CN115698922A - Central station for processing monitoring information and method for processing monitoring information - Google Patents

Abstract

A central station for processing monitoring information and a processing method for the monitoring information, wherein the processing method comprises the steps that for any one of at least one bed managed by the central station, the central station receives vital sign information sent by first medical equipment and infusion information sent by second medical equipment corresponding to the bed; the central station displaying the vital sign information and the infusion information within a same first display section on a first display screen of the central station; the first display section corresponds to the bed, and patient information and a bed number of a patient received by the bed are displayed in the first display section; the central station responds to the operation instruction of the infusion information of the first display section, and an infusion detail interface or a single-bed observation interface is displayed on the first display screen or a second display screen connected with the central station. The central station can display various information in a centralized way by applying the processing method, and the size of the central station is reduced.

Description

Central station for processing monitoring information and processing method of monitoring information Technical Field

The invention relates to the technical field of medical monitoring, in particular to a central station for processing monitoring information and a method for processing the monitoring information by the central station.

Background

In the clinical treatment process, a large amount of medical equipment such as monitors, ventilators, infusion pumps, injection pumps and the like are required to be used, and under the condition, efficient information management is particularly important. The central station is a device for uniformly managing each medical device and comprises a host and a display. Data communication is connected between the host computer and each medical equipment, can automatic acquisition all kinds of information in real time to supply medical personnel to look over on exporting the information that obtains to the display, in order to realize the centralized monitoring to patient on a plurality of beds. The acquired information mainly comprises the vital signs of the patient and infusion information, and how to design a central station which is small in size and convenient and visual for medical staff to check the two types of information is one of the problems to be improved or solved at present.

Technical problem Technical solution

According to a first aspect, an embodiment provides a method for processing monitoring information by a central station, applied to the central station, the central station is used for managing at least one bed for receiving a patient and a corresponding first medical device for transmitting vital sign information of the received patient and a second medical device for transmitting infusion information of the received patient, and the method comprises:

for any one of at least one bed managed by the central station, the central station receives vital sign information sent by first medical equipment and infusion information sent by second medical equipment corresponding to the bed;

the central station displaying the vital sign information and the infusion information within a same first display section on a first display screen of the central station; the first display section corresponds to the bed, and patient information and a bed number of a patient received by the bed are displayed in the first display section;

the central station responds to the operation instruction of the infusion information of the first display section, and an infusion detail interface or a single-bed observation interface is displayed on the first display screen or a second display screen connected with the central station.

According to a second aspect, an embodiment provides a central station for processing monitoring information for managing at least one bed for receiving a patient and a corresponding first medical device for transmitting vital sign information of the received patient and a second medical device for transmitting infusion information of the received patient, the central station comprising:

a memory for storing a program;

a processor for implementing the method of the first aspect by executing the program stored in the memory;

a display device to display the interface generated by the processor.

According to a third aspect, an embodiment provides a computer readable storage medium comprising a program executable by a processor to implement the method of the first aspect.

Advantageous effects

The central station displays the received vital sign information and the infusion information in the same first display section, so that the vital sign information and the infusion information of a patient can be acquired in the first display screen, a user can conveniently view the information in a centralized mode, the number of displays of the central station can be reduced, the size of the central station is reduced, a single-bed viewing interface or an infusion detail interface can be displayed when the detailed content of the vital sign information and the detailed content of the infusion information need to be further viewed, the user can view the information more flexibly, and the comprehensiveness of the information is guaranteed.

Drawings

FIG. 1 is a schematic diagram of the components of a central station according to one embodiment;

FIG. 2 is a flow diagram 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 of an embodiment displayed on a first display screen;

FIG. 4 is a schematic diagram of a multi-bed monitoring interface dual-screen display according to an embodiment;

FIG. 5 is a schematic diagram of a multi-bed monitoring interface of an embodiment with a dual screen display and an infusion detail interface displayed on a first display screen;

FIG. 6 is a diagram of a multi-bed monitoring interface with dual-screen display and a single-bed viewing interface displayed on a first display screen according to an embodiment;

FIG. 7 is a diagram of a multi-bed monitoring interface displayed on a first display screen and a single-bed viewing interface displayed on a second display screen according to an embodiment;

FIG. 8 is a diagram illustrating a multi-bed monitoring interface with dual screens and a single bed review interface displayed on a first screen according to an embodiment;

FIG. 9 is a diagram illustrating a multi-bed monitoring interface displayed on a first display screen and a single-bed review interface displayed on a second display screen according to an embodiment;

FIG. 10 is a schematic view of a multi-bed infusion interface and infusion details interface of one embodiment displayed on the same screen;

FIG. 11 is a schematic diagram of an embodiment of a multi-bed monitoring interface displayed on a first display screen and a multi-bed infusion interface displayed on the same screen as an infusion detail interface on a second display screen;

FIG. 12 is a diagram of an embodiment in which a multi-bed monitoring interface is displayed on a first display screen, a single-bed viewing interface is displayed on a second display screen, and a multi-bed infusion interface and an infusion details interface are displayed on the same screen on a third display screen;

FIG. 13 is a diagram illustrating a multi-bed monitoring interface and a single-bed viewing interface displayed on a first display screen and a multi-bed infusion interface and an infusion single-bed interface displayed on a second display screen in a same screen according to an embodiment;

FIG. 14 is a schematic view of a multi-bed infusion interface and an infusion single-bed interface of another embodiment shown on the same screen;

FIG. 15 is a schematic illustration of a bed infusion interface and infusion single bed interface in accordance with yet another embodiment shown on the same screen;

FIG. 16 is an alarm interface of an embodiment.

Modes for carrying out the invention

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 have been given like element numbers associated therewith. In the following description, numerous details are set forth to provide a thorough understanding of the embodimentsSo that the present application may be better understood. However, one 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 features, operations, or characteristics described in the specification 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 ordinal numbers used herein for the components, such as "first," "second," etc., are used merely to distinguish between the objects described, and do not have any sequential or technical meaning. The term "connected" and "coupled" as used herein includes both direct and indirect connections (couplings), unless otherwise specified.

