CN114694826A

CN114694826A - Pre-hospital defibrillator, transfer monitor, pre-hospital first-aid data transfer method and system

Info

Publication number: CN114694826A
Application number: CN202011609875.3A
Authority: CN
Inventors: 邬闻彬; 姜建峰; 季百苗; 梁理铭; 李志伟
Original assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd
Current assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2022-07-01

Abstract

The embodiment of the invention provides a pre-hospital defibrillator, a transfer monitor, a pre-hospital first aid data transfer method and a pre-hospital first aid data transfer system. The system comprises: pre-hospital medical equipment, transport modules and in-hospital medical equipment; the pre-hospital medical equipment is used for carrying out medical treatment on the patient before the patient is admitted and generating pre-hospital first aid data; when the transfer module is in communication connection with the pre-hospital medical equipment, the transfer module acquires pre-hospital emergency data generated by the pre-hospital medical equipment; the hospital medical equipment is used for carrying out medical treatment on the patient after the patient is admitted, and when the transfer module is in communication connection with the hospital medical equipment, the hospital medical equipment is used for acquiring pre-hospital emergency data in the transfer module so that the pre-hospital emergency data are transferred to the hospital for storage. Through the transfer module, complete pre-hospital emergency data generated by the pre-hospital medical equipment can be conveniently and safely transferred into a hospital.

Description

Pre-hospital defibrillator, transfer monitor, pre-hospital first-aid data transfer method and system

Technical Field

The invention relates to the technical field of medical information, in particular to a pre-hospital defibrillator, a transfer monitor, a pre-hospital first aid data transfer method and a pre-hospital first aid data transfer system.

Background

In order to provide early aid to a patient in need of first aid, medical personnel often use a medical device having a monitoring or first aid function, such as a defibrillator, mounted on an emergency cart to provide assistance to the patient before the patient is admitted for treatment. The pre-hospital emergency data generated in the process has important reference value for developing an emergency plan in a hospital, so the pre-hospital emergency data needs to be transferred to the hospital for use.

Currently, medical equipment can Transfer pre-hospital emergency data by means of E-Mail (E-Mail), fax and File Transfer Protocol (FTP), but only relatively simple data, such as simple emergency reports, cannot Transfer complex pre-hospital emergency data, such as holographic waveforms, trend data, and the like.

Disclosure of Invention

The embodiment of the invention provides a pre-hospital defibrillator, a transfer monitor, a pre-hospital emergency data transfer method and a pre-hospital emergency data transfer system, which are used for solving the problem that data transfer is simple in the existing pre-hospital emergency data transfer process.

In a first aspect, an embodiment of the present invention provides a pre-hospital emergency data transfer system, including: pre-hospital medical equipment, transport modules and in-hospital medical equipment;

the pre-hospital medical equipment is used for carrying out medical treatment on the patient before the patient is admitted and generating pre-hospital first aid data;

when the transfer module is in communication connection with the pre-hospital medical equipment, the transfer module acquires pre-hospital emergency data generated by the pre-hospital medical equipment;

the hospital medical equipment is used for carrying out medical treatment on the patient after the patient is admitted, and when the transfer module is in communication connection with the hospital medical equipment, the hospital medical equipment is used for acquiring pre-hospital emergency data in the transfer module so that the pre-hospital emergency data are transferred to the hospital for storage.

In one embodiment, the pre-hospital medical device comprises a defibrillator, and further comprises one or more of an infusion pump, a ventilator, an ultrasound device, an electrocardiograph, an audio acquisition device, and a video acquisition device;

the defibrillator is used for defibrillating the patient before the patient is admitted and generating pre-hospital defibrillation first-aid data;

one or more of an infusion pump, a ventilator, an ultrasound device, an electrocardiograph, an audio acquisition device, and a video acquisition device are used to acquire one or more items of pre-hospital rescue data for a patient prior to admission to a hospital.

