WO2021248893A1 - Station centrale pour traiter des informations de surveillance et procédé de traitement d'informations de surveillance associé - Google Patents

Station centrale pour traiter des informations de surveillance et procédé de traitement d'informations de surveillance associé Download PDF

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Publication number
WO2021248893A1
WO2021248893A1 PCT/CN2020/141784 CN2020141784W WO2021248893A1 WO 2021248893 A1 WO2021248893 A1 WO 2021248893A1 CN 2020141784 W CN2020141784 W CN 2020141784W WO 2021248893 A1 WO2021248893 A1 WO 2021248893A1
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WO
WIPO (PCT)
Prior art keywords
infusion
interface
bed
display
central station
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PCT/CN2020/141784
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English (en)
Chinese (zh)
Inventor
潘瑞玲
代巍巍
林洁颖
Original Assignee
深圳迈瑞生物医疗电子股份有限公司
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Application filed by 深圳迈瑞生物医疗电子股份有限公司 filed Critical 深圳迈瑞生物医疗电子股份有限公司
Priority to CN202080101628.4A priority Critical patent/CN115698922A/zh
Publication of WO2021248893A1 publication Critical patent/WO2021248893A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements

Definitions

  • the invention relates to the technical field of medical monitoring, in particular to a central station for processing monitoring information, and a processing method for the monitoring information by the central station.
  • the central station is the equipment for unified management of various medical equipment, including the host and the display.
  • the data communication connection between the host and various medical equipment can automatically collect all kinds of information in real time, and output the obtained information to the display for medical staff to view, so as to realize centralized monitoring of patients on multiple beds.
  • the above-obtained information mainly includes the patient’s vital characteristics and infusion information. How to design a small, convenient and intuitive central station for medical staff to view the above two types of information is currently one of the problems to be improved or to be solved. one.
  • an embodiment provides a method for processing monitoring information by a central station, which is applied to a central station, and the central station is used to manage at least one bed for accommodating patients and the corresponding one for sending the received
  • the first medical device for the vital signs information of the patient and the second medical device for sending the infusion information of the admitted patient includes:
  • the central station receives vital sign information sent by a first medical device corresponding to the bed and infusion information sent by a second medical device;
  • the central station displays the vital sign information and the infusion information in the same first display section on the first display screen of the central station; the first display section corresponds to the bed, so The first display section also displays the patient information and the bed number of the patient accommodated in the bed;
  • the central station responds to the operation instruction for the infusion information of the first display section, and displays the infusion details interface or single-bed observation on the first display screen or the second display screen connected to the central station interface.
  • an embodiment provides a central station for processing monitoring information, the central station is used to manage at least one bed for receiving patients and correspondingly for sending vital sign information of the admitted patients
  • the first medical device and the second medical device for sending the infusion information of the admitted patient includes:
  • Memory used to store programs
  • a processor configured to execute the program stored in the memory to implement the method of the first aspect
  • the display device is used to display the interface generated by the processor.
  • an embodiment provides a computer-readable storage medium including a program that can be executed by a processor to implement the method of the first aspect.
  • the above-mentioned central station displays the received vital sign information and infusion information in the same first display section, so that the patient’s vital signs and infusion information can be obtained in the first display screen, which is convenient for users to view information centrally, and It can reduce the number of monitors in the central station, reduce the volume of the central station, and when it is necessary to further view the detailed content of vital sign information and the detailed content of the infusion information, it can also display the single-bed observation interface or the infusion details interface. Viewing information is more flexible and ensures the comprehensiveness of the information.