Before further detailed description of the present invention, terms and expressions referred to in the embodiments of the present invention are described, and the terms and expressions referred to in the embodiments of the present invention are applicable to the following explanations.

) The monitoring information, which is a generic term of the patient-related information acquired by the central station through the medical equipment at the bedside, may include, for example, physiological parameter information, infusion information, etc. of the patient, and the medical staff knows the current condition of the patient through the monitoring information.

Infusion devices capable of passing respective medical liquidsThe storage unit holds different types of liquid medicines, high precision is realized, stable and pulsation-free liquid transmission is realized, and the corresponding different types of liquid medicines are input into the patient body.

In various embodiments of the present invention, the central station includes a display device and a host in signal communication with the display device, the display device including at least one display having a graphical user interface (GUI) The host includes one or more processors, memory, and one or more modules, programs, or sets of instructions stored in the memory for performing various functions.

In various embodiments of the present invention, the display in the central station may support a variety of applications with intuitive graphical user interfaces. The control object of the interface can pass through VB 、 Java Etc. and the result of the visualization is a graphical object displayed on the graphical user graphical interface, the graphical object comprising one or a combination of two or more of a graphic, a text, a picture, etc. displayed on the graphical user graphical interface. May be input through actual hardware (e.g., mouse and mouse) / Or a combination of one or more of the keyboards) as a human-machine interaction interface for a central station for user input to trigger an application or function related event, e.g., by a hardware input device controlling cursor movement on a graphical user interface to present an operational action on the graphical user interface. In other embodiments, the display screen may also be a touch screen, and the input may be performed by using a gesture of the touch screen.

The hardware and software environments upon which various embodiments of the present invention are based will now be described in detail with reference to the drawings.

In one embodiment of the invention, the figure 1 The associated hardware and software of the central station of an embodiment are presented / Or a software architecture.

The central station comprises a main unit 100 Display device 200 And other input devices 300 Host computer 100 May include a memory 114( The memory 114 May include one or more computer-readable storage media), a central processing unit 112( May be composed of one or more processors and / or controller), peripheral interface 116 、 I/O Sub-system 120 . Display device 200 May comprise a display screen, the content displayed on the display screen being a display 200 The display interface of (2).

Of course, the central station may also comprise a communication module 130 Audio processor 150 And a loudspeaker 160 External port 140 Power supply system 170( Included DC/DC Conversion circuit and / or AC/DC A conversion circuit). The various elements or modules described above may communicate over one or more communication buses or signal lines.

Memory device 114 May include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other non-volatile solid-state storage devices. In some embodiments, the memory 114 It may also include memory remote from the processor or processors, e.g. via a communication module 130 Or external port 140 And communication networks (not)Shown) a network attached storage, wherein the communication network may be the internet, one or more intranets, local area networks (b:) LAN) And a wide area network ( WAN) And a storage local area network ( SAN) Etc., or a suitable combination thereof.

Peripheral interface 116 Connecting the input and output peripheral of the central station with the central processor 112 The coupling is performed. Central processing unit 112 Running or executing data stored in memory 114 Various software programs in and / or a set of instructions to perform various functions and applications of the device and to process data.

In various embodiments of the present invention, a peripheral interface 116 And a central processing unit 112 （ CPU) And a memory 114 May be implemented on the same single chip, for example. In some embodiments, they may also be implemented on multiple discrete chips. Central processing unit 112 In connection with peripheral interfaces 116 Memory, and method of manufacturing the same 114 Or a part of it constitutes a processing unit 110 。

Communication module 130 The communication device is used for receiving the communication signal, converting the communication signal into an electric signal, converting the electric signal into the communication signal and sending the communication signal. Communication module 130 This may be accomplished in any manner known in the art, primarily to allow the central station to communicate with an external network or other external device. For example, communication modules 130 Can access the world wide web (WWW) The Internet, intranet and / or such as cellular telephone networks, officesDomain network (LAN) And / or metropolitan area network (MAN) Are wireless and / or a wired network, as well as other devices. Communication module 130 Any of a variety of communication standards, protocols and technologies may be used, including but not limited to using wired or wireless media including those based on bluetooth, ethernet, 802.11(x) Standard, body area network, or other wireless protocol.

Audio processor 150 Loudspeaker 160 Provides a user (medical staff) and a host 100 An audio interface therebetween. Audio processor 150 Can be connected with the peripheral 116 Receiving audio data, converting the audio data into an electrical signal, and transmitting the electrical signal to a speaker 160 . Loudspeaker 160 The electrical signal is converted into sound waves audible to humans. Peripheral interface 116 Can be read from the memory 114 And / or communication module 130 To retrieve audio data and / or sending audio data to memory 114 And / or communication module 130 。

Sub-system 120 Display device 200 And other input devices 300 Interface with peripheral devices 116 And (4) coupling. I/O Sub-system 120 May include a display controller 122 And for controlling other input devices 300 One or more ofHis input controller 124 . One or more other input controllers 124 To other input devices 300 Receiving / An electrical signal is transmitted. Other input devices 300 May include actual buttons and similar devices, etc.

The central station also includes a power supply system for providing electrical power input to the various components or modules or circuits 170 Comprising a power management system, one or more power sources ( For example, battery, alternating current (AC)) Charging system, power failure detection circuit, power converter or inverter, and power status indicator ( For example, light emitting diodes (LED)) And any other components related to the generation, management and distribution of power in the central station. Depending on the power supply it may comprise DC/DC Switching circuits, or comprising AC/DC A conversion circuit.

The above-mentioned figures 1 It is only meant to provide a block diagram of the structure of a central station, which of course may also have a comparison diagram 1 More or fewer elements or modules, or a combination of two or more of the elements or modules, or a pair of the figures 1 The architecture of (1) makes an arrangement of different configurations. As shown in the figure 1 The various elements or modules shown may be implemented in hardware, software, or a combination of hardware and software, including one or more signal processes and / or an application specific integrated circuit.