In one embodiment, when one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device are connected to the defibrillator by a wired manner and/or a wireless manner, the defibrillator acquires one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device;

when the defibrillator is in communication connection with the transfer module, the transfer module acquires pre-hospital defibrillation emergency data and one or more items of pre-hospital emergency data in the defibrillator.

In one embodiment, when one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device is communicatively coupled to the transfer module, the transfer module acquires one or more items of pre-hospital care data acquired by the one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device from the patient;

when the defibrillator is in communication connection with the transfer module, the transfer module acquires pre-hospital defibrillation emergency data in the defibrillator.

In one embodiment, the pre-hospital emergency data transfer system further comprises a central station, wherein the medical equipment in the hospital is in communication connection with the central station;

the hospital medical equipment is used for sending the acquired pre-hospital emergency data to the central station so that the central station can store, process or view the pre-hospital emergency data.

In one embodiment, the central station and/or the in-hospital medical device is further configured to display the pre-hospital rescue data chronologically.

In one embodiment, the pre-hospital emergency data carries a label for the patient, the label being added by the pre-hospital medical device, the transfer module, or the in-hospital medical device.

In one embodiment, the pre-hospital emergency data includes:

at least one of patient information, physiological parameters, holographic waveforms, trend data, first aid information, audio data, and video data.

In one embodiment, the transfer module communicatively coupled to the pre-hospital medical device comprises: the transfer module is connected with the pre-hospital medical equipment in a wired mode and/or a wireless mode;

transport module and institute in medical equipment communication connection include: the transfer module is connected with the medical equipment in the hospital in a wired mode and/or a wireless mode.

In a second aspect, an embodiment of the present invention provides a pre-hospital emergency data transfer system, including: a pre-hospital defibrillator, a transfer monitor and an in-hospital monitor;

the pre-hospital defibrillator is used for defibrillating the patient before the patient is admitted and generating pre-hospital defibrillation first-aid data;

the transfer monitor is used for monitoring the patient before the patient is admitted and generating pre-hospital monitoring emergency data, and when the transfer monitor is in communication connection with the pre-hospital defibrillator, the transfer monitor acquires the pre-hospital defibrillation emergency data generated by the pre-hospital defibrillator;

the in-hospital monitor is used for monitoring the patient after the patient is admitted, and when the transfer monitor is connected with the in-hospital monitor, the in-hospital monitor is used for acquiring pre-hospital defibrillation emergency data and pre-hospital monitoring emergency data in the transfer monitor so that the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data are transferred to the hospital for storage.

In a third aspect, embodiments of the present invention provide a pre-hospital defibrillator,

when defibrillator before the institute and transport module communication connection, defibrillator before the institute is used for defibrillating first aid data send to transport the module before the institute with generating.

In one embodiment, when the pre-hospital defibrillator is connected with one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device and the video acquisition device in a wired manner and/or a wireless manner, the pre-hospital defibrillator is used for acquiring one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device and the video acquisition device;

when the pre-hospital defibrillator is in communication connection with the transfer module, the pre-hospital defibrillator is used for sending the pre-hospital defibrillation first-aid data and one or more items of pre-hospital first-aid data to the transfer module.

In a fourth aspect, embodiments of the present invention provide a transfer monitor,

the transfer monitor is used for monitoring the patient before the patient is admitted and generating pre-hospital monitoring first-aid data;

when the transfer monitor is in communication connection with the pre-hospital defibrillator, the transfer monitor is used for acquiring pre-hospital defibrillation emergency data generated by the pre-hospital defibrillator by defibrillating the patient before the patient is admitted.

In one embodiment, when the transfer monitor is connected with the in-hospital monitor, the transfer monitor is used for sending pre-hospital defibrillation emergency data and pre-hospital monitoring emergency data in the transfer monitor to the in-hospital monitor, so that the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data are transferred to the in-hospital monitor to be stored.

