly recorded after the setting, and the time spent in which link is more can be accurately found out after the patient's condition is delayed.

Further, the background management terminal comprises a data center module and a user management module, the data center module is used for receiving and storing the in-hospital equipment information, the patient information and the illness state evaluation result, and the user management module is used for inputting or managing department information, medical staff information and staff permission information.

The beneficial effect of adopting the above further scheme is that after the setting, the user can utilize the terminal before the hospital or the terminal in the hospital to check the patient information, the illness state evaluation result and the equipment information in the hospital stored in the data center module.

Further, the terminal includes removal auxiliary assembly and mobile medical equipment before the institute, mobile medical equipment includes parameter monitor, 12 lead electrocardio appearance, full-automatic biochemical analysis appearance, B ultrasonic, POCT, blood coagulation tester, mobile auxiliary assembly includes two-dimensional code printer, radio frequency bracelet and PDA.

Advantages of additional aspects of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic system structure diagram of an embodiment of the rapid data transmission system for the 5G technology-based trauma surgical rescue according to the invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

The embodiment is basically as shown in the attached figure 1:

the quick data transmission system based on the 5G technology for the trauma surgery rescue in the embodiment comprises: the system comprises a pre-hospital terminal 1, a background management terminal 2 and an in-hospital terminal 3;

the hospital-in-front terminal 1 is used for acquiring hospital-in-front patient information and sending the information to the background management terminal 2, the hospital-in-front patient information in the embodiment comprises identity information and preliminary illness state examination information of a patient, the background management terminal 2 is used for obtaining an illness state evaluation result according to the hospital-in-front patient information, the illness state evaluation result in the embodiment is obtained by examining the patient information by a doctor on duty in a hospital and is input into the background management terminal 2, the background management terminal 2 is also used for sending the illness state evaluation result to the hospital-in-front management terminal and displaying the same, the hospital-in-front management terminal in the embodiment receives the illness state evaluation result sent by the background management terminal 2 and then displays the same to a user for examination, and the hospital-in-front patient information comprises patient;

the terminal 3 in the hospital is used for acquiring the patient state information and the pre-hospital time information from the background management system.

The invention has the beneficial effects that: according to the scheme, the time flow control equipment records the patient's information of receiving a call, people in different departments can use the flow control equipment, and can synchronously review the information of receiving a call recorded by other people for the same patient, so that the medical staff can view the accepted diagnosis of the patient, the control of each link for treatment is realized, the transmission of first-aid information is enhanced, the rescue effectiveness of critical patients is improved, the medical quality of hospitals is improved, and the technical problem of how to control and improve the first-aid treatment level is solved.

On the basis of the technical scheme, the invention can be further improved as follows.

Optionally, in some other embodiments, the patient state information includes first-aid departure state information, site state information, return state information, and hospital state information, and the pre-hospital time information includes first-aid departure time information, site time information, return time information, and hospital time information, which sequentially correspond to the patient state information.

This scheme is through starting the right first aid, arriving the scene, returning to the hospital from the scene, getting back to 4 key points in hospital and taking notes for when later stage patient goes wrong, can accurately investigate out the mistake personnel.

Optionally, in some other embodiments, the patient status information further includes patient basis information including blood oxygen saturation information, blood type information, pulse information, and body temperature information of the patient.

Optionally, in some other embodiments, the background management system includes a cloud server 4, the pre-hospital terminal 1 is configured to obtain patient information and store the patient information in the cloud server 4, and the pre-hospital terminal 1 includes a current medical examination receiving module 5 and a historical medical examination receiving module 6;

the current consultation module 5 is used for acquiring patient information and storing the patient information in the cloud server, the current consultation module 5 is used for acquiring current time as consultation time information after receiving the patient information, the current consultation module 5 is also used for receiving diagnosis confirmation information input by a user and acquiring the current time as end time information, and the current consultation module 5 is also used for sending the end time and the consultation time information to the cloud server 4;

the historical diagnosis receiving module 6 is configured to obtain, from the cloud server 4, diagnosis receiving time information, diagnosis content information, and end time information corresponding to the patient verification information according to the patient verification information.

The time spent from the diagnosis receiving to the end of the diagnosis receiving can be clearly recorded after the setting, and the time spent in which link is more can be accurately found out after the illness state of the patient is delayed.