Please refer to the drawings 2 The invention also provides a method for processing the monitoring information by the central station , The central stationMethod for managing at least one bed for receiving a patient and corresponding first medical device for transmitting vital sign information of the received patient and second medical device for transmitting infusion information of the received patient , The method comprises the steps of :

Step (ii) of 100 And for any one of the at least one bed managed by the central station, the central station receives the vital sign information sent by the first medical equipment and the infusion information sent by the second medical equipment of the corresponding bed.

In some embodiments, the vital sign information includes at least one of an electrocardiographic parameter, a blood pressure, a blood oxygen saturation, a respiratory parameter, a pulse, and a body temperature, and the infusion information includes at least one of an infusion drug name, an infusion rate, an infused volume, a volume to be infused, and a remaining infusion time, and accordingly, the first medical device may include, but is not limited to, a ventilator, an anesthesia machine, and a monitor, and the second medical device may include, but is not limited to, an infusion device, such as a pump.

Step (ii) of 200 The central station displays the vital sign information and the infusion information on the same first display section on a first display screen of the central station 11 And (4) inside. Wherein the first display section 11 Corresponding to the bed, the first display section 11 Patient information of the patient received by the bed and the number of the bed are also displayed in the bed. Displaying a first display section 11 The interface of (A) is a multi-bed monitoring interface 10 。

The first display screen may be a single screen display or may be one of a plurality of screen displays. In some embodiments, the central station divides the first display area according to the number of beds and a predetermined display layout in the first display screen 11 The predetermined display layout may correspond to the instruction setIs stored in the host 100 Of (2) a memory 114 Central processor 112 The stored instruction set is executed in response to user input to divide the first display screen in a set display layout. For example, as shown in the figure 3 Showing the contents displayed on the first display screen of an embodiment 3 Middle and multiple bed monitoring interface 10 And displaying on the first display screen. The number of the medical care personnel input the bed positions through the man-machine interaction interface of the central station is 16 This information, the central processing unit 112 After the number of the bed positions is read, the memory is called 114 Instruction set in, dividing the first display screen into 4x4 Each rectangular frame is a first display section 11 . In other embodiments, the central station may respond to the operation instruction for the display splitting of the first display screen, and display the interface displayed by the first display screen on the first display screen and the second display screen in an expansion mode according to the preset display layout, for example, in the figure 3 In this case, the user clicks a split button (not shown) on the first display screen, which is originally displayed in the first display screen 16 A first display section 11 Is split into the following figures 4 Shown in the first display screen 8 A first display section 11 And displayed in the second display screen 8 A first display section 11 And first display screen and second display screen place side by side, and it is easily understood that, under the unchangeable condition of first display screen size, when the interface that first display screen shows is split the back, each first display section in first display screen 11 The occupied area can be adaptively enlargedAnd the user can view the image more clearly.

The patient information includes some or all of the patient's information, including, for example, the patient's name, age, height, and weight. For example, in the first display section 11 The left side near the top shows the name of the patient.

In some embodiments, the bed number of each bed is assigned by the central station, which may assign a bed number to each bed for receiving a patient based on the number of beds for receiving a patient. For example, the central station is used for managing medical equipment in a department, a bed for accommodating a patient is placed in the department, medical staff numbers the beds according to the placing sequence of each bed, and the bed numbers assigned to each bed are input into the central station through the human-computer interaction interface.

Through the steps of 200 Displaying the vital sign information and the infusion information in the same first display section 11 In, can concentrate on monitoring patient's vital sign and infusion state with a first display screen, reduce the number of the display that uses, and then reduce the volume of central station.

Step (ii) of 300 The central station responding to the first display section 11 Displaying infusion details on the first display screen or a second display screen connected to the central station 30 Or single bed observation interface 40 . Similar to the first display screen, the second display screen may be a single screen display or one of a plurality of screen displays.

Infusion details interface as described above 30 The infusion detail interface is used for displaying the detailed content of the infusion information and can be operated to enable the infusion detail interface to be displayed when the user needs to further view more infusion information 30 And (6) popping up.

For the first display section 11 And for displaying infusion details interface 30 For example, the user may click on the area where the infusion information is located to generate the operation instruction so as to display the infusion detail interface 30 。

For example a drawing 4 As shown, when the user clicks on the first display section 11 In the lower left corner, the region where the infusion information is located, as shown in the figure 5 Showing, interfacing infusion details within a first display screen 30 Interface with multi-bed monitoring 10 The on-screen display, that is, 1 number bed position to 8 First display section corresponding to number bed 11 Is displayed in the first display screen 9 Number bed position to 16 The first display section corresponding to the number bed position is displayed in the second display screen. In other embodiments, the infusion details interface 30 May also be displayed within the second display screen. In other embodiments, the infusion details interface 30 May be displayed in a third display screen connected to the central station. Similar to the first display screen, the third display screen may be a single screen display or may be one of a multi-screen display. When infusion details interface 30 While displayed on the third display screen, the second display screen may display other interfaces, such as the single bed viewing interface described above 40 A portion of the expanded multi-bed monitoring interface may also be displayed.

In some embodiments, the infusion details interface 30 Multiple infusion details are displayed, a single infusion detail of the multiple infusion detailsIncluding the name of the drug infused, the time remaining to be infused, and the amount to be infused, or including the name of the drug infused, the time remaining to be infused, the infusion rate, and the amount infused, or may include the name of the drug infused and the amount infused, as well as various other combinations of the above listed items. While figure shows 4 In the illustrated embodiment, the single infusion detail includes the bed number, the infusion time remaining, and the name of the medication being infused.