In a fifth aspect, an embodiment of the present invention provides a pre-hospital emergency data transfer system, including: pre-hospital medical equipment and transport modules;

the transfer module is also used for treating the patient after the patient is admitted, and transferring pre-hospital emergency data to the hospital for storage.

In one embodiment, the transfer module is specifically configured to transmit the pre-hospital emergency data to the central station when the transfer module is admitted to the hospital.

In a sixth aspect, an embodiment of the present invention provides a method for transferring pre-hospital emergency data, including:

the method comprises the steps that a patient is treated and pre-hospital first-aid data are generated before the patient is admitted through pre-hospital medical equipment;

connecting the transfer module with pre-hospital medical equipment, and acquiring pre-hospital emergency data generated by the pre-hospital medical equipment by the transfer module;

and connecting the transfer module with the medical equipment in the hospital, and acquiring pre-hospital emergency data in the transfer module by the medical equipment in the hospital so as to transfer the pre-hospital emergency data to the hospital for storage.

According to the pre-hospital defibrillator, the transfer monitor and the pre-hospital emergency data transfer method and system provided by the embodiment, the pre-hospital emergency data transfer system comprises pre-hospital medical equipment, a transfer module and in-hospital medical equipment; the pre-hospital medical equipment is used for carrying out medical treatment on the patient before the patient is admitted and generating pre-hospital first aid data; when the transfer module is in communication connection with the pre-hospital medical equipment, the transfer module acquires pre-hospital emergency data generated by the pre-hospital medical equipment; the hospital medical equipment is used for carrying out medical treatment on the patient after the patient is admitted, and when the transfer module is in communication connection with the hospital medical equipment, the hospital medical equipment is used for acquiring pre-hospital emergency data in the transfer module so that the pre-hospital emergency data are transferred to the hospital for storage. Through the transfer module, complete pre-hospital emergency data generated by the pre-hospital medical equipment can be conveniently and safely transferred into a hospital.

Drawings

Fig. 1 is a schematic diagram of a pre-hospital emergency data transfer system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a pre-hospital emergency data transfer system according to yet another embodiment of the present invention;

FIG. 3 is a schematic diagram of a pre-hospital emergency data transfer system according to another embodiment of the present invention;

fig. 4 is a flowchart of a method for transferring pre-hospital emergency data according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the described features, operations, or characteristics may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The pre-hospital emergency data has an important reference value for developing follow-up treatment in a hospital, and the transfer of the pre-hospital emergency data to the hospital is of great significance. The transfer can be performed through a direct transfer mode of the equipment, for example, the equipment can directly transfer the pre-hospital emergency data to the hospital through E-Mail, fax, FTP and the like. Although the system is simpler to implement, the transmitted data is simpler, and generally only simpler data, such as emergency reports, holographic waveforms, trend data, and the like, can be transmitted. In order to transfer complete pre-hospital emergency data, the data can be transferred through a cloud transmission mode, for example, the data can be transferred through cloud transfer pre-hospital emergency deployed by an equipment manufacturer. First, the equipment transmits pre-hospital emergency data to the cloud, and then the in-hospital system transfers the pre-hospital emergency data from the cloud into the hospital. Although the transmission mode can transfer complete pre-hospital emergency data, the cloud system is complex to deploy, and the problems of patient data safety and the like exist. The transfer of pre-hospital emergency data may also be performed via a pre-hospital emergency system transfer mode, i.e., data may be transferred via a pre-hospital emergency system, such as 120 system. The pre-hospital emergency system usually has a set of data system, provides service in the form of an open interface, and can acquire pre-hospital emergency data in a hospital by adopting a system developed in a customized manner through the open interface. If the equipment manufacturer is deeply affiliated with the pre-hospital emergency system, pre-hospital patient data and pre-hospital emergency data can be provided simultaneously, but customization is very difficult to implement, and the available pre-hospital emergency data is limited.

