CN116490118A - Monitoring equipment and monitoring method thereof - Google Patents

Abstract

A monitoring device and a monitoring method thereof are provided. The monitoring device (100) comprises: a memory (104) for storing an executable program; a processor (101) for executing a program stored in a memory (104), causing the processor (101) to perform actions comprising: determining current illness state information of the patient according to at least two types of physiological parameters of the patient; generating processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for a monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool; a display (103) for displaying at least the physiological parameter on a display interface; and displaying the processing information on the display interface when the processing information is acquired.

Description

Monitoring equipment and monitoring method thereof

Description

Technical Field

The present invention relates generally to the technical field of medical devices, and more particularly to a monitoring device and a monitoring method thereof.

Background

Conventional monitors typically provide physiological alarms to help medical personnel identify changes in the patient's condition and then send out audible and visual signals to attract the medical personnel to the bedside for treatment. The medical staff confirms the diagnosis and then carries out corresponding treatment, and finds relevant tools on the monitor to assist the treatment. The identification of the illness state and the treatment of the illness state are independent of each other and are not related, so that the medical staff can not conveniently and continuously develop clinical work.

Disclosure of Invention

The present invention has been made in order to solve at least one of the above problems. Specifically, an aspect of the present invention provides a monitoring device, including:

a memory for storing an executable program;

a processor for executing the program stored in the memory, causing the processor to perform operations comprising:

acquiring data of a first physiological parameter and data of a second physiological parameter of a patient, wherein the first physiological parameter and the second physiological parameter can be used for determining at least one illness state information respectively;

performing association analysis on the data of the first physiological parameter and the data of the second physiological parameter of the monitored object to determine the current illness state information of the monitored object;

generating and controlling to display processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool;

a display for displaying at least the data of the first physiological parameter and/or the data of the second physiological parameter on a display interface; and

And when the processing information is acquired, displaying the processing information on the display interface.

Another aspect of the invention provides a monitoring device comprising:

a memory for storing an executable program;

a processor for executing the program stored in the memory, causing the processor to perform actions comprising:

acquiring data of at least one type of physiological parameters of a patient, wherein each physiological parameter can be used for determining at least one illness state information;

determining current condition information of the subject when the data of at least one type of physiological parameters of the subject;

generating and controlling to display processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool;

a display for displaying data of at least one type of physiological parameter on a display interface; and

and when the processing information is acquired, displaying the processing information on the display interface.

In still another aspect, the present invention provides a monitoring method of a monitoring device, the monitoring method including:

detecting signals of at least one type of physiological parameter of the subject;

processing the signals of the at least one type of physiological parameters to obtain data of the at least one type of physiological parameters of the monitored object;

determining current illness state information of the monitored object according to the data of at least one type of physiological parameters of the monitored object;

generating alarm information and processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool;

and displaying the alarm information and/or the processing information on the display interface of a display.

According to the monitoring device and the monitoring method thereof, the processor can automatically generate and display the processing information of the treatment tool associated with the current illness state information according to the identified current illness state information, and the display can display the processing information on the display interface when acquiring the processing information. The monitoring equipment associates disease condition identification with disease condition treatment, and facilitates medical staff to check treatment information of treatment tools associated with current disease condition information so as to assist the medical staff in treating the connected objects and improve continuity of clinical work.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 shows a schematic block diagram of a monitoring device in one embodiment of the invention;

FIG. 2 illustrates a schematic block diagram of the manner in which condition identification of a monitoring device is associated with condition treatment in one embodiment of the invention;

FIG. 3 shows a schematic diagram of a display interface of a display in one embodiment of the invention;

FIG. 4 is a schematic diagram of a display interface of a display displaying a first display window according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a display interface of a display displaying a first display window according to another embodiment of the present invention;

FIG. 6 is a schematic diagram of a display interface of a display displaying a second display window according to an embodiment of the invention;

FIG. 7 is a schematic diagram of a display interface of a display displaying a second display window according to another embodiment of the present invention;

Fig. 8 shows a flow chart of a monitoring method of a monitoring device in an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, exemplary embodiments according to the present invention will be described in detail with reference to the accompanying drawings. It should be apparent that the described embodiments are only some embodiments of the present invention and not all embodiments of the present invention, and it should be understood that the present invention is not limited by the example embodiments described herein. Based on the embodiments of the invention described in the present application, all other embodiments that a person skilled in the art would have without inventive effort shall fall within the scope of the invention.

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the invention may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the invention.

It should be understood that the present invention may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. As used herein, the term "and/or" includes any and all combinations of the associated listed items.

In view of the foregoing problems with monitoring devices, the present application provides a monitoring device for providing monitoring of physiological parameters of a subject, comprising: a memory for storing an executable program; a processor for executing the program stored in the memory, causing the processor to perform actions comprising: acquiring data of a first physiological parameter and data of a second physiological parameter of a patient, wherein the first physiological parameter and the second physiological parameter can be used for determining at least one illness state information respectively; performing association analysis on the data of the first physiological parameter and the data of the second physiological parameter of the patient to determine the current illness state information of the patient; generating and controlling to display processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for a patient, and/or the processing information comprises prompt information corresponding to the treatment tool; a display for displaying at least the data of the first physiological parameter and/or the data of the second physiological parameter on a display interface; and displaying the processing information on the display interface when the processing information is acquired. The processor can acquire signals of the required physiological parameters from one or more sensors connected with the monitored object, and process the signals of the physiological parameters so as to obtain data of the corresponding physiological parameters. The processor may also retrieve data of the physiological parameter stored in the memory from the memory. In some examples, the sensors may be used as an accessory to the monitoring device for signal acquisition of the physiological parameter.

According to the monitoring device, the processor can determine the current illness state information of the monitored object according to the data of at least two physiological parameters of the monitored object, and can generate the processing information of the treatment tool associated with the current illness state information according to the current illness state information, when the processing information is acquired by the display, the processing information is displayed on the display interface, and the monitoring device associates illness state identification with illness state processing, so that medical staff can conveniently check the processing information of the treatment tool associated with the current illness state information, the medical staff can be assisted in treating the monitored object, and continuity of clinical work is improved.

In order to provide a thorough understanding of the present invention, detailed structures will be presented in the following description in order to illustrate the technical solutions presented by the present invention. Alternative embodiments of the invention are described in detail below, however, the invention may have other implementations in addition to these detailed descriptions. Specifically, the monitoring device and the monitoring method of the present application are described in detail below with reference to the accompanying drawings. The features of the examples and embodiments described below may be combined with each other without conflict.

As an example, the monitoring device of the embodiment of the present application detects a physiological parameter of a subject connected thereto, and the monitoring device of the present application may be a bedside monitor, a central station, a PC on which monitoring software is installed, or the like. The following examples will be presented primarily with respect to bedside monitors.

The monitor 100 may include one or more processors 101, one or more sensors 102, a display 103, memory 104, and a communication interface, among others. These components are interconnected by a bus system and/or other forms of connection mechanisms (not shown). It should be noted that the components and configuration of the monitor 100 shown in fig. 1 are exemplary only and not limiting, and that the monitor 100 may have other components and configurations as desired.