In some embodiments, the infusion details interface 30 Is displayed according to the preset rule N The details of the above-described infusion are described, N is greater than or equal to 2 And is less than or equal to the number of the beds. For example in the figures 5 In the embodiment shown in the drawings, N is equal to 8 Interface to infusion details in order of remaining infusion time from short to long 30 Inner display N The bar infusion details. Thereby enabling the user to know at a glance which beds require special attention to the remaining infusion time. In other embodiments, the central station obtains a time period corresponding to the remaining infusion time within each of the individual infusion details, and displays the remaining infusion time in a different color according to the corresponding time period, wherein the time period is at least one, and each time period has a predetermined color. For example in the figure 5 In the embodiment shown in the figure, it is, 10min the time period is defined as the time period, 10min to 20min Is another time period in which the user is not watching, 20min the above is again a time period, and it can be seen that, 1 bed and 4 the residual transfusion time corresponding to the bed has different colors, thereby playing the role of visual warning and reminding. In other embodiments, the single infusion details further include an infuser icon 31 Infusion apparatus icon 31 Types of infusion devices used to characterize the infusion of fluids to a patient, including infusion pumps and syringe pumps, e.g. charts 5 In the embodiment shown in the drawings, the reference numbers, 1 infusion device icon corresponding to bed 31 In order to provide an infusion pump with the function of, 2 infusion device icon corresponding to bed 31 Is a syringe pump.

Above single bed observation interface 40 The system is used for displaying the details of the vital sign information and the infusion information of the same patient, and when a user needs to further check the condition of the same patient, the single-bed observation interface can be operated 40 And (6) popping up.

For the first display section 11 And for displaying single-bed observation interface 40 There are many ways to generate the operation instruction, for example, the user can click on the first display section 11 The bed position number of the user is used for generating the operation instruction so as to display a single-bed observation interface 40 。

For example in the figure 4 When the user clicks the first display section 11 The area of the upper left corner where the bed position number is, as shown in the figure 6 Showing, single bed viewing interface in a first display screen 40 Interface with multi-bed monitoring 10 On-screen display, that is, 1 number bed position to 8 First display section corresponding to number bed 11 Is displayed in the first display screen 9 Number bed position to 16 The first display section corresponding to the number bed position is displayed in the second display screen. In other embodiments, a single bed viewing interface 40 May also be displayed in a second display screen, e.g. as a picture 7 As shown, the first display screen and the second display screen are placed side by side, 16 first display section corresponding to each bed 11 All are displayed on the first display screen, and the single bed observes the interface 40 And displaying on the second display screen. In other embodiments, a single bed viewing interface 40 May be displayed in a third display screen connected to the central station. When single bed observation interface 40 While displayed on the third display screen, the second display screen may display other interfaces, such as the infusion details interface described above 30 A portion of the expanded multi-bed monitoring interface may also be displayed.

In some embodiments, single bed viewing interface 40 The details of the middle vital sign information include: a vital sign waveform generated based on the vital sign information, and vital sign parameters extracted from the vital sign waveform, the vital sign parameters being used to characterize a physiological condition of the patient, and details of the infusion information including: at least one of a serial number, an infusion state, an infusion rate, an infusion drug name, an infused volume, a remaining infusion volume, and a remaining infusion time of the second medical device, and details of the infusion information may be determined based on the infusion state, for example, in a graph 6 In the illustrated embodiment, a single bed viewing interface 40 The upper middle part is a vital sign waveform, the right side of the vital sign waveform is a vital sign parameter, and the lower part of the vital sign waveform comprises an infusion state, an infusion rate, an infusion medicine name, an infused quantity, a residual infusion quantity and a residual infusion time.

In some embodiments, a multi-bed monitoring interface 10 Can be fixedly displayed in the first display screen, and the second display screen fixedly displays the single-bed observation interface 40 And infusion details interface 30 The third display screen fixedly displays the single-bed observation interface 40 And infusion details interface 30 The other of them.

At the pop-up single bed observation interface 40 Later, in some embodiments, the central station response is directed to a single bed viewing interface 40 Display single bed review interface 50 Operating instructions of, single bed viewing interface 40 Replacing as a single bed review interface 50 Interface for reviewing single bed 50 Used for displaying the historical content of the vital sign information and the historical content of the infusion information of the same patient. For example, a user is on a picture 6 If the middle click is made on the 'review' button, the picture is obtained 6 Changing into a figure 8 The interface shown, as shown 8 As shown, a single bed review interface is displayed on the first display screen 50 For another example, the user clicks on the graph 7 Middle single bed observation interface 40 The "look back" key of (1) is illustrated 7 Changing into a figure 9 Interface shown, in single bed review interface 50 The historical content of the internal vital sign information comprises historical waveforms and the like of the vital sign information, and the historical content of the infusion information comprises waveform changes and the like of the infused quantity or the residual infusion quantity of each infused medicine in the infusion information in a past period.

In addition to the multi-bed monitoring interface described above 10 In addition, in some embodiments, the central station displays infusion information on a multi-bed infusion interface 20 Second display section of 21 Inner, picture 10 Including the multi-bed infusion interface 20 Infusion interface with multiple beds 20 Second display section of 21 Corresponding to the bed position, the second display section 21 Patient information of the patient received by the bed and the number of the bed are also displayed in the second display section 21 May be generated in a manner similar to that of the first display section 11 Similarly, the display screen is obtained by dividing according to a preset display layout. In some embodiments, as shown in the figure 10 Shown, multi-bed infusion interface 20 Interface with infusion details 30 The on-screen display may be maintained so that information relating to the infusion condition is concentrated in one display screen for easy viewing by the user.

The above multi-bed infusion interface 20 May be displayed in a second display screen, e.g. in a picture 11 Middle and multi-bed monitoring interface 10 Displayed in the first display screen, and multi-bed infusion interface 20 And infusion details interface 30 And displaying the same screen in the second display screen. In addition, multi-bed infusion interface 20 Can also be displayed in a third display screen, and at the moment, the multi-bed monitoring interface can be displayed 10 Displaying on the first display screen and the second display screen in an expanded manner, or displaying a single-bed viewing interface in the second display screen 40 Infusion details interface 30 Or single bed review interface 50 . For example, in the figures 12 Middle and multi-bed monitoring interface 10 Display on the first screen, single bed observation interface 40 Displaying on a second display screen, a multi-bed infusion interface 20 Interface with infusion details 30 And displaying on the same screen on the third display screen.