In order to solve at least one problem in the existing pre-hospital emergency data transfer mode, an embodiment of the invention provides a pre-hospital emergency data transfer system. Referring to fig. 1, a pre-hospital emergency data transfer system 10 provided in this embodiment may include: pre-hospital medical equipment 101, transport module 102, and in-hospital medical equipment 103.

The pre-hospital medical device 101 is used for medical treatment of a patient and generating pre-hospital emergency data before the patient is admitted, and may be, for example, a medical device disposed in an ambulance, including but not limited to a monitor, a defibrillator, an electrocardiograph, a ventilator, an ultrasound device, and the like. The pre-hospital rescue data may include at least one of patient information, physiological parameters, holographic waveforms, trend data, rescue information, audio data, and video data. For example, the medical treatment system can comprise parameter values, waveforms, 12-lead electrical reports, trends and events reflecting patient vital signs (ECG \ SPO2\ NIBP \ IBP \ TEMP \ CO2 and the like), operation events, treatment events and the like which are carried out on the patient by rescue personnel, even alarm information, use information, software and hardware state information, system configuration information and the like of pre-hospital medical equipment, and audio data and video data which are collected by the pre-hospital medical equipment and are used for carrying out medical treatment on the patient.

When the transfer module 102 is communicatively connected to the pre-hospital medical device 101, the transfer module 102 obtains pre-hospital rescue data generated by the pre-hospital medical device 101. In this embodiment, the transfer module 102 and the pre-hospital medical device 101 may be connected in a wired and/or wireless manner. It is understood that the transfer module 102 may maintain a long connection with the pre-hospital medical equipment 101 during the pre-hospital medical equipment 101's treatment of the patient to obtain pre-hospital emergency data generated by the pre-hospital medical equipment 101 in real time. For example, when the pre-hospital medical device 101 is an electrocardiograph installed in an ambulance, the transferring module 102 may be detachably disposed on the ambulance, and maintain a long connection with the pre-hospital medical device 101 to obtain electrocardiograph data generated by the electrocardiograph in real time. After reaching the hospital, the transport module 102 is removed from the ambulance. The transfer module 102 may also make a short communication connection with the pre-hospital medical device 101 after the pre-hospital medical device 101 has completed pre-hospital medical treatment of the patient. For example, transfer module 102 may be connected to pre-hospital medical equipment 101 after a patient arrives at a hospital, acquire pre-hospital emergency data generated by pre-hospital medical equipment 101, and disconnect communication with pre-hospital medical equipment 101 after data acquisition is complete.

The in-hospital medical equipment 103 is used for treating a patient after the patient is admitted, and when the transfer module 102 is in communication connection with the in-hospital medical equipment 103, the in-hospital medical equipment 103 is used for acquiring pre-hospital emergency data in the transfer module 102 so that the pre-hospital emergency data is transferred to be stored in the hospital. In this embodiment, the transfer module 102 and the in-hospital medical device 103 may be communicatively connected in a wired manner and/or a wireless manner. The in-hospital medical device 103 is used inside a hospital, including but not limited to a monitor, defibrillator, electrocardiograph, ventilator, ultrasound device, and the like.

It should be noted that the pre-hospital medical device 101 and the in-hospital medical device 103 in the present embodiment are determined according to the time and place of use of the medical device, and are not determined according to the type of the medical device. For example, the pre-hospital device 101 and the in-hospital device 103 may both be monitors that monitor the patient outside the hospital prior to admission, and that monitor the patient inside the hospital after admission.

In an alternative embodiment, in order to manage pre-hospital emergency data, the pre-hospital emergency data may further carry a label of the patient, and the label may uniquely identify the patient, such as an identification number, a medical record number, an access number, a hospital number, and the like of the patient. The pre-hospital emergency data with the same label belongs to the same patient, and the pre-hospital emergency data can be stored, checked, displayed and the like according to the label. The label in this embodiment may be added by a pre-hospital medical device, a transfer module, or an in-hospital medical device. The pre-hospital emergency data may be added by the pre-hospital medical equipment when generating the pre-hospital emergency data, may be added by the transfer module when acquiring the pre-hospital emergency data from the pre-hospital medical equipment, or may be added by the in-hospital medical equipment when acquiring the pre-hospital emergency data from the transfer module.