  • Figure 1 is a schematic diagram of the composition of a central station according to an embodiment
  • Figure 2 is a flowchart of a method for processing monitoring information by a central station according to an embodiment
  • Fig. 3 is a schematic diagram of a multi-bed monitoring interface displayed on a first display screen according to an embodiment
  • FIG. 4 is a schematic diagram of dual-screen display of a multi-bed monitoring interface according to an embodiment
  • FIG. 5 is a schematic diagram of a dual-screen display of the multi-bed monitoring interface and the infusion details interface displayed on the first display screen of an embodiment
  • FIG. 6 is a schematic diagram of the dual-screen display of the multi-bed monitoring interface and the single-bed observation interface displayed on the first display screen of an embodiment
  • FIG. 7 is a schematic diagram of an embodiment of a multi-bed monitoring interface displayed on a first display screen and a single-bed observation interface displayed on a second display screen;
  • FIG. 8 is a schematic diagram of the dual-screen display of the multi-bed monitoring interface and the single-bed review interface displayed on the first display screen of an embodiment
  • FIG. 9 is a schematic diagram of an embodiment of a multi-bed monitoring interface displayed on the first display screen and a single-bed review interface displayed on the second display screen;
  • FIG. 10 is a schematic diagram of the multi-bed infusion interface and the infusion details interface displayed on the same screen according to an embodiment
  • FIG. 11 is a schematic diagram of an embodiment of the multi-bed monitoring interface displayed on the first display screen and the multi-bed infusion interface and the infusion details interface are displayed on the same screen on the second display screen;
  • Figure 12 is an embodiment of the multi-bed monitoring interface displayed on the first display screen, the single-bed observation interface displayed on the second display screen, and the multi-bed infusion interface and the infusion details interface are displayed on the same screen on the third display screen. Schematic diagram shown;
  • Figure 13 is a schematic diagram of an embodiment of the multi-bed monitoring interface and the single-bed observation interface being displayed on the same screen on the first display screen, and the multi-bed infusion interface and the infusion single bed interface being displayed on the same screen on the second display screen;
  • FIG. 14 is a schematic diagram of the multi-bed infusion interface and the single-bed infusion interface displayed on the same screen in another embodiment
  • FIG. 15 is a schematic diagram of the bed infusion interface and the single bed infusion interface displayed on the same screen according to another embodiment
  • Figure 16 is an alarm interface of an embodiment.
  • connection and “connection” mentioned in this application include direct and indirect connection (connection) unless otherwise specified.
  • Monitoring information a general term for the patient-related information obtained by the central station through the bedside medical equipment, for example, may include the patient's physiological parameter information, infusion information, etc.
  • the medical staff learns the current patient's condition through the monitoring information.
  • the infusion equipment can store different kinds of liquid medicines through corresponding liquid medicine storage units, realize high-precision, smooth and pulseless liquid transmission, and inject corresponding different kinds of liquid medicines into the patient's body.
  • the central station includes a display device and a host computer signally connected to the display device, the display device includes at least one display, and the display includes a graphical user interface (GUI)
  • GUI graphical user interface
  • the host includes one or more processors, memory, and one or more modules, programs or instruction sets stored in the memory for performing multiple functions.
  • the display in the above-mentioned central station can support a variety of applications with intuitive graphical user interface.
  • the control objects of the above interface can be passed VB , Java Such as computer language to achieve, and the result of its visualization is the graphical object displayed on the graphical user graphical interface, the graphical object includes one or more of the graphics, text, pictures, etc. displayed on the graphical user graphical interface combination.
  • the operation actions are presented on the user graphical interface.
  • the display screen may also be a touch screen, and the gestures of the touch screen may be used for input.
  • the figure 1 Gives an implementation of the central station related hardware and / Or software architecture.
  • the central station includes the host 100 ,monitor 200 And other input devices 300 , Host 100 Can include memory 114( The memory 114 May include one or more computer-readable storage media), central processing unit 112( Can be composed of one or more processors and / Or controller configuration), peripheral interface 116 , I/O Subsystem 120 .
  • monitor 200 Can include a display screen, the content displayed on the display screen is the display 200 Display interface.
  • the central station can also include a communication module 130 , Audio processor 150 ,speaker 160 , External port 140 ,Power Systems 170( include DC/DC Conversion circuit and / or AC/DC Conversion circuit).
  • a communication module 130 Audio processor 150 ,speaker 160 , External port 140 ,Power Systems 170( include DC/DC Conversion circuit and / or AC/DC Conversion circuit).
  • Power Systems 170 include DC/DC Conversion circuit and / or AC/DC Conversion circuit.
  • Memory 114 It may include high-speed random access memory, and may also include non-volatile memory, for example, one or more disk storage devices, flash storage devices, or other non-volatile solid-state storage devices. In some embodiments, the memory 114 It may also include a memory remote from one or more processors, for example via a communication module 130 Or external port 140 And network-attached storage accessed by a communication network (not shown), where the communication network can be the Internet, one or more intranets, and local area networks (LAN) And WAN ( WAN) And storage area network (SAN) Etc., or a suitable combination thereof.
  • LAN local area networks
  • WAN WAN
  • SAN storage area network
  • Peripheral interface 116 Connect the input and output peripherals of the central station with the central processing unit 112 Make coupling.
  • CPU 112 Run or execute stored in memory 114 Various software programs and / Or instruction set in order to perform various functions and applications of the device and process data.
  • peripheral interface 116 ,CPU 112 ( CPU) And memory 114 It can be implemented on, for example, the same single chip. In some embodiments, they can also be implemented on multiple discrete chips.