By setting the above multi-bed infusion interface 20 More simplified and rapid information selection is provided for the user, and when the user only wants to pay attention to the infusion condition of the user, the user can only check the multi-bed infusion interface 20 。

In other embodiments, the central station response is to the second display segment 21 And for displaying infusion single bed interface 60 The infusion single bed interface is displayed in the second display screen or the third display screen 60 Interface with multi-bed infusion 20 On-screen display, the infusion single bed interface 60 Infusion single bed interface for displaying details of patient infusion information 60 The detailed content of the infusion information can be observed more than a single bed 40 More specifically, or include more categories of information. For example, in the figure 13 Infusion single bed interface including an embodiment 60 In the figure 13 Middle and multiple bed monitoring interface 10 Interface with single bed 40 Multi-bed infusion interface with on-screen display on the first display 20 Interface with infusion single bed 60 And displaying on the same screen on the second display screen.

For the second display section 21 And for displaying infusion single bed interface 60 There are many ways to generate the operation instruction, e.g. in the figure 11 In this way, the user can select the second display section by clicking on the second display section 21 To generate the operating command to display the interface of the infusion single bed 60 If the user is on the picture 11 In the middle ofClick on the first display section 11 The number of the inner bed is shown in the figure 11 Changing into a figure 13 . And if multi-bed infusion interface 20 Interface with infusion details 30 Keep the same screen display, then pop up the interface of the infusion single bed 60 Interface infusion details 30 Alternatives, e.g. drawings 11 Interface details of infusion 30 Infused single bed interface 60 After replacement, the figure is shown 13 As shown.

In addition to the multi-bed infusion interface 20 On screen display, in other embodiments, the infusion single bed interface can be used 60 The fourth screen, which may be a single screen display or one of a plurality of screen displays, is displayed on a fourth screen display connected to the central station, similar to the first screen display. Thus, the central station has four display screens. It is easy to understand that the above interfaces may be displayed on four or more screens.

In some embodiments, each bed also has a corresponding at least one docking station (when the second medical device is an infusion device) Dock ) Each docking station corresponds to part or all of at least one infusion device; each infusion device is communicatively coupled to a corresponding docking station and transmits infusion information to the central station via the corresponding docking station. For example, a bed may have two corresponding docking stations, each designated as a docking station, and six infusion devices A Docking station and B docking station, three of which are connected to an infusion device A Docking station communication connection, three infusion devices and B the docking station is communicatively coupled. The infusion information includes the name of the drug to be infused the infusion rate, the volume infused,At least one of the volume to be infused and the remaining infusion time. The docking station may be configured to transmit to the docking station a first identifier of the docking station when the infusion device is communicatively coupled to the docking station, the first identifier being indicative of a type of the corresponding infusion device, and the docking station may identify the type of the infusion device, e.g., whether the infusion device is an infusion pump or a syringe pump, via the first identifier.

The docking station can package the infusion information and the first identifier after receiving the infusion information and the first identifier sent by each infusion device in communication connection with the docking station, so that the docking information is generated and sent to the central station for receiving and analyzing by the central station, and therefore centralized management of the plurality of infusion devices is achieved.

Some ways of generating the infusion details interface when a docking station is present are described below.

The central station parses the dock information and the infusion information, and when the infusion information includes the remaining infusion time, the central station compares the remaining infusion time with a preset time limit and marks the infusion device that sent the remaining infusion time is less than the preset time limit. In the following, an infusion device that delivers a remaining infusion time that is less than a preset time limit is denoted as an infusion device to be monitored, since the medical staff needs to be prepared in advance when the remaining infusion time is less than the preset time limit, meaning that the infusion drug in the infusion device is about to be injected.

After marking the infusion device to be monitored, the central station generates an infusion detail interface 30 . Infusion details interface 30 A second display section corresponding to each infusion device to be monitored is divided according to the number of the infusion devices to be monitored and a preset display layout 32 . Please refer to the drawings 10, Infusion details interface in this figure 30 One second display section for each row of 32 At each secondDisplay section 32 The remaining infusion time sent by the corresponding infusion device to be monitored and the corresponding bed number are displayed therein, for example, the information displayed in the first row is 1 The infusion time of the infusion device of the bed is only left 10 And (3) minutes. In this embodiment, each second display section 32 The infusion time is arranged in ascending order, and in other embodiments, the infusion time may be arranged in other ways such as according to the number of the bed.

A second display section for displaying the remaining infusion time and the bed number 32 Other infusion information may also be displayed, such as a chart 10 In (1), the name of the infusion drug is also displayed. Further, as an option, the second display section 32 The drip information can be displayed in the unit of drops/min I.e. the amount of drops per minute.

Based on this, in some embodiments, the above-mentioned injector icon 31 The generation method of (2) may be: the central station stores the icon of the infusion device in advance 31 And a first identifier and an infuser icon 31 The corresponding table of (2), the injector icon 31 The central station simulates the type of infusion device based on the first identifier and the infuser icon 31 The corresponding table of (2) calls the infusion device icon corresponding to each infusion device to be monitored 31 To show the injector 31 Displaying on a corresponding second display section of each infusion device to be monitored 32 And (4) the following steps. For example a drawing 10 A second display section of the first row 32 A second display section corresponding to the infusion device to be monitored being an infusion pump and the second row 32 The corresponding infusion device to be monitored is a syringe pump.

As can be seen from the above description, the second display section 32 The content displayed within is a single infusion detail.