The pre-hospital emergency data transfer system provided by the embodiment comprises pre-hospital medical equipment, a transfer module and in-hospital medical equipment; the pre-hospital medical equipment is used for carrying out medical treatment on the patient before the patient is admitted and generating pre-hospital first aid data; when the transfer module is in communication connection with the pre-hospital medical equipment, the transfer module acquires pre-hospital emergency data generated by the pre-hospital medical equipment; the hospital medical equipment is used for carrying out medical treatment on the patient after the patient is admitted, and when the transfer module is in communication connection with the hospital medical equipment, the hospital medical equipment is used for acquiring pre-hospital emergency data in the transfer module so that the pre-hospital emergency data are transferred to the hospital for storage. Through the transfer module, a complex cloud system or a pre-hospital emergency system does not need to be customized, pre-hospital emergency data does not need to be uploaded to the cloud, and complete pre-hospital emergency data generated by pre-hospital medical equipment can be conveniently and safely transferred into a hospital.

On the basis of the above embodiments, the present embodiment further explains a specific form of the pre-hospital medical apparatus. In this embodiment, the pre-hospital medical device may include a defibrillator, and may further include one or more of an infusion pump, a ventilator, an ultrasound device, an electrocardiograph, an audio acquisition device, and a video acquisition device. The defibrillator is used for defibrillating the patient before the patient is admitted to the hospital and generating pre-hospital defibrillation first-aid data; one or more of an infusion pump, a ventilator, an ultrasound device, an electrocardiograph, an audio acquisition device, and a video acquisition device are used to acquire one or more items of pre-hospital emergency data for a patient prior to admission. For example, an infusion pump user acquires infusion data of a patient before admission, a ventilator is used for acquiring breathing data of the patient before admission, an ultrasonic device is used for acquiring ultrasonic data of the patient before admission, an audio acquisition device is used for acquiring audio data, and a video acquisition device is used for acquiring video data.

In an alternative embodiment, the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device or the video acquisition device may be connected to a defibrillator, the defibrillator collects the pre-hospital emergency data, the defibrillator is connected to the transfer module, and the collected pre-hospital emergency data is transferred into the transfer module. Specifically, when one or more of the infusion pump, the ventilator, the ultrasonic device, the electrocardiograph, the audio acquisition device and the video acquisition device is/are connected with the defibrillator in a wired mode and/or a wireless mode, the defibrillator acquires one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the ventilator, the ultrasonic device, the electrocardiograph, the audio acquisition device and the video acquisition device; when the defibrillator is in communication connection with the transfer module, the transfer module acquires pre-hospital defibrillation emergency data and one or more items of pre-hospital emergency data in the defibrillator.

In yet another alternative embodiment, the defibrillator, the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device may be respectively connected to the transfer module, and may transfer the pre-hospital emergency data generated by each into the transfer module. Specifically, when one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device and the video acquisition device is in communication connection with the transfer module, the transfer module acquires one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device and the video acquisition device; when the defibrillator is in communication connection with the transfer module, the transfer module acquires pre-hospital defibrillation emergency data in the defibrillator.

Referring to fig. 2, in order to enhance the analysis and processing of pre-hospital emergency data, based on any of the above embodiments, the pre-hospital emergency data transfer system provided in this embodiment may further include a central station 104 based on the system shown in fig. 1, wherein the in-hospital medical device 103 is communicatively connected to the central station 104; the in-hospital medical device 103 is configured to transmit the acquired pre-hospital emergency data to the central station 104, so that the central station 104 stores, processes, or views the pre-hospital emergency data. The hospital medical device 103 may be in communication with the central station 104 in a wired and/or wireless manner. Central station 104 may, for example, store the pre-hospital emergency data in association with the corresponding patient according to the label; corresponding rescue schemes can be generated by analyzing pre-hospital rescue data belonging to the same patient; and pre-hospital emergency data belonging to the same patient can be displayed according to the time sequence.