  • Communication module 130 Used to receive communication signals and convert them into electrical signals, and convert electrical signals into communication signals for transmission.
  • Communication module 130 It can be implemented in any of the known technologies, mainly to enable the central station to communicate with external networks or other external devices.
  • the communication module 130 Access to the World Wide Web (WWW) Internet, intranet and / Or such as cellular telephone network, local area network (LAN) and / Metropolitan Area Network (MAN) Wireless and / Or wired network and other equipment communication.
  • Communication module 130 Any one of a variety of communication standards, protocols and technologies can be used, including but not limited to using wired or wireless media, including Bluetooth, Ethernet, 802.11(x) Standards, body area networks or other wireless protocols.
  • Audio processor 150 speaker 160 Provide users (medical staff) and host 100 Audio interface between. Audio processor 150 Can be interfaced from peripherals 116 Receive audio data, convert the audio data into electrical signals, and send the electrical signals to the speaker 160 . Speaker 160 Convert electrical signals into sound waves that humans can hear. Peripheral interface 116 Can be from memory 114 and / Or communication module 130 Retrieve audio data and / Or send audio data to memory 114 and / Or communication module 130 .
  • Subsystem 120 Place the display 200 And other input devices 300 Interface with peripherals 116 coupling.
  • I/O Subsystem 120 Can include display controller 122 And used to control other input devices 300 One or more other input controllers 124 .
  • One or more other input controllers 124 To other input devices 300 take over / Send electrical signals.
  • Other input devices 300 It can include actual buttons and similar devices.
  • the central station also includes a power supply system that provides power input to various components or modules or circuits. 170 , which includes a power management system, one or more power supplies (for example, batteries, alternating current (AC)) , Charging system, power failure detection circuit, power converter or inverter, power status indicator (for example, light-emitting diodes (LED)) , And any other components related to the generation, management and distribution of electricity in the central station.
  • a power management system for example, batteries, alternating current (AC)
  • Charging system for example, alternating current (AC)
  • Charging system Charging system
  • power failure detection circuit for example, power converter or inverter
  • power status indicator For example, light-emitting diodes (LED)
  • LED light-emitting diodes
  • FIG. 1 It just means that a block diagram of the central station is provided. Of course, the above-mentioned central station can also have a diagram 1 There are more or less elements or modules in the 1 In the framework of the arrangement of different configurations. As shown 1 The various elements or modules shown can be implemented in the form of hardware, software or a combination of both hardware and software, including one or more signal processing and / Or application specific integrated circuit.
  • the present invention also provides a method for processing monitoring information by the central station ,
  • the central station is used to manage at least one bed for receiving patients and a corresponding first medical device for sending vital signs information of the admitted patient and a second medical device for sending infusion information of the admitted patient ,
  • the method includes the steps :
  • the central station receives the vital sign information sent by the first medical device of the corresponding bed and the infusion information sent by the second medical device.
  • the vital sign information includes at least one of ECG parameters, blood pressure, blood oxygen saturation, respiratory parameters, pulse, and body temperature
  • the infusion information includes the name of the infused drug, the infusion rate, the amount infused, At least one of the amount to be infused and the remaining infusion time.
  • the first medical device may include but not limited to a ventilator, anesthesia machine, and a monitor
  • the second medical device may include, but is not limited to, an infusion device, such as a pump.
  • step 200 The central station displays vital signs information and infusion information on the same first display section on the first display screen of the central station 11 Inside.
  • the first display section 11 Corresponding to the bed, the first display section 11 The patient information and the bed number of the patients admitted in the bed are also displayed inside.
  • First display section 11 The interface is a multi-bed monitoring interface 10 .
  • the first display screen may be a screen of a single-screen display or a screen in a multi-screen display.
  • the central station divides the first display section in the first display screen according to the number of beds and the preset display layout 11 ,
  • the preset display layout can be stored in the host in the form of corresponding command set 100 Memory 114 Central processing unit 112
  • the stored instruction set is executed in response to the user's input, thereby dividing the first display screen with the set display layout. For example, as shown in 3 Shown is the content displayed on the first display screen of an embodiment. 3 Multi-bed monitoring interface 10 Shown on the first display.
  • the number of beds input by medical staff through the human-computer interaction interface of the central station is 16 This information, the central processing unit 112 After reading the number of beds, call the memory 114 Instruction set within, divide the first display screen into 4x4 Rectangular boxes, each rectangular box is a first display section 11 .