The monitor 100 has a separate housing with a sensor interface area on a face plate thereof, in which a plurality of sensor interfaces are integrated for connection to external individual physiological parameter sensor accessories (not shown). The sensor 102 is configured to detect a physiological parameter of a subject to which the monitor is connected (i.e., a subject), for example, the physiological parameter including at least one of: blood pressure, respiration rate, heart rate, body temperature, pulse rate, blood oxygen saturation, cardiac output, end-tidal carbon dioxide, brain electricity, electrocardiogram, etc.

The monitor 100 also includes signal acquisition circuitry, front-end signal processing circuitry (not shown), etc., corresponding to each physiological parameter. The signal acquisition circuit may be selected from an electrocardiograph circuit, a respiratory circuit, a body temperature circuit, an oximetry circuit, a noninvasive blood pressure circuit, an invasive blood pressure circuit, etc., and is electrically connected to the corresponding sensor interfaces, and is used for being electrically connected to the sensor accessories corresponding to different physiological parameters, the output end of the signal acquisition circuit is coupled to a front-end signal processor, the communication port of the front-end signal processor is coupled to the processor 101, and the processor 101 is electrically connected to the external communication and the power interface.

The various physiological parameter measuring circuits can adopt a general circuit in the prior art, and the front-end signal processor is used for completing sampling and analog-to-digital conversion of the output signals of the signal acquisition circuit and outputting control signals to control the physiological signal measuring process. In one possible implementation, the sensors may be separate from each other, may be integrated, or may be part of the sensors separate from each other and part of the sensors integrated. The integration may be that a plurality of different sensing modules are respectively integrated on the same circuit board, or that a plurality of sensing functions are integrated into one circuit, etc., which is not limited in the present disclosure.

The memory 104 is used to store various data and executable programs generated during the relevant monitoring process, such as system programs for the monitor, various application programs, or algorithms for performing various specific functions. One or more computer program products may be included that may include various forms of computer-readable storage media, such as volatile and/or nonvolatile memory. The volatile memory may include, for example, random Access Memory (RAM) and/or cache memory (cache), and the like. The nonvolatile memory may include, for example, read Only Memory (ROM), hard disk, flash memory, and the like. During the monitoring of the subject by the monitor, data that is locally stored if needed may be stored in the memory 104.

The processor 101 may be a Central Processing Unit (CPU), an image processing unit (GPU), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA), or other form of processing unit with data processing and/or instruction execution capabilities, and may control other components in the monitor to perform desired functions. For example, the processor 101 can include one or more embedded processors, processor cores, microprocessors, logic circuits, hardware Finite State Machines (FSMs), digital Signal Processors (DSPs), image processing units (GPUs), or combinations thereof.

The processor 101 is configured to execute the program stored in the memory 104, so that the processor 101 performs the following actions, including: determining current illness state information of the patient according to the data of at least one type of physiological parameters of the patient; when the disease condition is identified by multiple physiological parameters, the data of the first physiological parameter and the data of the second physiological parameter can be subjected to correlation analysis so as to determine the current disease condition information of the patient. For example, when the data of one or more types of physiological parameters of the subject monitored by the monitor changes abnormally, for example, the data of one type of physiological parameters is abnormal, for example, the data of at least two types of physiological parameters exceeds the threshold range, the processor 101 is configured to determine the current condition information of the subject according to the physiological parameters exceeding the threshold range. The processor can determine the illness state of the patient according to one or more types of physiological parameters, and correlate illness state identification with illness state treatment, so that medical staff can conveniently check treatment information of treatment tools related to illness state information, treatment of the patient by the medical staff is assisted, and continuity of clinical work is improved.

In one example, the current condition information of the subject is determined to be shock when at least the heart rate value, the blood pressure value, and the respiration rate value of the physiological parameter of the subject are each outside of respective threshold ranges. In another example, the current condition information of the subject is determined to be choking when data of at least one type of physiological parameters related to respiration among the physiological parameters of the subject is out of respective threshold ranges, for example, at least a value of respiration rate, a heart rate value, and blood oxygen saturation are respectively out of respective threshold ranges. For example, when the monitor is used to monitor vital signs of a neonate, the current condition information of the neonate may be determined to be choking according to the above-mentioned respiration rate, heart rate and blood oxygen saturation. The above rules of condition judgment are merely examples, and do not exclude that other physiological parameters are adopted for consideration when a specific condition occurs in a subject, or that only one type of physiological parameters may be adopted for consideration.

When the processor 101 of the monitor determines that the subject is ill, the processor 101 may be further configured to: and generating alarm information according to the current illness state information, wherein the alarm information comprises characters corresponding to the current illness state information, for example, the current illness state information is shock, the alarm information comprises the characters of shock, for example, the current illness state information is asphyxia, and the alarm information comprises the information of asphyxia. Through such setting mode, when this alarm information shows on the display, can make medical personnel obtain patient's current state of illness information fast to in time carry out suitable treatment to the guardian who takes place the state of illness, make guardian can break away from danger fast, resume normal vital sign.

The processor 101 may also be configured to: and controlling the display to highlight the alarm information in a preset mode in an alarm display area of the display interface so as to alarm a user, wherein when the monitored current illness state information is shock, as shown in fig. 2, a character corresponding to shock, such as 'patient shock alarm', or 'shock', is displayed on the display interface of the monitor, namely a display screen of the display.

The alert information may be highlighted in any suitable preset manner including at least one of the following: highlighting, blinking, additional symbol displaying, differentiated ground tint displaying, or differentiated font color displaying. For example, the alarm information may be displayed in a red ground tint, or any other display that enables the user to quickly identify the occurrence of an alarm event. In one example, the alarm information of different illness states can be highlighted in different preset modes, for example, different shading colors are displayed, different font colors are displayed, and the like, so that the medical staff can be quickly alerted and noticed while alarming, and a proper treatment tool is used for a specific illness state, so that the monitored object can be quickly separated from danger, and normal vital signs can be restored.

The display is at least for displaying data of the physiological parameter on the display interface. To facilitate the user in obtaining various key information, the various information may be displayed in different areas, for example, as shown in fig. 3, a first parameter area for displaying data of physiological parameters and an alarm display area 302 for displaying alarm information may be included on the display interface 300. The first parameter area may include a waveform area 303 (e.g., for displaying waveforms of one or more types of physiological parameters, including but not limited to, electrocardiography (ECG), blood oxygen saturation, respiration, mean arterial blood pressure (arterial pressure, ART), etc.), a waveform parameter area 304 (for displaying data of physiological parameters corresponding to the waveforms), an amorphous parameter area 305 (e.g., for displaying data of physiological parameters of a subject such as body temperature, non-invasive blood pressure NIBP, pulse rate PR), etc., a display interface may further include other display areas, such as a patient information area 301 for displaying patient information (e.g., for displaying a type of patient, e.g., adult, child, neonate, etc.), a prompt information area 306 (e.g., for displaying one or more of function attributes, function settings, and function keys, e.g., for displaying wireless information, volume information, power information, etc.), a hot key area 307 (i.g., a navigation area in which one or more hot keys are displayed, e.g., for reviewing, waiting, alarm setting, main menu, etc.), various function keys may be icons and/or text keys, and/or a user may click a function may be associated with a hot key, a hot key may be provided by clicking a user key, a function may be associated with a hot key, a hot key may be set, a relevant hot key may be set. The layout of each display area can be reasonably set according to actual needs. For example, the waveform parameter area is located at one side of the waveform area, the intelligent hot key area is arranged at the bottom end of the display interface, and the amorphous parameter area is arranged between the intelligent hot key area and the waveform area. The alarm display area may be disposed at any suitable location on the display interface of the display, for example, above or to one side of the waveform parameter area, and for example, above, below or to one side of the waveform area.