In an alternative embodiment, the central station and/or the in-hospital medical equipment is further configured to display the pre-hospital emergency data in chronological order for viewing and analysis by the user.

Fig. 3 is a schematic diagram of a pre-hospital emergency data transfer system according to another embodiment of the present invention. As shown in fig. 3, the pre-hospital emergency data transfer system 20 provided in the present embodiment may include: a pre-hospital defibrillator 201, a transit monitor 202, and an in-hospital monitor 203.

The pre-hospital defibrillator 201 is used for defibrillating a patient before the patient is admitted and generating pre-hospital defibrillation first-aid data; the transfer monitor 202 is configured to monitor a patient before the patient is admitted and generate pre-hospital monitoring emergency data, and when the transfer monitor 202 is in communication connection with the pre-hospital defibrillator 201, the transfer monitor 202 acquires the pre-hospital defibrillation emergency data generated by the pre-hospital defibrillator 201; the in-hospital monitor 203 is used for monitoring the patient after the patient is admitted, and when the transfer monitor 202 is connected with the in-hospital monitor 203, the in-hospital monitor 203 is used for acquiring pre-hospital defibrillation emergency data and pre-hospital monitoring emergency data in the transfer monitor 202, so that the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data are transferred to the hospital for storage.

The pre-hospital emergency data transfer system provided by the embodiment comprises a pre-hospital defibrillator, a transfer monitor and an in-hospital monitor, the data are transferred between the defibrillator and the in-hospital monitor through the transfer monitor, pre-hospital defibrillation emergency data generated by the defibrillator and pre-hospital monitoring emergency data generated by the transfer monitor can be transferred to the in-hospital monitor together, and more complete pre-hospital emergency data are conveniently and safely transferred to a hospital.

The embodiment of the invention also provides a pre-hospital defibrillator, which is used for defibrillating the patient before the patient is admitted and generating pre-hospital defibrillation first-aid data; when defibrillator and transport module communication connection before the institute, defibrillator before the institute is used for defibrillating first aid data send to transport module before the institute with generating.

In an alternative embodiment, when the pre-hospital defibrillator is connected to one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device in a wired and/or wireless manner, the pre-hospital defibrillator is configured to acquire one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device, and the video acquisition device; when the pre-hospital defibrillator is in communication connection with the transfer module, the pre-hospital defibrillator is used for sending the pre-hospital defibrillation first-aid data and one or more items of pre-hospital first-aid data to the transfer module.

The embodiment of the invention also provides a transfer monitor, which is used for monitoring the patient before the patient is admitted and generating pre-hospital monitoring first-aid data; when the transfer monitor is in communication connection with the pre-hospital defibrillator, the transfer monitor is used for acquiring pre-hospital defibrillation emergency data generated by the pre-hospital defibrillator by defibrillating the patient before the patient is admitted.

In an optional embodiment, when the transfer monitor is connected to the in-hospital monitor, the transfer monitor is configured to send the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data in the transfer monitor to the in-hospital monitor, so that the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data are transferred to the in-hospital monitor for storage.

An embodiment of the present invention further provides a pre-hospital emergency data transfer system, including: pre-hospital medical equipment and transport modules; the pre-hospital medical equipment is used for carrying out medical treatment on the patient before the patient is admitted and generating pre-hospital first aid data; when the transfer module is in communication connection with the pre-hospital medical equipment, the transfer module acquires pre-hospital emergency data generated by the pre-hospital medical equipment; the transfer module is also used for treating the patient after the patient is admitted, and transferring pre-hospital emergency data to the hospital for storage.