  • the central station may respond to the operation instruction for the display splitting of the first display screen, and display the interface displayed on the first display screen in an expanded manner on the first display screen and the second display screen according to a preset display layout.
  • the patient information includes part or all of the patient's information, including the patient's name, age, height, and weight.
  • the patient’s name is shown on the left side near the top.
  • the bed number of each bed is assigned by the central station, and the central station may assign a bed number to each bed for receiving patients according to the number of beds for receiving patients.
  • the central station is used to manage medical equipment in a department. There is a bed for accommodating patients in the department. The station enters the bed number assigned to each bed.
  • a first display screen can be used to centrally monitor the patient's vital signs and infusion status, reduce the number of displays used, and thereby reduce the volume of the central station.
  • step 300 The central station responds to the first display section 11
  • the operation instructions for the infusion details interface will be displayed on the first display screen or the second display screen connected to the central station 30 Or single-bed observation interface 40 .
  • the second display screen may be a screen of a single-screen display or a screen in a multi-screen display.
  • the above infusion details interface 30 Used to display the detailed content of the infusion information, when the user needs to further view more infusion information, the infusion details interface can be made through operation 30 pop up.
  • the operation instruction For the first display section 11 And used to display the infusion details interface 30 There are many ways to generate the operation instruction. For example, the user can generate the operation instruction by clicking the area where the infusion information is located to display the infusion details interface 30 .
  • the infusion details interface will be displayed in the first display screen 30 Interface with multi-bed monitoring 10 Same screen display, that is, 1 Number of beds to 8
  • the first display section corresponding to the No. bed is displayed in the second display screen.
  • the infusion details interface 30 It can also be displayed in the second display.
  • the infusion details interface 30 It can be displayed in the third display screen connected to the central station.
  • the third display screen may be a screen of a single-screen display or a screen in a multi-screen display.
  • the second display can display other interfaces, such as the single-bed observation interface described above 40 It can also display part of the expanded multi-bed monitoring interface.
  • the infusion details interface 30 Multiple infusion details are displayed.
  • a single infusion detail includes the name of the infusion drug, the remaining infusion time and the amount to be infused, or the name of the infusion drug, the remaining infusion time, the infusion rate, and the infusion.
  • the fluence, or it can include the name of the infused drug, the amount infused, and various other combinations of the above-listed items.
  • the single infusion details include the bed number, the remaining infusion time, and the name of the infusion drug.
  • the infusion details interface 30 Arrange and display according to preset rules N The above infusion details, N greater or equal to 2 And less than or equal to the number of beds. For example in the figure 5 In the illustrated embodiment, N equal 8 , In the order of the remaining infusion time from short to long, in the infusion details interface 30 Inside display N Infusion details. This allows the user to know at a glance which beds require special attention to the remaining infusion time.
  • the central station obtains the time period corresponding to the remaining infusion time in each single infusion detail, and displays the remaining infusion time in different colors according to the corresponding time period, where the time period is at least one, and each time period is equal to With preset colors.
  • a single infusion detail also includes an infusion set icon 31 , Infusion set icon 31 It is used to characterize the type of infusion equipment used to infuse patients.
  • the types of infusion equipment include infusion pumps and syringe pumps.
  • 1 The infusion set icon corresponding to the bed 31 Is an infusion pump
  • 2 The infusion set icon corresponding to the bed 31 It is a syringe pump.
  • the above single-bed observation interface 40 Used to display the detailed content of the vital sign information and the detailed content of the infusion information of the same patient. When the user needs to further view the status of the same patient, the single-bed observation interface can be operated 40 pop up.
  • the first display section 11 And used to display the single-bed observation interface 40 There are many ways to generate operation instructions. For example, the user can click the first display section 11 To generate the operation instruction to display the single-bed observation interface 40 .
  • the single-bed observation interface 40 Interface with multi-bed monitoring 10 Same screen display, that is, 1 Number of beds to 8
  • the first display section corresponding to the No. bed is displayed in the second display screen.
  • the single-bed observation interface 40 It can also be displayed in the second display screen, for example, as shown in the figure 7 As shown, the first display screen and the second display screen are placed side by side, 16 The first display section corresponding to each bed 11 Are displayed on the first display screen, and the single-bed observation interface 40 Shown on the second display. In other embodiments, the single-bed observation interface 40 It can be displayed in the third display screen connected to the central station. When the single-bed observation interface 40 When displayed on the third display screen, the second display screen can display other interfaces, such as the above infusion details interface 30 , Can also display part of the expanded multi-bed monitoring interface.