In one example, the monitor may also be provided with an alarm device configured to alarm based on the aforementioned alarm information. For example, the alarm device may alarm for abnormal physiological parameters, or alarm for conditions of the patient, or the processor may generate alarm information (e.g., an alarm signal) when abnormal connections, abnormal operating conditions, etc. occur in the various components of the monitor. The alarm device is configured to alarm based on the alarm information, including but not limited to alarm modes such as light, sound and the like, and the specific forms can be a flashing LED lamp, a buzzer and the like, so that the requirements on the intensity of alarm signals and the like are met, and the alarm device is sufficient for attracting attention and vigilance of observers. By the mode, real-time alarm can be realized, and the effectiveness of data monitoring is improved.

In one embodiment, different alarm information may be triggered according to a threshold range where the data of the physiological parameter is located, for example, when the data of the first physiological parameter and the data of the second physiological parameter respectively exceed respective first threshold ranges, the alarm information is used to indicate that the monitored object has a tendency to generate a specific condition, for example, the patient has a tendency to generate shock, choking, and the like. By adopting the mode, medical staff can quickly and properly treat the patient before the patient suffers from a specific disease, so that the risk of the patient suffering from the specific disease is reduced. For another example, when the data of the first physiological parameter and the data of the second physiological parameter respectively exceed the respective second threshold ranges, the alarm information is used for indicating that the patient has a specific illness state, so that the medical staff can quickly acquire the current illness state information of the patient, and the patient suffering from the illness state can be treated appropriately in time, wherein the second threshold ranges deviate from the normal ranges of the physiological parameters compared with the first threshold ranges.

In one example, the processor 101 is further configured to: generating disease detailed information according to the current disease information, wherein the disease detailed information comprises at least one of the following information: the value of the physiological parameter triggering the alarm during the alarm, the trend of the physiological parameter within the preset time before and after the alarm (the preset time can be reasonably set according to actual needs, for example, can be 5 minutes, 10 minutes, 15 minutes, 20 minutes, 30 minutes and the like), the threshold range corresponding to the physiological parameter triggering the alarm, the alarm time, or other information related to the current illness state information can be included. The physiological parameters for triggering the alarm are used for determining the current illness state information, and medical staff can judge whether the identified current illness state information is real or not based on the illness state detailed information, so that whether a treatment tool corresponding to the current illness state information is called or not is determined.

The processor 101 may also be configured to control the display 103 to display a first display window on the display interface and display the detailed information of the condition in the first display window in order to facilitate viewing of the detailed information of the condition by the medical staff. The processor can automatically control the display to display after the detailed information of the illness state is generated, so that medical staff can check the detailed information of the illness state in time; or, the processor can control the display to display based on the control instruction input by the user, so that medical staff can conveniently check the detailed information of the illness state when needed, and the problem that the detailed information of the illness state is displayed too much on a display interface of the display due to the fact that the detailed information of the illness state is displayed when not needed is avoided, and the medical staff is puzzled.

In one example, the display interface of the display 102 is further provided with a first key, and the processor 101 is configured to: acquiring a first control instruction input by a user through a first key, wherein the first control instruction is used for controlling the display to display the detailed information of the illness state in a first display window; and controlling the display to display detailed information of the illness state in the first display window according to the first control instruction. Through such setting, can make things convenient for medical personnel to look over the state of an illness detailed information when needs, avoid state of an illness detailed information to lead to the display interface of display to show that information is too much in unnecessary demonstration, cause puzzlement to medical personnel.

The setting position of the first key, such as a hot key, can be set at any suitable position on the display interface of the display according to actual needs. In one example, the display interface includes a first parameter area for displaying data of the physiological parameter and an alarm display area for displaying alarm information, the first key being disposed in the alarm display area. When the alarm information is displayed in the alarm display area of the display interface of the display, the user can input a first control instruction through the first key in a mode of clicking the first key, touching the first key and the like, so that detailed information of illness state is displayed. For example, the "patient shock alarm" character icon displayed in the alarm display area shown in fig. 2 may also correspond to a first key, and the user may input a first control instruction by performing clicking, touching or other operations on the "patient shock alarm" character icon, and after the processor 101 acquires the first control instruction, control the display to display the disease condition detailed information in the first display window according to the first control instruction. The setting mode enables the first key and the alarm information to be displayed in the same area without occupying other display areas of the display interface, so that the display interface is simpler.

In another example, the first key is disposed in the first parameter area for displaying the data of the physiological parameter, may be disposed at any suitable position in the first parameter area, and does not obscure the waveform information, the waveform parameters, etc. of the first parameter area. In still another example, the first key may be further disposed in a second display window for displaying the processing information, so that the user can directly operate the first key to input the first control instruction when viewing the detailed information of the illness state in the process of observing the processing information, which is convenient and fast.

It should be noted that in the present application, each display window may be opened and closed, and in some cases, may be enlarged or reduced. For example, the zoom-in button and the zoom-out button provided in each display window can be operated to zoom in or out; or, the closing buttons arranged on the display windows are operated to be closed, so that the information displayed in the display windows, such as processing information, illness state detailed information and the like, does not need to be checked, and the information is closed, so that the trouble to users caused by excessive information display is avoided.

When the processor acquires the first control instruction, the first display window is controlled to pop up and display on a display interface of the display, and the first display window can be displayed in the following mode. In one example, as shown in fig. 4, the first display window 401 covers at least a portion of the waveform area 303, for example, a portion of the waveform area 303, or all of the waveform area 303, or may further cover a portion or all of the waveform area 303, and at most cover a portion of the waveform parameter area 304, so that the data of the physiological parameter in the waveform parameter area of the monitor is displayed outside the first display window, so that the user can also see the physiological parameter when viewing the disease details.

In another example, as shown in fig. 5, the first display window may also cover at least the first parameter area (e.g., the first parameter area includes a waveform area 303, a waveform parameter area 304, an amorphous parameter area 305). The display interface is provided with a screen cutting button 402, and the screen cutting button 402 is configured to receive a switching instruction input by a user, so that one of the first parameter area and the first display window 402 is displayed on the display interface. Alternatively, the cut-screen key 402 may be provided in, for example, the hot key region 307, and when the first display window 401 is displayed on the display interface, the user may implement display of the first parameter region on the display interface through the cut-screen key 402. The above arrangement of the screen-cutting key 402 is merely an example, and other arrangements of the screen-cutting key 402 are also applicable to the present application. For example, the cut-screen key 402 may also be disposed in the first display window or may also be disposed in the prompt message area 306, and when the user desires, the cut-screen key 402 may be clicked to display the first parameter area on the display interface.