It can be understood that above-mentioned module of transporting has carried on the guardianship function, if should transport the module for transporting the guardianship appearance, to patient's guardianship back in the stage before the institute, when patient's admission back, transport the guardianship appearance and can regard as normal monitor in the institute to guardianship patient, after the relevant network in the access institute, can realize the function the same with monitor in the institute.

In an alternative embodiment, the transfer module is specifically configured to transmit the pre-hospital emergency data to the central station when the transfer module is admitted to the hospital.

Fig. 4 is a flowchart of a method for transferring pre-hospital emergency data according to an embodiment of the present invention. As shown in fig. 4, the method for transferring pre-hospital emergency data provided in this embodiment may include:

s301, the patient is treated and pre-hospital emergency data is generated before the patient is admitted through pre-hospital medical equipment.

S302, the transfer module is connected with pre-hospital medical equipment, and the transfer module acquires pre-hospital first aid data generated by the pre-hospital medical equipment.

And S303, connecting the transfer module with the hospital medical equipment, and acquiring pre-hospital emergency data in the transfer module by the hospital medical equipment so as to transfer the pre-hospital emergency data to a hospital for storage.

According to the pre-hospital emergency data transfer method provided by the embodiment, pre-hospital emergency data generated by pre-hospital medical equipment is acquired through the transfer module, and the acquired pre-hospital emergency data is sent to the in-hospital medical equipment, so that complete pre-hospital emergency data generated by the pre-hospital medical equipment can be conveniently and safely transferred to the hospital.

Reference is made herein to various exemplary embodiments. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope hereof. For example, the various operational steps, as well as the components used to perform the operational steps, may be implemented in differing ways depending upon the particular application or consideration of any number of cost functions associated with operation of the system (e.g., one or more steps may be deleted, modified or incorporated into other steps).

Additionally, as will be appreciated by one skilled in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium, which is pre-loaded with computer readable program code. Any tangible, non-transitory computer-readable storage medium may be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-ROMs, DVDs, Blu Ray disks, etc.), flash memory, and/or the like. These computer program instructions may be loaded onto a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus create means for implementing the functions specified. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including means for implementing the function specified. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims

1. A pre-hospital emergency data transfer system, comprising: pre-hospital medical equipment, transport modules and in-hospital medical equipment;

the pre-hospital medical equipment is used for treating the patient before the patient is admitted and generating pre-hospital emergency data;

the hospital medical equipment is used for carrying out medical treatment on the patient after the patient is admitted, and when the transfer module is in communication connection with the hospital medical equipment, the hospital medical equipment is used for acquiring the pre-hospital emergency data in the transfer module so as to transfer the pre-hospital emergency data to a hospital for storage.

2. The system of claim 1, wherein the pre-hospital medical device comprises a defibrillator, further comprising one or more of an infusion pump, a ventilator, an ultrasound device, an electrocardiograph, an audio acquisition device, and a video acquisition device;

one or more of the infusion pump, ventilator, ultrasound device, electrocardiograph, audio acquisition device, and video acquisition device are used to acquire one or more items of pre-hospital emergency data of the patient prior to admission.

3. The system of claim 2,

when one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device and the video acquisition device is connected with the defibrillator in a wired manner and/or a wireless manner, the defibrillator acquires one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the ventilator, the ultrasound device, the electrocardiograph, the audio acquisition device and the video acquisition device;

when the defibrillator is in communication connection with the transfer module, the transfer module acquires the pre-hospital defibrillation emergency data and the one or more items of pre-hospital emergency data in the defibrillator.

4. The system of claim 2,

when one or more of the infusion pump, ventilator, ultrasound device, electrocardiograph, audio acquisition device, and video acquisition device are communicatively coupled to the transfer module, the transfer module obtains one or more items of pre-hospital emergency data of the patient obtained by the one or more of the infusion pump, ventilator, ultrasound device, electrocardiograph, audio acquisition device, and video acquisition device;

when the defibrillator with transport module communication connection, transport module obtains in the defibrillator the pre-hospital defibrillation first aid data.