  • the single-bed observation interface 40 The detailed content of the vital signs information in the medium includes: vital signs generated based on the vital signs information, and vital signs parameters extracted from the vital signs.
  • the vital signs are used to characterize the patient's physiological condition
  • the detailed content of the infusion information includes: At least one of the serial number, infusion status, infusion rate, infusion drug name, infusion volume, remaining infusion volume, and remaining infusion time of the second medical device.
  • the detailed content of the infusion information can be determined based on the infusion status, For example in the figure 6
  • the single-bed observation interface 40 The upper middle part is the vital sign waveform, and the right part of the vital sign waveform is the vital sign parameters.
  • the lower part of the vital sign waveform includes the infusion status, infusion rate, name of the infused drug, infused volume, remaining infused volume, and remaining infusion time .
  • the multi-bed monitoring interface 10 It can be fixedly displayed in the first display screen, and the second display screen can be fixed to display the single-bed observation interface 40 And infusion details interface 30 One of them, the third display screen fixedly displays the single-bed observation interface 40 And infusion details interface 30 The other one in.
  • the central station responds to the single-bed observation interface 40 Display single bed review interface 50 Operating instructions, the single-bed observation interface 40 Replaced with single bed review interface 50 , Single bed review interface 50 Used to display the historical content of the vital sign information and the historical content of the infusion information of the same patient.
  • the user is in the graph 6 Click the "Review” button, then the picture 6 Change to picture 8
  • the single bed review interface is displayed on the first display 50
  • the interface shown in the single bed review interface 50 The historical content of internal vital signs information includes the historical waveform of vital signs information, and the historical content of infusion information includes the waveform changes of the infused amount or remaining infused amount of each infused drug in the infusion information in the past period of time, etc. .
  • the central station also displays the infusion information on the multi-bed infusion interface 20 Second display section of twenty one Inside, figure 10 Including the above-mentioned multi-bed infusion interface 20 , Multi-bed infusion interface 20 Second display section of twenty one Corresponding to the bed, the second display section twenty one The patient information and the bed number of the patients admitted in the bed are also displayed in the second display section twenty one Can be generated in the same way as the first display section 11 Similarly, it can be divided into the display screen according to the preset display layout. In some embodiments, as shown 10 As shown, the multi-bed infusion interface 20 Interface with infusion details 30 The same screen display can be maintained, so that the information related to the infusion status can be concentrated in one display screen to facilitate the user's viewing.
  • the above-mentioned multi-bed infusion interface 20 Can be displayed in the second display, for example, in the picture 11 Medium and multi-bed monitoring interface 10 Displayed in the first display screen, and the multi-bed infusion interface 20 And infusion details interface 30 It is displayed on the same screen in the second display screen.
  • the multi-bed infusion interface 20 It can also be displayed in the third display screen.
  • the figure 12 Medium and multi-bed monitoring interface 10 Display on the first display, single bed observation interface 40 Display on the second display, multi-bed infusion interface 20 Interface with infusion details 30 The same screen is displayed on the third display screen.
  • multi-bed infusion interface 20 By setting the above-mentioned multi-bed infusion interface 20 , Provide users with more simplified and quick information options. When the user only wants to pay attention to the user's infusion status, they can only view the multi-bed infusion interface 20 .
  • the central station response is for the second display section twenty one And used to display the infusion single bed interface 60
  • the operation instructions of the single-bed interface will be infused in the second display or the third display 60 Interface with multi-bed infusion 20
  • the infusion single bed interface 60 Used to display the detailed content of the patient's infusion information, infusion single bed interface 60
  • the detailed content of the infusion information can be compared with the single-bed observation interface 40
  • the detailed content of the infusion information is more specific or includes more types of information.
  • Multi-bed monitoring interface 10 Interface with single bed observation 40
  • Same screen display on the first display screen multi-bed infusion interface 20 Interface with infusion single bed 60
  • the same screen is displayed on the second display screen.
  • the second display section twenty one And used to display the infusion single bed interface 60
  • operation instructions for example, in the figure 11
  • the user can click on the second display section twenty one
  • To generate the operation instruction to display the infusion single bed interface 60 If the user is in the picture 11 Click again in the first display section 11 The bed number inside, then the picture 11 Change to picture 13 .
  • the multi-bed infusion interface 20 Interface with infusion details 30 Keep the same screen display, the infusion single bed interface will pop up 60 Infusion details interface 30 Replace, for example, figure 11 Infusion details interface 30 Infused single bed interface 60 As shown in the figure after replacement 13 Shown.