In one example, the processor 101 is further configured to execute the program stored in the memory, such that the processor performs actions comprising: and generating processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for a patient, and/or the processing information comprises prompt information corresponding to the treatment tool. The display 103 is used for displaying the processing information on the display interface when the processing information is acquired. For example, the processing information may be acquired by the processor, after the processing information is generated, being actively transmitted to the display, and the display receives and displays the processing information, or by the processor, after receiving a control instruction input by the user, transmitting the processing information to the display, and the display receives and displays the processing information. The monitor of the application is used for associating disease condition identification with disease condition treatment, so that medical staff can conveniently check treatment information of treatment tools associated with disease condition information, treatment of the patient by the medical staff is assisted, and continuity of clinical work is improved.

In other examples, the treatment information of the treatment tool associated with the current condition information may include, in addition to the aforementioned parameter information, test information related to the treatment tool, history information, and the like. For example, for a fluid management tool, it may be desirable to perform a volume responsiveness assessment test on a subject, such as a mechanical ventilation test or a passive leg lifting test, etc., the treatment information of the treatment tool may also provide for display of parameter information related to the tests, and may also provide one or more function hotkeys for receiving user-entered operational instructions, such as a function hotkey for causing the parameter information related to the tests to be displayed on a display interface, a function hotkey for retrieving history information, a function hotkey for viewing baseline data, etc.

In another example, the processor 101 is further configured to: processing information of a plurality of treatment tools associated with the current condition information is generated according to the current condition information, the processing information comprises a plurality of prompt information corresponding to the treatment tools, and each prompt information comprises character information (such as a liquid management tool) corresponding to the treatment tools. For example, when a patient is shocked, the corresponding treatment tool may include a fluid treatment tool, and thus, treatment information for the fluid treatment tool associated with current condition information may be generated. The processing information comprises prompt information corresponding to the liquid treatment tool; and when one of the prompt messages is selected, generating parameter information corresponding to a treatment mode corresponding to a treatment tool represented by the prompt message for the monitored object. Through such setting mode, the medical personnel of being convenient for select the treatment instrument of wanting to look over in a plurality of treatment instruments and show for the processing information on display interface is succinct more, and, the easy operation of this kind of mode, the user only need a key select can realize.

For example, when the current condition information is shock, the corresponding treatment tool includes a liquid treatment tool; alternatively, when the current condition information is asphyxia, the corresponding treatment tool comprises a liquid treatment tool and/or a mechanical ventilation tool. The above-described therapeutic tools corresponding to the current condition information are merely examples, and the case of taking other therapeutic tools according to actual conditions or the case of taking a plurality of therapeutic tools is not excluded.

When the processor 101 generates the treatment information it may automatically control the display to display the treatment information in a second display window so that a user, e.g. a medical staff member, can quickly view the treatment information in relation to the treatment tool. Alternatively, the processor 101 may further control the display to display the processing information in the second display window based on a second control instruction input by the user. By such arrangement, the user can manually pop up the second display window to display the parameter information related to the therapeutic tool after confirming that the patient is in the condition of the patient.

The parameter information may also be different when different treatment modalities corresponding to different treatment tools are used for the subject, for example, when a treatment modality corresponding to a liquid treatment tool (also referred to herein as a liquid management tool) is used for the subject, as shown in fig. 2, the corresponding parameter information may include at least one of the following information: vital sign parameters, efficacy parameter trends, safety parameter trends, parameter variables, etc. associated with the treatment tool.

In one example, the processing information includes prompt information corresponding to the treatment tool to prompt a user for a treatment tool to be used in accordance with current condition information of the subject. For example, as shown in fig. 2, a first display window for displaying detailed information of a disease state may display a prompt corresponding to a treatment tool, for example, a liquid management tool, or may display a prompt corresponding to the treatment tool at another position of a display interface. Wherein the reminder information includes, but is not limited to, character information corresponding to the treatment tool, such as when the treatment tool is a fluid management tool, then the reminder information includes character information such as "fluid management tool". The prompt information may be displayed only or only the parameter information corresponding to the treatment method corresponding to the treatment tool for the subject may be displayed, or the prompt information may be displayed first and then the parameter information corresponding to the treatment method corresponding to the treatment tool for the subject may be displayed.

In one example, the monitor further comprises a second display window generated from a display interface navigation of the display, the processor 101 further configured to: and controlling the display to display the processing information in a second display window. The second display window may be generated by navigation in any suitable manner. For example, a second key is further arranged on the display interface of the display, and the second key can be arranged at any suitable position of the display interface. For example, as shown in fig. 6, the second key 502 is disposed on the hot key area (i.e., navigation area) 307; for another example, a second key may be disposed in the first display window 401 for displaying detailed information of the illness state, as shown in fig. 4 and 5, the second key may be displayed as an icon corresponding to the treatment tool; as another example, as shown in fig. 7, the second key 502 may be disposed in a sub-menu corresponding to the main menu of the hotkey area, and for example, the display interface of the display includes an alarm display area for displaying alarm information, where the second key is disposed in the alarm display area. For example, the second key may be displayed as a character icon corresponding to the therapeutic tool, so that the second key may be used as the aforementioned prompt message as well as the second key. Through the arrangement, when the alarm information is displayed on the display interface, medical staff can confirm whether the illness state is true through the alarm information, and if true, parameter information related to the treatment tool can be directly controlled through the second key to be displayed in the second display window, so that the operation is simpler, more convenient and quicker.

The processor 101 is more specifically configured to obtain a second control instruction input by the user based on the second key, where the second control instruction is used to control the display to display processing information in a second display window; and controlling the display to display processing information in the second display window according to the second control instruction. By the arrangement mode, after the user confirms that the illness state of the patient is true, the second display window can be manually popped up to display parameter information and/or prompt information related to the treatment tool.

In one example, as shown in fig. 2, the processor may output the alarm information after confirming the current condition, and control the display interface of the display to display the alarm information, then may automatically or manually pop up the detailed information of the current condition, and then automatically or manually pop up the treatment information of the treatment tool associated with the current condition information. In another example, the processor may further output alarm information after identifying the current condition, and then automatically or manually pop up the processing information of the treatment tool associated with the current condition information, and may display the condition detailed information in the first display window of the display interface based on the control instruction input by the user when needed. In yet another example, the processor may also output the alarm information first after confirming the money situation, and control the display interface of the display to display the alarm information, and then automatically or manually display the detailed information of the situation and the processing information of the treatment tool on the display interface at the same time.

The first key and the second key may be further displayed differently in a preset manner, where the preset manner of distinguishing the display includes at least one of the following display manners: highlighting, flashing, displaying additional symbols, displaying differentiated ground tint colors or displaying differentiated font colors, so that a user can quickly observe a required key, and further call corresponding information based on the corresponding key.

The display of the treatment information and the detailed information of the illness state of the treatment tool associated with the current illness state information can be realized by the following display mode. For example, a first display window is used for simultaneously displaying the processed information and the disease state detailed information; or the first display window and the second display window are simultaneously displayed on the display interface of the display, wherein the first display window is used for displaying the processing information, and the second display window is used for displaying the detailed information of the illness state; or, the second display window covers at least part of the area of the first display window; or when the second display window is displayed on the display interface of the display, the first display window is not displayed on the display interface any more; or when the second display window is displayed on the display interface of the display, the area of the first display window is reduced from the first area to the second area, and the detailed information of the illness state of the part is displayed. The above display modes are merely examples, and other suitable display modes may be applied to the present application.