5. The system of claim 1, further comprising a central station, the nosocomial medical device communicatively coupled to the central station;

6. The system of claim 5, wherein the central station and/or the in-hospital medical equipment are further configured to display the pre-hospital emergency data in chronological order.

7. The system of any of claims 1-6, wherein the pre-hospital emergency data carries a label for the patient, the label being added by the pre-hospital medical device, the transfer module, or the in-hospital medical device.

8. The system of any one of claims 1-6, wherein the pre-hospital emergency data comprises:

9. The system of any one of claims 1-6,

the transport module with pre-hospital medical equipment communication connection includes: the transfer module is connected with the pre-hospital medical equipment in a wired mode and/or a wireless mode;

the transportation module with medical equipment communication connection in the institute includes: the transfer module is connected with the hospital medical equipment in a wired mode and/or a wireless mode.

10. A pre-hospital emergency data transfer system, comprising: a pre-hospital defibrillator, a transfer monitor and an in-hospital monitor;

the in-hospital monitor is used for monitoring the patient after the patient is admitted, and when the transfer monitor is connected with the in-hospital monitor, the in-hospital monitor is used for acquiring pre-hospital defibrillation emergency data and pre-hospital monitoring emergency data in the transfer monitor so that the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data are transferred to a hospital for storage.

11. A pre-hospital defibrillator, comprising,

when defibrillator before the institute with transport module communication connection, defibrillator before the institute is used for with the emergence defibrillate first aid data before the institute send to transport the module.

12. The pre-hospital defibrillator of claim 11,

when the pre-hospital defibrillator is connected with one or more of an infusion pump, a respirator, an ultrasonic device, an electrocardiograph, an audio acquisition device and a video acquisition device in a wired mode and/or a wireless mode, the pre-hospital defibrillator is used for acquiring one or more items of pre-hospital emergency data of the patient acquired by one or more of the infusion pump, the respirator, the ultrasonic device, the electrocardiograph, the audio acquisition device and the video acquisition device;

when the pre-hospital defibrillator is in communication connection with the transfer module, the pre-hospital defibrillator is configured to send the pre-hospital defibrillation emergency data and the one or more items of pre-hospital emergency data to the transfer module.

13. A transfer monitor, which is characterized in that,

when the transfer monitor is in communication connection with the pre-hospital defibrillator, the transfer monitor is used for acquiring pre-hospital defibrillation emergency data generated by the pre-hospital defibrillator by defibrillation to the patient before the patient is admitted.

14. The transit monitor of claim 13,

when the transfer monitor is connected with the in-hospital monitor, the transfer monitor is used for sending the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data in the transfer monitor to the in-hospital monitor, so that the pre-hospital defibrillation emergency data and the pre-hospital monitoring emergency data are transferred to a hospital for storage.

15. A pre-hospital emergency data transfer system, comprising: pre-hospital medical equipment and transport modules;

the transfer module is also used for carrying out medical treatment on the patient after the patient is admitted, and transferring the pre-hospital emergency data to a hospital for storage.

16. The system of claim 15, wherein the transfer module is specifically configured to transmit the pre-hospital emergency data to a central station when the transfer module is admitted to a hospital.

17. A method for pre-hospital emergency data transfer, comprising:

treating a patient and generating pre-hospital emergency data prior to the patient's admission by pre-hospital medical equipment;

connecting a transfer module with the pre-hospital medical equipment, wherein the transfer module acquires pre-hospital emergency data generated by the pre-hospital medical equipment;

and connecting the transfer module with medical equipment in a hospital, and acquiring the pre-hospital first aid data in the transfer module by the medical equipment in the hospital so as to transfer the pre-hospital first aid data to the hospital for storage.