Optionally, in some other embodiments, the background management terminal 2 includes a data center module 7 and a user management module, the data center module 7 is configured to receive and store the in-hospital device information, the patient information, and the affection assessment result, and the user management module 8 is configured to enter or manage department information, medical staff information, and staff permission information.

After such setting, the user can view the patient information, the affection assessment result, and the in-hospital device information stored in the data center module 7 by using the pre-hospital terminal 1 or the in-hospital terminal 3.

Optionally, in some other embodiments, the pre-hospital terminal 1 includes a mobile auxiliary device and a mobile medical device, and both the pre-hospital terminal 1 and the in-hospital terminal 3 in this embodiment may be PDAs, where the PDAs are time flow control devices, and specifically may be association a 5000. The mobile medical equipment comprises a parameter monitor, a 12-lead electrocardiograph, a full-automatic biochemical analyzer, a B-mode ultrasonic analyzer, a POCT (point of care testing) and a blood coagulation tester, the mobile auxiliary equipment comprises a two-dimensional code printer, a radio frequency bracelet and a PDA (personal digital assistant), and the POCT in the embodiment is rapid bedside inspection.

It should be noted that the above embodiments are product embodiments corresponding to the above method embodiments, and for the description of each structural device and the optional implementation in this embodiment, reference may be made to the corresponding description in the above method embodiments, and details are not repeated herein.

The reader should understand that in the description of this specification, reference to the description of the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A rapid data transmission system based on 5G technology for use in the rescue of trauma surgery, comprising: the system comprises a pre-yard terminal, a background management terminal and an in-yard terminal;

the hospital-front terminal is used for acquiring hospital-front patient information and sending the information to the background management terminal, the background management terminal is used for obtaining an illness state evaluation result according to the hospital-front patient information, the background management terminal is further used for sending the illness state evaluation result to the hospital-front management terminal and displaying the illness state evaluation result, and the hospital-front patient information comprises patient state information and hospital-front time information;

and the in-hospital terminal is used for acquiring the patient state information and the pre-hospital time information from the background management system.

2. The rapid data transmission system for 5G-based rescue for trauma surgery according to claim 1, characterized in that: the patient state information comprises first-aid departure state information, field state information, return state information and courtyard state information, and the pre-courtyard time information comprises first-aid departure time information, field time information, return time information and courtyard time information which sequentially correspond to the patient state information.

3. The rapid data transmission system for 5G-based rescue for trauma surgery according to claim 2, characterized in that: the patient state information further comprises patient basic information, and the patient basic information comprises blood oxygen saturation degree information, blood type information, pulse information and body temperature information of the patient.

4. The rapid data transmission system for 5G-based rescue for trauma surgery according to claim 1, characterized in that: the background management system comprises a cloud server, the pre-hospital terminal is used for acquiring the patient information and storing the patient information to the cloud server, and the pre-hospital terminal comprises a current diagnosis receiving module and a historical diagnosis receiving module;

the current diagnosis receiving module is used for acquiring patient information and storing the patient information to the cloud server, the current diagnosis receiving module is used for receiving the patient information and then acquiring current time as diagnosis receiving time information, the current diagnosis receiving module is also used for receiving diagnosis confirmation information input by a user and acquiring current time as end time information, and the current diagnosis receiving module is also used for sending the end time and the diagnosis receiving time information to the cloud server;

the historical diagnosis receiving module is used for acquiring the diagnosis receiving time information, the diagnosis content information and the end time information corresponding to the patient verification information from the cloud server according to the patient verification information.

5. The rapid data transmission system for 5G-based rescue for trauma surgery according to claim 1, characterized in that: the backstage management terminal comprises a data center module and a user management module, the data center module is used for receiving and storing in-hospital equipment information, patient information and the suffering situation assessment result, and the user management module is used for inputting or managing department information, medical staff information and staff permission information.

6. The rapid data transmission system for 5G-based rescue for trauma surgery according to claim 1, characterized in that: the pre-hospital terminal comprises a mobile auxiliary device and a mobile medical device, wherein the mobile medical device comprises a parameter monitor, a 12-lead electrocardiograph, a full-automatic biochemical analyzer, a B-ultrasonic analyzer, a POCT (point of care testing) and a blood coagulation tester, and the mobile auxiliary device comprises a two-dimensional code printer, a radio frequency bracelet and a PDA (personal digital assistant).

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