Herein, each display window may be suspended on the main display interface for displaying the basic parameters, or the display window may be embedded in the main display interface, for example, may be embedded in the main display interface after being popped up, and other information in the main display interface may disappear, or may be rearranged. That is, the display window may be the entire display interface of the display, or may be a display window embedded or floating on the entire display interface of the monitor system display.

According to the monitor, the processor can determine the current illness state information of the patient according to the data of at least two types of physiological parameters of the patient or the data of at least one type of physiological parameters, and can generate the processing information of the treatment tool associated with the current illness state information according to the current illness state information, and the display displays the processing information on the display interface when acquiring the processing information. The monitor correlates disease condition identification with disease condition treatment, and facilitates medical staff to check treatment information of treatment tools correlated with disease condition information, so as to assist the medical staff in treating the monitored object and improve continuity of clinical work.

Next, a monitoring method of the monitoring device of the present application will be described with reference to fig. 8, where the monitoring method may be based on the foregoing monitor as an execution subject, and the various technical features herein may be combined with each other without collision.

As an example, as shown in fig. 8, the monitoring method of the monitor of the present application includes the following steps S801 to S804:

first, in step S801, a signal of a physiological parameter of a subject is detected.

The monitor has one or more sensors by which signals of physiological parameters of the subject (i.e. the subject) monitored by the monitor are detected, e.g. the physiological parameters comprise at least one of the following: blood pressure, respiration rate, heart rate, body temperature, pulse rate, blood oxygen saturation, cardiac output, end-tidal carbon dioxide, brain electricity, electrocardiogram, etc.

Next, in step S802, current condition information of the subject is determined according to at least one type of physiological parameter of the subject. The current condition information may include, but is not limited to, shock or asphyxia, but may be other current condition information that can be determined from data of physiological parameters.

For example, when the data of one or more types of physiological parameters of the subject monitored by the monitor changes abnormally, for example, the data of one type of physiological parameters is abnormal, for example, the data of at least two types of physiological parameters exceeds the threshold range, the current illness state information of the subject is determined according to the physiological parameters exceeding the threshold range, or when the electrocardio in the physiological parameters of the subject is abnormal, the current illness state information of the subject is determined according to the characteristics of the abnormal electrocardio. The monitoring method can determine the illness state of the monitored object according to at least one kind of physiological parameters, and correlate illness state identification with illness state treatment, so that medical staff can conveniently check treatment information of treatment tools related to illness state information, treatment of the monitored object by the medical staff is assisted, and continuity of clinical work is improved.

In one example, the current condition information of the subject is determined to be shock when at least the heart rate value, the blood pressure value, and the respiration rate value of the physiological parameter of the subject are respectively out of the respective threshold ranges; in another example, the current condition information of the subject is determined to be choking when at least one type of physiological parameter related to respiration in the subject is out of respective threshold ranges, for example, at least a value of respiration rate, a heart rate value, and blood oxygen saturation are respectively out of respective threshold ranges, for example, the current condition information of the neonate can be determined to be choking when the monitor is used for monitoring vital signs of the neonate. The above rules of condition judgment are merely examples, and do not exclude that other physiological parameters are taken into consideration when a patient is experiencing a particular condition, or that only one physiological parameter may be taken into consideration.

Next, in step S803, alarm information and processing information of a treatment tool associated with the current illness state information are generated according to the current illness state information. The processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the patient, and/or the processing information comprises prompt information corresponding to the treatment tool.

When the monitor determines that the patient is ill, alarm information is generated according to the current illness state information, wherein the alarm information comprises characters corresponding to the current illness state information, for example, the current illness state information is shock, the alarm information comprises characters of shock, for example, the current illness state information is asphyxia, and the alarm information comprises asphyxia. Through such setting mode, when this alarm information shows on the display, can make medical personnel obtain patient's current state of illness information fast to in time carry out suitable treatment to the guardian who takes place the state of illness, make guardian can break away from danger fast, resume normal vital sign.

Displaying the alarm information in an alarm display area of the display interface of a display, comprising: and controlling the display to differentially display the alarm information in a preset mode in an alarm display area of the display interface so as to alarm a user. As shown in fig. 2, for example, when the current condition information of the patient is shock, a character corresponding to shock, for example, "patient shock alarm," or "shock," is displayed on the display interface of the monitor, that is, the display screen of the display.

The alarm information may be differentially displayed in any suitable preset manner, including at least one of the following display modes: highlighting, blinking, additional symbol displaying, differentiated ground tint displaying, or differentiated font color displaying. For example, the alarm information may be displayed in a red ground tint, or any other display that enables the user to quickly identify the occurrence of an alarm event. In one example, the alarm information of different illness states can be displayed differently in different preset modes, for example, different shading colors, different font colors and the like, so that the medical staff can be quickly alerted and noticed while alarming, and a proper treatment tool is used for a specific illness state, so that the monitored object can be quickly separated from danger, and normal vital signs can be restored.

In one embodiment, different alarm information may be triggered according to the threshold range in which the data of the physiological parameters are located, for example, when the data of one or more types of physiological parameters exceeds the respective first threshold range, the alarm information is used to indicate that the subject has a tendency to develop a specific condition. For example, the patient has the trend of getting shock, suffocation and other diseases, and in such a way, medical staff can quickly and properly treat the patient before the patient gets the specific disease, thereby reducing the risk of the patient getting the specific disease. For another example, when the data of one or more types of physiological parameters exceeds the respective second threshold range, the alarm information is used for indicating that the patient has a specific disease, so that the medical staff can quickly acquire the disease information of the patient, and the patient with the disease can be treated appropriately in time.

In one example, the method further comprises: generating disease detailed information according to the current disease information, wherein the disease detailed information comprises at least one of the following information: the value of the physiological parameter triggering the alarm during the alarm, the trend of the physiological parameter triggering the alarm within the preset time before and after the alarm (the preset time can be reasonably set according to actual needs, for example, can be 5 minutes, 10 minutes, 15 minutes, 20 minutes, 30 minutes and the like), the threshold range corresponding to the physiological parameter triggering the alarm, the alarm time, or other information related to the current illness state information can be included. The physiological parameters for triggering the alarm are used for determining the current illness state information, and medical staff can judge whether the identified current illness state information is real or not based on the illness state detailed information, so that whether a treatment tool corresponding to the current illness state information is called or not is determined.

In one example, the method of the present application further comprises: and generating processing information of a treatment tool associated with the current illness state information according to the current illness state information. The processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the patient, and/or the processing information comprises prompt information corresponding to the treatment tool. The monitor of the application is used for associating disease condition identification with disease condition treatment, so that medical staff can conveniently check treatment information of treatment tools associated with disease condition information, treatment of the patient by the medical staff is assisted, and continuity of clinical work is improved.