In some embodiments, the docking information further includes a first identification code corresponding to the docking station, and the first identification code may be a unique serial number of the docking station during a manufacturing process or a serial number assigned to the docking station by a user at an initialization time of the docking station. After the central station receives and analyzes the docking information sent by the docking station, the bed corresponding to the docking station can be determined according to the first identification code in the docking information and the corresponding table of the first identification code and the bed number which are pre-stored by the central station. On the basis, the infusion single-bed interface 60 The generation method of (2) may be:

single bed interface for infusion at central station 60 The number of the docking stations corresponding to the bed positions and the preset display layout are divided into interfaces for single infusion bed 60 Display area corresponding to each docking station of bed 62 Please refer to the figure 14-15, Drawing (A) 14 And the drawings 15 May represent the interfaces displayed on the displays of two central stations responsible for different departments. Therein, the figure 14 Middle and multiple bed infusion interface 20 Interface with infusion single bed 60 On-screen display, by infusion single bed interface 60 The upper left corner can be known 14 Infusion single bed interface with display 60 The corresponding bed numbers are 5 The number of the docking stations corresponding to the bed is one, the number of the infusion devices corresponding to the bed is four, and the infusion single-bed interface 60 The left side is a display area corresponding to the docking station 62 . To be composed ofDrawing (A) 15 Single bed interface of infusion 60 The upper left corner of the drawing can be known 15 Infusion single bed interface with display 60 The number of the corresponding bed is 5 The number of the docking stations corresponding to the bed is two, and the number of the docking stations corresponding to the infusion equipment is 12 An infusion single bed interface 60 The left and right sides are display areas corresponding to the docking station 62 In the upper left corner of each region can be dock+ Digital mode for display area corresponding to docking station 62 A distinction is made.

For any display area 62 The central station is based on and displays the area 62 The number of infusion devices corresponding to the communication connection of the docking station and the preset display layout are arranged in the display area 62 Is internally divided into the display region 62 A fourth display section corresponding to each infusion device in docking station communication connection 61 . For example a drawing 15 In (1), 5 infusion single bed interface corresponding to number bed 60 Each docking station is communicatively coupled to six infusion devices, and thus each display area 62 Is divided into six fourth display sections 61 At each fourth display section 61 The central station displays the infusion rate and the remaining volume, entered volume and remaining time, etc. sent by the corresponding infusion device.

In some embodiments, the docking station is a case structure having a plurality of slots for receiving the infusion devices, the slots having physical interfaces therein for interfacing with the infusion devices, the infusion devices communicatively coupled to the docking station via the interfacing interfaces, the docking station being capable of identifying which interfaces the docking station is capable of identifyingAnd the slots are occupied, and each slot of the docking station also has a slot number. In this embodiment, the docking information also includes the slot number and the occupied condition of the corresponding docking station, and the central station can know that the slot in the docking station is occupied after analyzing the docking information. The central station generates the infusion single-bed interface 60 According to the number of slots of each docking station and the slot number, corresponding display area 62 A fourth display section with one-to-one corresponding slot number 61 And, a fourth display section 61 In an arrangement that matches the actual location of the slot on the docking station. For example a drawing 14 Infusion single bed interface as shown in 60 The docking station of the interface corresponding to the bed is provided with six slots, wherein four slots are occupied. On the actual docking station, from top to bottom, the four slots are also occupied.

In this way, the display can be on one side of the central station 200 The situation where the actual docking station is used is obtained.

Infusion Single bed interface in addition to detailed infusion information 60 It is also possible to display details of the patient accommodated in the corresponding bed, for example a map 14-15 In the display area 62 There is also a column of patient information column above, which records the detailed information of the patient's height, weight, etc. And, when infusion single bed interface 60 When the infusion device corresponding to the bed sends the alarm information, the alarm information can be displayed in the fourth display section corresponding to the infusion device sending the alarm information 61 Can also be displayed in the fourth display section 61 Interface of infusion single bed 60 The blank position of (2).

Further, the central stationA correspondence table of the first identifier and the display layout template is stored in advance. For each infusion device, the central station calls a display layout template according to the first identifier of the infusion device, the central station uses the infusion information sent by the infusion device in the display layout template to generate a display image, and the display image is displayed in a corresponding fourth display section 61 And displaying. The display layout template is the same as the actual display interface layout on the corresponding infusion device, so that any one fourth display section is enabled 61 The displayed content and the layout mode are completely consistent with the content displayed by the display screen on the corresponding infusion equipment, and the medical care personnel observes the fourth display section 61 The information obtained by the medical staff observing the display screen of the corresponding infusion device is completely consistent.

As described above, the docking station may provide comprehensive management of the communicatively coupled infusion devices. When the docking station recognizes that the operational state of the communicatively connected infusion device is abnormal, i.e., not in a normal operational state, a second identifier characterizing the abnormal state is generated. The central station displays the abnormal state information corresponding to the infusion equipment in a fourth display section corresponding to the infusion equipment according to the prestored abnormal state information and the corresponding table of the second identifier and the abnormal state information 61 And (4) the following steps. For example as shown in the figure 14 As shown, two infusion devices are electrically connected with the docking station but do not transmit data, and the docking station sends a second identifier corresponding to a standby state and a second identifier corresponding to a power-off state to the central station after recognizing the states of the two infusion devices, so that the second identifier corresponds to a fourth display section 61 And displaying the content.

In some embodiments, the central station also receives a first medical device and / or at least one alarm message sent by the second medical device , The central station displays at least one piece of received alarm information in a first display section 11 And (4) the following steps. Thus, each first display section 11 In, all can see three kinds of information, infusion information is first, second vital sign information, and the alarm information when taking place the anomaly is third to grasp patient's situation at a glance, and according to the serial number of bed and patient information, can fix a position the patient rapidly.

In some embodiments, according to the degree of urgency of an abnormal situation defined by a user, the alarm information may be further classified into a first alarm class and a second alarm class, where the first alarm class is an abnormal situation in which the situation is more serious or more urgent. In order to distinguish between different alarm levels, a first identifier for characterizing the alarm level is also included in the alarm information, for example, the alarm information is transmitted in a character string, and the first identifier is a certain field in the character string. After the central station obtains the alarm information, each piece of alarm information is also analyzed respectively to obtain a first identifier in each piece of alarm information, and the piece of alarm information can be displayed in different display modes according to the first identifier. Generally speaking, the alarm information of the first alarm level is displayed in a more striking manner. For example, the central station may be colored with different backgrounds / Or the character displays the alarm information of the first alarm grade and the alarm information of the second alarm grade, and the background color brightness of the alarm information of the first alarm grade is higher.