  • the infusion single-bed interface 60 It is displayed on the fourth display screen connected to the central station. Similar to the first display screen, the fourth display screen can be a screen of a single-screen display or a screen in a multi-screen display. In this way, the central station has four display screens. It is easy to understand that the above-mentioned interfaces can also be displayed on more than four screens.
  • each bed when the second medical device is an infusion device, each bed also has at least one corresponding docking station ( Dock ), each docking station corresponds to some or all of the infusion devices in at least one infusion device; each infusion device is communicatively connected with the corresponding docking station, and sends infusion information to the central station through the corresponding docking station.
  • Dock docking station
  • a bed has two corresponding docking stations and six infusion devices, and the two docking stations are recorded as A Dock and B Dock, where three infusion devices are connected to A Docking station communication connection, three infusion devices and B Docking station communication connection.
  • the infusion information includes at least one of the name of the infusion drug, the infusion rate, the amount infused, the amount to be infused, and the remaining infusion time.
  • the infusion device communicates with the docking station, it will also send its own first identifier to the docking station.
  • the first identifier is used to characterize the type of the corresponding infusion device, and the docking station can identify the infusion device through the first identifier
  • the type for example, can identify whether the infusion device is an infusion pump or a syringe pump.
  • the docking station After the docking station receives the infusion information and the first identifier sent by each infusion device that is in communication with itself, it can package each infusion information and the first identifier to generate dock information and send the dock information To the central station, for the central station to receive and analyze, so as to realize the centralized management of multiple infusion equipment.
  • the central station analyzes the docking information and the infusion information.
  • the central station compares the remaining infusion time with the preset time limit, and marks the infusion equipment whose remaining infusion time is less than the preset time limit. .
  • the infusion device whose remaining infusion time is less than the preset time limit is recorded as the infusion device to be monitored.
  • the reason for marking this type of infusion device is because when the remaining infusion time is less than the preset time limit, it means As the infusion drug in the infusion device is about to be injected, medical staff need to prepare in advance.
  • the central station After marking the infusion equipment to be monitored, the central station generates the infusion details interface 30 .
  • Infusion details interface 30 According to the number of infusion devices to be monitored and the preset display layout, the second display section corresponding to each infusion device to be monitored is divided into one-to-one. 32 . Please refer to the picture 10, Infusion details interface in this figure 30 Each row of a second display section 32 , In each second display section 32 The remaining infusion time sent by the infusion device to be monitored and the corresponding bed number are displayed inside, for example, the information displayed in the first line is 1 The remaining infusion time of the bed’s infusion device is only 10 minute. In this embodiment, each second display section 32 Arrange in ascending order according to the remaining infusion time. In other embodiments, it may also be arranged according to other methods such as bed number.
  • the second display section 32 Other infusion information can also be displayed inside, such as 10 In, the name of the infusion drug is also displayed.
  • the second display section 32 The drip information can also be displayed inside, and the unit of the drip information can be drops/min , That is, the amount of drops per minute.
  • the above-mentioned infusion set icon 31 The method of generating can be: the central station has pre-stored the infusion device icon 31 And the first identifier and the infusion set icon 31 Correspondence table, the infusion set icon 31 The appearance simulates the type of infusion device, the central station is based on the first identifier and the infusion device icon 31 Corresponding table, call the corresponding infusion device icon for each infusion device to be monitored 31 , Place the infusion set icon 31 Displayed in the second display section corresponding to each infusion device to be monitored 32 Inside. For example figure 10 As shown in the second display section of the first row 32 The corresponding infusion device to be monitored is an infusion pump, and the second display section of the second line 32 The corresponding infusion equipment to be monitored is a syringe pump.
  • the docking information further includes a first identification code corresponding to the docking station.
  • the first identification code may be a unique serial number of the docking station during the manufacturing process, or it may be assigned by the user to the docking station when the docking station is initialized. Number.
  • the central station can determine the bed corresponding to the docking station according to the first identification code in the docking information and the correspondence table of the first identification code and the bed number pre-stored by the central station. On this basis, the above-mentioned infusion single bed interface 60
  • the generation method can be:
  • the interface of this infusion single bed is 60 On the left is the display area corresponding to the docking station 62 . And by the graph 15 Infusion single bed interface 60 As you can see in the upper left corner, the figure 15 Infusion single bed interface shown in 60 The corresponding bed number is 5 , The number of corresponding docking stations for this bed is two, and the corresponding infusion equipment is 12 One, the infusion single bed interface 60 The left and right sides are the display areas corresponding to the docking station 62 , In the upper left corner of each area you can use dock+ The display area corresponding to the docking station in a digital way 62 Make a distinction.