In other examples, the treatment information of the treatment tool associated with the current condition information may include, in addition to the aforementioned parameter information, test information related to the treatment tool, history information, and the like. For example, for a fluid management tool, a subject may need to be subjected to a volume responsiveness assessment test, such as a mechanical ventilation test or a passive leg lift test, or the like. The treatment information of the treatment tool may also provide a display of parameter information related to the trials, and may also provide one or more function hotkeys for receiving user-entered operational instructions. Such as a function hotkey for causing parameter information related to the test to be displayed on a display interface, a function hotkey for retrieving history information, a function hotkey for viewing baseline data, etc.

The parameter information may also be different when using treatment regimens corresponding to different treatment tools for the subject. For example, when a corresponding treatment regimen of a fluid treatment tool (also referred to herein as a fluid management tool) is used on a subject, as shown in fig. 2, the corresponding parameter information may include at least one of the following: vital sign parameters, efficacy parameter trends, safety parameter trends, parameter variables, etc. associated with the treatment tool.

In one example, the processing information includes prompt information corresponding to the treatment tool to prompt a user for a treatment tool to be used in accordance with current condition information of the subject. For example, as shown in fig. 2, a first display window for displaying detailed information of a disease state may display a prompt corresponding to a treatment tool, for example, a liquid management tool, or may display a prompt corresponding to the treatment tool at another position of a display interface. Wherein the reminder information includes, but is not limited to, character information corresponding to the treatment tool, such as when the treatment tool is a fluid management tool, then the reminder information includes character information such as "fluid management tool". The prompt information may be displayed only or only the parameter information corresponding to the treatment mode corresponding to the treatment tool for the subject may be displayed, or the prompt information may be displayed first and then the parameter information corresponding to the treatment mode corresponding to the treatment tool for the subject may be displayed.

Next, in step S804, the alarm information and/or the processing information is displayed on the display interface of the display. Only one of the alarm information and the processing information of the therapeutic tool may be displayed on the display, or both may be displayed.

In one example, displaying the process information on the display interface of a display includes: and controlling the display to display the processing information of the treatment tool in the second display window, so that a user can conveniently view the parameter information and the like of the treatment tool. Wherein controlling the display to display the processing information in the second display window includes: automatically controlling the display to display the processing information in a second display window; or acquiring a second control instruction input by the user through a second key, wherein the second control instruction is used for controlling the display to display in a second display window. The second key is arranged in the alarm display area and/or in the first display window for displaying detailed information of illness state; and controlling the display to display the processing information in the second display window according to the second control instruction.

The display may sequentially display the alarm information and the treatment information of the treatment tool associated with the current condition information in different sequences, and in one example, the alarm information is displayed in an alarm display area of a display interface of the display, and then the treatment information of the treatment tool is displayed in a second display window of the display, where after the alarm information is displayed, the treatment information of the treatment tool may be automatically displayed in the second display window of the display.

In another example, displaying the alarm information and the process information on a display interface of the display includes: displaying the alarm information in an alarm display area of a display interface of the display; acquiring a second control instruction input by a user based on a second key, wherein the second control instruction is used for controlling the display to display in a second display window, and the second key is arranged on a display interface of the display; and controlling the display to display processing information in the second display window according to the second control instruction. The second key can be arranged at any suitable position on the display interface of the display, for example, the display interface of the display comprises an alarm display area for displaying alarm information, wherein the second key is arranged in the alarm display area, so that after the alarm information is displayed, a user can control the processing information of the treatment tool to be displayed in a second display window through one-key control of the second key, and the treatment tool is more convenient and faster; for another example, the second key is arranged in the first display window for displaying the detailed information of the illness state, and the user can confirm that the illness state of the patient belongs to real time according to the detailed information of the illness state, and control the treatment information of the treatment tool through one key of the second key to display in the second display window, so that the method is more convenient and quick. When the illness state is confirmed not to be real, the treatment information of the treatment tool can be selected not to be displayed, so that the trouble to the user caused by excessive information display is avoided.

Further, the method of the present application further comprises: and controlling the display to display the detailed information of the illness state in a first display window. The display may be automatically controlled to display the detailed information of the illness state in the first display window after the detailed information of the illness state is generated, or may be controlled to display the detailed information of the illness state in the first display window based on a control instruction input by a user.

In one example, controlling the display to display the condition details in a first display window includes: acquiring a first control instruction input by a user through a first key, wherein the first control instruction is used for controlling the display to display the detailed information of the illness state in a first display window, and the first key is arranged in the alarm display area and/or in a second display window for displaying the processing information; and controlling the display to display the detailed information of the illness state in the first display window according to the first control instruction.

In one example, the method further comprises: the display is controlled to display the detailed information of the illness state and the processing information of the treatment tool in the first display window, so that a user can check the detailed information of the illness state and the processing information of the treatment tool at the same time, the method is more convenient and quick, and the clinical continuity is improved.

In another example, the method further comprises: the display is controlled to display the detailed information of the illness state in the first display window and simultaneously display the processing information in the second display window, so that a user can check the detailed information of the illness state and the processing information of the treatment tool at the same time, the method is more convenient and quick, and the clinical continuity is improved.

In yet another example, the method further comprises: and when the second display window is displayed in the processing information, the display is controlled to not display the first display window, for example, the first display window is automatically closed or minimized. By the arrangement mode, the content displayed on the display interface is simpler, and the operation of a user is simplified.

The display sequence of the alarm information, the illness state detailed information and the treatment information of the treatment tool can be reasonably set according to the needs. In one example, after the alarm information is displayed in the alarm display area of the display interface of the display, the display is controlled to display the disease state detailed information in a first display window, for example, a first control instruction input by a user through a first key is acquired, the first control instruction is used for controlling the display to display the disease state detailed information in the first display window, the first key is arranged in the alarm display area, and then the processing information is displayed in a second display window of the display, for example, a second control instruction input by the user based on a second key is acquired, the second control instruction is used for controlling the display to display in the second display window, and the second key is arranged on the display interface of the display, in particular, is arranged in the first display window. And controlling the display to display the processing information in the second display window according to the second control instruction.

In another example, after the alarm information is displayed on the display interface of the display, the processing information is displayed on the display interface of the display, and then the display is controlled to display the detailed information of the illness state in the first display window according to the first control instruction input by the user, so that the detailed information of the illness state can be quickly called when the user needs.

In another example, the method further comprises: processing information of a plurality of treatment tools associated with the current condition information is generated according to the current condition information, the processing information comprises a plurality of prompt information corresponding to the treatment tools, and each prompt information comprises character information (such as a liquid management tool) corresponding to the treatment tools. For example, when a patient is shocked, the corresponding treatment means may comprise liquid treatment means. Thus, a fluid treatment tool associated with the current condition information may be generated, the treatment information including a hint information corresponding to the fluid treatment tool; and when one of the plurality of prompt messages is selected, generating parameter information corresponding to a treatment mode corresponding to a treatment tool represented by the prompt message for the patient. Through such setting mode, the medical personnel of being convenient for select the treatment instrument of wanting to look over in a plurality of treatment instruments and show for the processing information on display interface is succinct more, and, the easy operation of this kind of mode, the user only need a key select can realize.

For example, when the current condition information is shock, the corresponding treatment tool includes a liquid treatment tool; alternatively, when the current condition information is asphyxia, the corresponding treatment means comprises a fluid treatment means and/or a mechanical ventilation means. The above-described therapeutic tools corresponding to the current condition information are merely examples, and the case of taking other therapeutic tools according to actual conditions or the case of taking a plurality of therapeutic tools is not excluded. The description of the features of the monitoring method of the present application may also refer to the description of the monitor in the foregoing, and the description will not be repeated here.