Except for the first display section 11 In addition, in some embodiments, when the central station receives at least one alarm message sent by the second medical device, the at least one alarm message is also displayed in the second display section 21 And (4) the following steps. Similarly, the alarm information levels may include a first alarm level and a second alarm level displayed in a manner similar to the first display section 11 In a similar manner, e.g. as shown in the figure 7 The alarm information is displayed in the second display section 21 Of the display panel.

The central station responds to an operation instruction aiming at the alarm information and displays an alarm interface on the first display screen or the second display screen connected with the central station 70 Alarm interface 70 Alarm interface generated by central station 70 At least one piece of alarm information is displayed inside. For example, when the user clicks the first display section 11 After the area of the alarm information is displayed, the picture is displayed on the first display screen or the second display screen connected with the central station 16 Alarm interface as shown 70 。

The embodiment acquires the vital signs and the infusion information of the patient in the first display screen, so that the user can conveniently view the information in a centralized manner, the size of the central station can be reduced, and various selectable interfaces are provided to meet different requirements of the user.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implementedAnd (4) function.

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. Variations of the foregoing embodiments may be made by those skilled in the art, consistent with the principles of the invention。

Claims (27)

1. A method for processing monitoring information by a central station is applied to the central station, the central station is used for managing at least one bed for receiving a patient and a corresponding first medical device for transmitting vital sign information of the received patient and a second medical device for transmitting infusion information of the received patient, and the method comprises the following steps:

   for any one of at least one bed managed by the central station, the central station receives vital sign information sent by first medical equipment and infusion information sent by second medical equipment corresponding to the bed;

   the central station displaying the vital sign information and the infusion information within a same first display section on a first display screen of the central station; the first display section corresponds to the bed, and patient information and a bed number of a patient received by the bed are displayed in the first display section;

   the central station responds to the operation instruction of the infusion information of the first display section, and an infusion detail interface or a single-bed observation interface is displayed on the first display screen or a second display screen connected with the central station.
2. The method of claim 1, wherein the vital sign information includes at least one of an electrocardiogram parameter, a blood pressure, a blood oxygen saturation level, a respiration parameter, a pulse and a body temperature; and/or

   The infusion information includes at least one of an infusion medication name, an infusion rate, an infused volume, a volume to be infused, and a remaining infusion time.
3. The method of claim 2, wherein the infusion details interface displays a plurality of infusion details, wherein a single infusion detail of the plurality of infusion details comprises:

   name of drug to be infused, remaining infusion time and volume to be infused; or the like, or, alternatively,

   drug name infused, remaining infusion time, infusion rate and volume infused; or the like, or, alternatively,

   the name of the drug infused and the volume infused.
4. The method of claim 1, wherein N infusion details are displayed in the infusion detail interface according to a preset regular arrangement, N is greater than or equal to 2 and less than or equal to the number of the beds, and a single infusion detail of the N infusion details comprises: the bed number, the remaining infusion time and the name of the drug to be infused.
5. The method of claim 4, wherein the displaying N infusion details according to a preset regular arrangement comprises:

   and displaying N infusion details in the infusion detail interface according to the length sequence of the remaining infusion time.
6. The method of claim 4, wherein the method further comprises: and the central station acquires time periods 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 periods, wherein the time period is at least one, and each time period has a preset color.
7. The method of claim 4, wherein the second medical device comprises an infusion device that infuses the patient, wherein the single infusion detail further includes an infuser icon for characterizing a type of infusion device that infuses the patient, wherein the type of infusion device includes an infusion pump and a syringe pump.
8. The method of claim 1, wherein the interface on which the first display section is displayed is a multi-bed monitoring interface, the method further comprising:

   the central station responds to an operation instruction which is specific to the first display section and is used for displaying an infusion detail interface, and the infusion detail interface and the multi-bed monitoring interface are displayed on the same screen in the first display screen; or

   Displaying an infusion details interface on a second display screen connected to the central station; or the like, or, alternatively,

   displaying an infusion details interface on a third display screen connected to the central station; the infusion details interface is used to display details of patient infusion information.
9. The method of claim 1, wherein the interface on which the first display section is displayed is a multi-bed monitoring interface, the method further comprising:

   the central station responds to an operation instruction aiming at the first display section and used for displaying a single-bed observation interface, and the single-bed observation interface and the multi-bed monitoring interface are displayed on the same screen in the first display screen; or

   Displaying a single-bed viewing interface on a second display screen connected to the central station; or the like, or, alternatively,

   displaying a single bed viewing interface on a third display screen connected to the central station; the single-bed observation interface is used for displaying the details of the vital sign information and the infusion information of the same patient.
10. The method of claim 9, wherein the details of the vital sign information include: the vital sign information processing method comprises the steps of generating a vital sign waveform based on vital sign information, and extracting vital sign parameters from the vital sign waveform, wherein the vital sign parameters are used for representing physiological conditions of a patient;

    details of the infusion information include: at least one of a serial number, an infusion state, an infusion rate, an infusion medication name, an infused volume, a remaining infused volume, and a remaining infusion time of the second medical device.
11. The method of claim 9, wherein the method further comprises:

    and the central station responds to an operation instruction for displaying a single bed review interface of the single bed observation interface, and replaces the single bed observation interface with the single bed review interface, wherein the single bed review interface is used for displaying the historical content of the vital sign information and the historical content of the infusion information of the same patient.
12. The method of claim 1, wherein the method further comprises:

    and the central station responds to an operation instruction for the display splitting of the first display screen, and displays the interface displayed by the first display screen on the first display screen and the second display screen in an expansion mode according to a preset display layout.
13. The method of claim 1, wherein the method further comprises:

    the central station displays the infusion information in a second display section of a multi-bed infusion interface, the second display section corresponds to a bed, and patient information of a patient received by the bed and a bed number are also displayed in the second display section;

    displaying the multi-bed infusion interface on a second display screen connected to the central station; or