  • the central station is based on the display area 62 Corresponding to the number of infusion devices connected to the docking station and the preset display layout, in the display area 62
  • the display area 62 The fourth display section corresponding to each infusion device connected to the docking station one-to-one 61 .
  • FIG 15 middle 5 Infusion single bed interface corresponding to No. bed 60
  • each docking station is communicatively connected with six infusion devices, so each display area 62 Divided into six fourth display sections 61 , In every fourth display section 61 Inside, the central station displays the infusion rate sent by the corresponding infusion device, as well as the remaining amount, the amount entered, and the remaining time.
  • the docking station is a box structure, the docking station has a plurality of slots for accommodating the infusion device, and the slot has a physical interface for docking with the infusion device, and the infusion device is connected with the infusion device through the interface docking.
  • the docking station can recognize which interfaces and slots are occupied, and each slot of the docking station also has a slot number.
  • the docking information also includes the slot number of the corresponding docking station and the occupied status, and the central station can obtain the occupied status of the slots in the docking station after analyzing the docking information.
  • the central station generates the above infusion single bed interface 60 According to the number of slots each docking station has and according to the slot number, in the corresponding display area 62
  • the fourth display section corresponding to the number of slots is divided into 61 And, the fourth display section 61
  • the arrangement of the slots matches the actual position of the slots on the docking station.
  • FIG 14 Infusion single bed interface shown in 60 The docking station of the corresponding bed in this interface has six slots, of which four slots are occupied. On the actual docking station, from top to bottom, these four slots are also being occupied.
  • the display on the side of the central station can be 200 Get the actual docking station being used.
  • infusion single bed interface 60 It can also display the detailed information of the patient accommodated in the corresponding bed, such as the figure 14-15 In the display area 62 There is also a column of patient information above, which records the patient's height, weight and other detailed information. And, when the single bed interface is infused 60 When the infusion device corresponding to the bed sends alarm information, the alarm information can be displayed in the fourth display section corresponding to the infusion device that sent the alarm information 61 Can also be displayed in the fourth display section 61 Infusion single bed interface 60 Blank space.
  • the central station pre-stores a correspondence table between the first identifier and the display layout template. For each infusion device, the central station calls the display layout template according to the first identifier of the infusion device, and the central station applies the infusion information sent by the infusion device to the display layout template to generate a display image, and displays it in the corresponding fourth Display section 61 To display.
  • the above display layout template is the same as the actual display interface layout on the corresponding infusion device, so that any fourth display section 61
  • the displayed content and layout mode are exactly the same as the content displayed on the display screen of the corresponding infusion device.
  • the medical staff observe the fourth display section 61 , And the information obtained by medical staff observing the corresponding infusion device's display screen is completely consistent.
  • the docking station can comprehensively manage the infusion equipment connected to it.
  • the docking station recognizes that the working state of the communicating infusion device is abnormal, that is, it is not in a normal working state, it will generate a second identifier for characterizing the abnormal state.
  • the central station displays the abnormal state information corresponding to the infusion device in the fourth display section corresponding to the infusion device according to the pre-stored abnormal state information and the correspondence table between the second identifier and the abnormal state information. 61 Inside. For example, as shown 14 As shown, there are two infusion devices that are electrically connected to the docking station, but no data is being transmitted.
  • the docking station After the docking station recognizes the status of the two infusion devices, it will display the second identifier corresponding to the "standby state” and the "already state".
  • the second identifier corresponding to “Shutdown” is sent to the central station, so that it is displayed in the corresponding fourth display section 61 Display within.
  • the central station also receives the first medical device and / Or at least one alarm message sent by the second medical device , At least one alarm message received by the central station will be displayed in the first display section 11 Inside.
  • each first display section 11 Inside you can see three types of information, one is the infusion information, the other is the vital signs information, and the third is the alarm information when an abnormality occurs, so that the patient’s condition can be grasped at a glance, and based on the bed number and patient information, you can quickly Position the patient.
  • the alarm information can also be classified, and the alarm level is divided into the first alarm level and the second alarm level, where the first alarm level is the more serious situation. Or deal with more urgent abnormal situations.
  • the alarm information also includes a first identifier used to characterize the alarm level.
  • the alarm information is transmitted in the form of a character string, and the first identifier is a certain character string. Field.
  • the central station After the central station obtains the alarm information, it will also analyze each alarm information separately to obtain the first identifier in each alarm information, which can be displayed in different display modes according to the first identifier.