According to the monitoring method, the disease condition identification and the disease condition treatment can be associated, so that medical staff can conveniently check the treatment information of the treatment tool associated with the disease condition information, the medical staff can be assisted in treating the monitored object, and the continuity of clinical work is improved.

In addition, the embodiment of the invention also provides a computer storage medium, on which the computer program is stored. One or more computer program instructions may be stored on the computer readable storage medium, in which a processor may execute the program instructions stored by the storage device to perform functions in the embodiments of the present invention described herein (as implemented by the processor) and/or other desired functions, for example, to perform corresponding steps of a monitoring method of a monitor according to an embodiment of the present invention, various applications and various data, such as various data used and/or generated by the applications, etc., may also be stored.

The computer storage medium may include, for example, a memory card of a smart phone, a memory component of a tablet computer, a hard disk of a personal computer, read-only memory (ROM), erasable programmable read-only memory (EPROM), portable compact disc read-only memory (CD-ROM), USB memory, or any combination of the foregoing storage media.

Although the illustrative embodiments have been described herein with reference to the accompanying drawings, it is to be understood that the above illustrative embodiments are merely illustrative and are not intended to limit the scope of the present invention thereto. Various changes and modifications may be made therein by one of ordinary skill in the art without departing from the scope and spirit of the invention. All such changes and modifications are intended to be included within the scope of the present invention as set forth in the appended claims.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, e.g., the division of the elements is merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple elements or components may be combined or integrated into another device, or some features may be omitted or not performed.

In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in order to streamline the invention and aid in understanding one or more of the various inventive aspects, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof in the description of exemplary embodiments of the invention. However, the method of the present invention should not be construed as reflecting the following intent: i.e., the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

It will be understood by those skilled in the art that all of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or units of any method or apparatus so disclosed, may be combined in any combination, except combinations where the features are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features but not others included in other embodiments, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims, any of the claimed embodiments may be used in any combination.

Various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that some or all of the functions of some of the modules according to embodiments of the present invention may be implemented in practice using a microprocessor or Digital Signal Processor (DSP). The present invention can also be implemented as an apparatus program (e.g., a computer program and a computer program product) for performing a portion or all of the methods described herein. Such a program embodying the present invention may be stored on a computer readable medium, or may have the form of one or more signals. Such signals may be downloaded from an internet website, provided on a carrier signal, or provided in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The use of the words first, second, third, etc. do not denote any order. These words may be interpreted as names.

Claims (31)

1. A monitoring device, the monitoring device comprising:

   a memory for storing an executable program;

   a processor for executing the program stored in the memory, causing the processor to perform operations comprising:

   acquiring data of a first physiological parameter and data of a second physiological parameter of a patient, wherein the first physiological parameter and the second physiological parameter can be used for determining at least one illness state information respectively;

   Performing association analysis on the data of the first physiological parameter and the data of the second physiological parameter of the monitored object to determine the current illness state information of the monitored object;

   generating and controlling to display processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool;

   a display for displaying at least the data of the first physiological parameter and/or the data of the second physiological parameter on a display interface; and displaying the processing information on the display interface when the processing information is acquired.
2. A monitoring device, the monitoring device comprising:

   a memory for storing an executable program;

   a processor for executing the program stored in the memory, causing the processor to perform actions comprising:

   acquiring data of at least one type of physiological parameters of a patient, wherein each physiological parameter can be used for determining at least one illness state information;

   Determining current illness state information of the monitored object according to the data of at least one type of physiological parameters of the monitored object;

   generating and controlling to display processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool;

   a display for displaying data of at least one type of physiological parameter on a display interface; and

   and when the processing information is acquired, displaying the processing information on the display interface.
3. The monitoring device of claim 1 or 2, wherein the processor is further configured to:

   generating alarm information according to the current illness state information, wherein the alarm information comprises characters corresponding to the current illness state information;

   and controlling the display to highlight the alarm information in an alarm display area of the display interface in a preset mode so as to alarm a user.
4. The monitoring device of claim 3, wherein,

   When the data of the first physiological parameter and the data of the second physiological parameter respectively exceed the respective first threshold ranges, the alarm information is used for indicating that the monitored object has a trend of generating a specific illness state;

   when the data of the first physiological parameter and the data of the second physiological parameter respectively exceed respective second threshold ranges, the alarm information is used for indicating that the patient has a specific illness state, and the second threshold ranges deviate from the normal ranges of the physiological parameters compared with the first threshold ranges.
5. The monitoring device of claim 3, wherein the preset highlighting includes at least one of: highlighting, blinking, additional symbol displaying, differentiated ground tint displaying, or differentiated font color displaying.
6. The monitoring device of claim 1 or 2, wherein the processor is further configured to:

   generating detailed information of the illness state according to the current illness state information;

   and controlling the display to display a first display window on the display interface, and displaying the detailed information of the illness state in the first display window.
7. The monitoring device of claim 6, wherein a first key is further provided on a display interface of the display, the processor being configured to:

   Acquiring a first control instruction input by a user through the first key, wherein the first control instruction is used for controlling the display to display the detailed information of the illness state in a first display window;

   and controlling the display to display the detailed information of the illness state in the first display window according to the first control instruction.
8. The monitoring device of claim 7, wherein the display interface includes a first parameter area for displaying data of the physiological parameter and an alarm display area for displaying alarm information;

   the first key is arranged in an alarm display area for displaying alarm information; and/or

   The first key is arranged in a first parameter area for displaying the data of the physiological parameter; and/or

   The display interface also comprises a second display window for displaying the processing information, and the first key is arranged in the second display window.
9. The monitoring device of any one of claims 6 to 8, wherein the condition details include at least one of the following:

   the method comprises the steps of triggering the numerical value of the physiological parameter of the alarm during the alarm, the trend of the physiological parameter in the preset time before and after the alarm, the threshold range corresponding to the physiological parameter triggering the alarm and the alarm time.
10. The monitoring device of claim 6, wherein the display interface of the display includes a first parameter area for displaying data of physiological parameters, an alarm display area for displaying alarm information, a prompt information area, and a smart hotkey area, wherein the first parameter area includes a waveform area and a waveform parameter area;

    the first display window at least covers part of the waveform area, so that the data of the physiological parameters in the amorphous parameter area of the monitor are displayed outside the first display window; or alternatively, the process may be performed,

    the first display window at least covers the first parameter area, a screen cutting button is arranged on the display interface, and the screen cutting button is used for receiving a switching instruction input by a user so that one of the first parameter area and the first display window is displayed on the display interface.
11. The monitoring device of claim 1 or 2, further comprising a second display window generated from a display interface navigation of the display, the processor further configured to:

    and controlling the display to display the processing information in a second display window.
12. The monitoring device of claim 11, wherein a second key is further provided on a display interface of the display, the processor further configured to:

    Acquiring a second control instruction input by a user based on the second key, wherein the second control instruction is used for controlling the display to display the processing information in a second display window;

    and controlling the display to display the processing information in the second display window according to the second control instruction.
13. The monitoring device of claim 12, wherein,

    the display interface of the display comprises an alarm display area for displaying alarm information, wherein the second key is arranged in the alarm display area; and/or