    Displaying the multi-bed infusion interface on a third display screen coupled to the central station.
14. The method of claim 13, wherein the method further comprises:

    displaying the multi-bed infusion interface and the infusion detail interface on the same screen in the second display screen or a third display screen.
15. The method of claim 13 or 14, wherein the central station displays the infusion single bed interface on the same screen as the multi-bed infusion interface within the second display screen or a third display screen in response to an operating instruction directed to the second display section and for displaying the infusion single bed interface; or

    Displaying the infusion single bed interface on a fourth display screen connected to the central station, the infusion single bed interface for displaying details of the patient's infusion information.
16. The method of claim 15, wherein the at least one second medical device comprises at least one infusion device;

    each bed further has at least one docking station corresponding thereto, each docking station corresponding to some or all of the at least one infusion device;

    each infusion device is communicatively coupled to a corresponding docking station and transmits infusion information to the central station via the corresponding docking station, the infusion information including at least one of an infusion medication name, an infusion rate, an infused volume, a volume to be infused, and a remaining infusion time;

    the method further comprises the following steps:

    for any of the at least one docking station, the central station receives and parses docking information transmitted by the docking station, the docking information including infusion information transmitted by each infusion device communicatively connected with the docking station and a first identifier corresponding to each infusion device communicatively connected with the docking station, the first identifier being used to characterize a type of the corresponding infusion device.
17. The method of claim 16, wherein the manner in which the infusion details interface is generated comprises:

    for any infusion information in the dock information, the central station analyzes the infusion information, when the infusion information comprises residual infusion time, the residual infusion time is compared with a preset time limit, and the infusion device which sends the residual infusion time smaller than the preset time limit is marked as an infusion device to be monitored;

    the central station generates a residual infusion time interface, and a third display section which corresponds to each infusion device to be monitored one by one is divided in the residual infusion time interface according to the number of the infusion devices to be monitored and a preset display layout;

    in each third display section, the central station displays the remaining infusion time sent by the corresponding infusion device to be monitored and the corresponding bed number.
18. The method of claim 17, wherein the method further comprises:

    for any infusion device to be monitored, the central station acquires a first identifier corresponding to the infusion device to be monitored;

    the central station stores an infusion device icon and a corresponding table of the first identifier and the infusion device icon in advance;

    and the central station calls the infusion device icon corresponding to the infusion device to be monitored according to the first identifier and the corresponding table of the infusion device icons, and displays the infusion device icon in a third display section corresponding to the infusion device to be monitored.
19. The method of claim 16, wherein the dock information further comprises a first identification code of the corresponding docking station; the generation mode of the infusion single-bed interface comprises the following steps:

    the central station determines a bed corresponding to the docking station according to a first identification code in the docking station information and a corresponding table of the first identification code and a bed number which are pre-stored by the central station;

    the central station generates an infusion single bed interface corresponding to each bed, and a display area corresponding to each docking station of the beds corresponding to the infusion single bed interface is divided in the infusion single bed interface according to the number of the docking stations corresponding to the beds corresponding to the infusion single bed interface and a preset display layout;

    for any display area in at least one display area, dividing a fourth display section corresponding to each infusion device in communication connection with the docking station corresponding to the display area into the display area according to the number of the infusion devices in communication connection with the docking station corresponding to the display area and a preset display layout by the central station;

    within each fourth display section, the central station displays the infusion information sent by the corresponding infusion device.
20. The method of claim 19, further comprising:

    and if the dock information comprises a second identifier which is corresponding to the infusion equipment and used for representing an abnormal working state, the central station displays the abnormal state information corresponding to the infusion equipment in a fourth display section corresponding to the infusion equipment according to the prestored abnormal state information and a corresponding table of the second identifier and the abnormal state information.
21. The method of claim 19, wherein within each fourth display section, the central station displays the infusion information sent by the corresponding infusion device, including:

    the central station stores a first identifier and a corresponding table of display layout templates in advance;

    within each fourth display section, the central station invoking a display layout template according to the first identifier of the corresponding infusion device; the central station applies the infusion information sent by the corresponding infusion equipment to the display layout template to generate a display image and displays the display image;

    the display layout template is the same as the actual display interface layout on the corresponding infusion device.
22. The method of claim 1, wherein the method further comprises:

    the central station receives at least one piece of alarm information sent by the first medical equipment and/or the second medical equipment, and the central station displays the received at least one piece of alarm information in the first display section.
23. The method of claim 22, wherein the alert information further includes a first identifier for characterizing an alert level;

    the central station displays the received at least one piece of alarm information in the first display section, and the method comprises the following steps:

    for any one piece of alarm information, the central station determines a display mode corresponding to the alarm information according to the first identifier in the alarm information;

    and the central station displays the alarm information in the first display section in the display mode.
24. The method of claim 23, wherein the alert level comprises a first alert level and a second alert level; the central station displaying the alarm information in the first display section through the display mode comprises the following steps:

    the central station displays alarm information of a first alarm grade and alarm information of a second alarm grade by different background colors and/or characters.
25. The method of claim 22, wherein the method further comprises:

    and the central station responds to an operation instruction aiming at the alarm information, and displays an alarm interface on the first display screen or a second display screen connected with the central station, wherein the alarm interface is generated by the central station, and the at least one piece of alarm information is displayed in the alarm interface.
26. A central station for processing monitoring information, the central station being adapted to manage at least one bed for receiving a patient and a corresponding first medical device for transmitting vital sign information of the received patient and a second medical device for transmitting infusion information of the received patient, characterized in that the central station comprises:

    a memory for storing a program;

    a processor for implementing the method of any one of claims 1-25 by executing a program stored by the memory;

    a display device to display the interface generated by the processor.
27. A computer-readable storage medium, comprising a program executable by a processor to implement the method of any one of claims 1-25.

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