  • the alarm information display mode of the first alarm level is more eye-catching.
  • the central station uses different background colors and / Or the text displays the alarm information of the first alarm level and the alarm information of the second alarm level, and the background color of the alarm information of the first alarm level has a higher brightness.
  • the central station when the central station receives at least one piece of alarm information sent by the second medical device, it will also be displayed in the second display section. twenty one Inside.
  • the level of alarm information can include the first alarm level and the second alarm level, and its display mode is the same as that of the first display section. 11 The display mode inside is similar, for example, as shown in the figure 7 As shown, the alarm information is displayed in the second display section twenty one Of the center.
  • the central station responds to the operating instructions for the alarm information, and displays the alarm interface on the first display screen or the second display screen connected to the central station 70 , Alarm interface 70 Generated by the central station, alarm interface 70 At least one alarm message is displayed inside. For example, when the user clicks on the first display section 11 After the alarm information is located in the area, it will be displayed on the first display screen or the second display screen connected to the central station as shown in the figure 16 Alarm interface shown 70 .
  • the above-mentioned embodiment obtains the patient’s vital signs and infusion information in the first display screen, which not only facilitates the user to view the information centrally, but also reduces the volume of the central station.
  • various optional interfaces are also provided to satisfy Different needs of users.
  • the program can be stored in a computer-readable storage medium.
  • the storage medium can include: read-only memory, random access memory, magnetic disk, optical disk, hard disk, etc.
  • the computer executes the program to realize the above-mentioned functions.
  • the program is stored in the memory of the device, and when the program in the memory is executed by the processor, all or part of the above-mentioned functions can be realized.
  • the program can also be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a mobile hard disk, and saved by downloading or copying.
  • a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a mobile hard disk, and saved by downloading or copying.

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  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • General Health & Medical Sciences (AREA)
  • Biomedical Technology (AREA)
  • Medical Informatics (AREA)
  • Molecular Biology (AREA)
  • Surgery (AREA)
  • Animal Behavior & Ethology (AREA)
  • Pathology (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Human Computer Interaction (AREA)
  • General Physics & Mathematics (AREA)
  • Biophysics (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Measuring And Recording Apparatus For Diagnosis (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)

Abstract

Une station centrale servant à traiter des informations de surveillance et procédé de traitement d'informations de surveillance associé. Le procédé de traitement comprend : pour l'un quelconque d'au moins un lit géré par une station centrale, la station centrale reçoit des informations de signe vital envoyées par un premier dispositif médical correspondant au lit et des informations de perfusion envoyées par un second dispositif médical ; la station centrale affiche les informations de signe vital et les informations de perfusion dans une même première section d'affichage sur un premier écran d'affichage de la station centrale, la première section d'affichage correspondant au lit, et des informations de patient d'un patient utilisant le lit et le numéro de lit étant également affiché dans la première section d'affichage ; et la station centrale affiche, en réponse à une instruction d'opération pour les informations de perfusion dans la première section d'affichage, une interface de détails de perfusion ou une interface d'observation de lit unique sur le premier écran d'affichage ou le second écran d'affichage connecté à la station centrale. La station centrale appliquant le présent procédé de traitement peut afficher toutes sortes d'informations d'une manière centralisée, réduisant ainsi le volume de la station centrale.
PCT/CN2020/141784 2020-06-12 2020-12-30 Station centrale pour traiter des informations de surveillance et procédé de traitement d'informations de surveillance associé WO2021248893A1 (fr)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2012054258A2 (fr) * 2010-10-19 2012-04-26 Welch Allyn, Inc. Écran adaptatif pour surveillance d'un patient
CN102473199A (zh) * 2009-11-19 2012-05-23 雅培糖尿病护理公司 用于分析数据传输和报告生成的方法及系统
CN202395815U (zh) * 2011-11-16 2012-08-22 乌维磊 无线WiFi医疗监护管理系统
CN208903378U (zh) * 2018-11-14 2019-05-24 王清霞 一种病房护士站病患护理信息显示装置

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102473199A (zh) * 2009-11-19 2012-05-23 雅培糖尿病护理公司 用于分析数据传输和报告生成的方法及系统
WO2012054258A2 (fr) * 2010-10-19 2012-04-26 Welch Allyn, Inc. Écran adaptatif pour surveillance d'un patient
CN202395815U (zh) * 2011-11-16 2012-08-22 乌维磊 无线WiFi医疗监护管理系统
CN208903378U (zh) * 2018-11-14 2019-05-24 王清霞 一种病房护士站病患护理信息显示装置

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