    The second key is arranged in a first display window for displaying detailed information of illness state.
14. The monitoring device of claim 6, wherein the first display window is further configured to display the treatment information and the condition details simultaneously; or alternatively, the process may be performed,

    the first display window and the second display window are simultaneously displayed on a display interface of the display, wherein the first display window is used for displaying the detailed information of the illness state, and the second display window is used for displaying the processing information; or alternatively, the process may be performed,

    the second display window covers at least part of the area of the first display window; or alternatively

    When the second display window is displayed on the display interface of the display, the first display window is not displayed on the display interface any more; or alternatively, the process may be performed,

    when the second display window is displayed on the display interface of the display, the area of the first display window is reduced from the first area to the second area, and the detailed information of the illness state of the part is displayed.
15. The monitoring device of any of claims 1 to 14, wherein the parameter information comprises at least one of: a physiological parameter, a validity parameter trend, a safety parameter trend, and a parameter variable associated with the treatment tool;

    and/or, the condition information includes shock or asphyxia;

    and/or, the physiological parameter comprises at least one of the following: blood pressure, respiration rate, heart rate, body temperature, pulse rate, blood oxygen saturation, cardiac output, end-tidal carbon dioxide, and brain electrical.
16. The monitoring device of any of claims 1 to 14,

    when at least heart rate, blood pressure and respiratory rate in the physiological parameters of the monitored object respectively exceed respective threshold ranges, determining the current illness state information of the monitored object as shock;

    And when at least the respiratory rate, the heart rate and the blood oxygen saturation in the physiological parameters of the patient exceed the respective threshold ranges, determining that the current illness state information of the patient is asphyxia.
17. The monitoring device of any of claims 1 to 14,

    when the current illness state information is shock, the corresponding treatment tool comprises a liquid treatment tool;

    when the current condition information is asphyxia, the corresponding treatment tool includes a liquid treatment tool and/or a mechanical ventilation tool.
18. The monitoring device of claim 1 or 2, wherein the processor is further configured to:

    generating processing information of a plurality of treatment tools associated with the current illness state information according to the current illness state information, wherein the processing information comprises prompt information corresponding to each treatment tool, and each prompt information comprises character information corresponding to the treatment tool; and

    when one of the plurality of prompt messages is selected, a processing screen corresponding to a treatment tool is generated, the processing screen being used for displaying parameter information when a treatment mode corresponding to the treatment tool represented by the prompt message is used for the subject.
19. A monitoring method of a monitoring device, the monitoring method comprising:

    detecting signals of at least one type of physiological parameter of the subject;

    processing the signals of the at least one type of physiological parameters to obtain data of the at least one type of physiological parameters of the monitored object;

    determining current illness state information of the monitored object according to the data of at least one type of physiological parameters of the monitored object;

    generating alarm information and processing information of a treatment tool associated with the current illness state information according to the current illness state information, wherein the processing information comprises parameter information when a treatment mode corresponding to the treatment tool is used for the monitored object, and/or the processing information comprises prompt information corresponding to the treatment tool;

    and displaying the alarm information and/or the processing information on the display interface of a display.
20. The monitoring method of claim 19, wherein displaying the alarm information and the process information on a display interface of the display comprises:

    displaying the alarm information in an alarm display area of a display interface of the display;

    acquiring a second control instruction input by a user based on a second key, wherein the second control instruction is used for controlling the display to display the processing information in a second display window, and the second key is arranged on a display interface of the display;

    And controlling the display to display the processing information in the second display window according to the second control instruction.
21. The monitoring method of claim 19 or 20, wherein the alarm information includes a character corresponding to the current condition information, displaying the alarm information in an alarm display area of the display interface of a display, comprising:

    and highlighting the alarm information in a preset mode in an alarm display area of the display so as to alarm a user.
22. The monitoring method of claim 19 or 20, wherein,

    when the data of the at least one type of physiological parameters exceeds a first threshold range, the alarm information is used for indicating that the monitored object has a trend of generating a specific illness state;

    the alarm information is used for indicating that the patient has developed a specific condition when the data of the at least one type of physiological parameters exceeds a second threshold range, wherein the second threshold range deviates from the normal range of each physiological parameter compared with the first threshold range.
23. The monitoring method of claim 21, wherein the distinguishing the display in the predetermined manner comprises: highlighting, blinking, additional symbol displaying, differentiated ground tint displaying, or differentiated font color displaying.
24. The monitoring method of claim 19 or 20, further comprising:

    generating detailed information of the illness state according to the current illness state information;

    and controlling the display to display the detailed information of the illness state in a first display window.
25. The method of monitoring of claim 24, wherein controlling the display to display the condition details in a first display window comprises:

    acquiring a first control instruction input by a user through a first key, wherein the first control instruction is used for controlling the display to display the detailed information of the illness state in a first display window, and the first key is arranged in the alarm display area and/or in a second display window for displaying the processing information;

    and controlling the display to display the detailed information of the illness state in the first display window according to the first control instruction.
26. The monitoring method of claim 24, wherein the monitoring method further comprises:

    controlling the display to display the detailed information of the illness state and the processing information in a first display window; or alternatively, the process may be performed,

    controlling the display to display the detailed information of the illness state in a first display window and simultaneously controlling the display to display the processing information in a second display window; or alternatively

    When the display is controlled to display the detailed information of the illness state in the first display window, the second display window is not displayed on the display interface any more; and/or

    And controlling the display to display the processing information on the second display window, wherein the first display window is not displayed on the display interface any more.
27. The monitoring method of claim 24, wherein the monitoring method comprises:

    firstly, after the alarm information is displayed in an alarm display area of a display interface of the display, the display is controlled to display the detailed information of the illness state in a first display window, and then the processing information is displayed in a second display window of the display; or alternatively, the process may be performed,

    after the alarm information is displayed on the display interface of the display, the processing information is displayed in the second display window of the display, and the display is controlled to display the detailed information of the illness state in the first display window according to a first control instruction input by a user.
28. The monitoring method of claim 24, wherein the condition details include at least one of:

    the method comprises the steps of triggering the numerical value of the physiological parameter of the alarm during the alarm, trend of the physiological parameter in the preset time before and after the alarm, threshold range corresponding to the physiological parameter triggering the alarm and alarm time.
29. The monitoring method of claim 19, wherein displaying the process information on the display interface of a display comprises: and controlling the display to display the processing information in a second display window.
30. The monitoring method of claim 29, wherein controlling the display to display the process information in a second display window comprises:

    automatically controlling the display to display the processing information in a second display window; or alternatively

    Acquiring a second control instruction input by a user through a second key, wherein the second control instruction is used for controlling the display to display the processing information in a second display window, and the second key is arranged in an alarm display area and/or in a first display window for displaying detailed information of illness state;

    and controlling the display to display the processing information in the second display window according to the second control instruction.
31. The monitoring method of any of claim 19 to 30,

    the physiological parameters include at least one of the following: blood pressure, respiration rate, heart rate, body temperature, pulse rate, blood oxygen saturation, cardiac output, end-tidal carbon dioxide, and brain electrical.