CN117594217A - Method for displaying patient status and vital information processing system - Google Patents
Method for displaying patient status and vital information processing system Download PDFInfo
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Classifications
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
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- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H10/00—ICT specially adapted for the handling or processing of patient-related medical or healthcare data
- G16H10/60—ICT specially adapted for the handling or processing of patient-related medical or healthcare data for patient-specific data, e.g. for electronic patient records
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- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
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Abstract
A method for displaying the state of a patient and a life information processing system, the system determines the abscissa of the patient information mark corresponding to each patient on a display interface according to a first rule, and determines the ordinate of the patient information mark corresponding to each patient on the display interface according to a second rule, wherein the first rule and/or the second rule at least comprises judgment on the levels of a plurality of patients; determining the display position of the patient information identifiers on the display interface according to the abscissa and the ordinate, wherein the abscissa of at least one patient information identifier is variable based on a first rule and the ordinate thereof is also variable based on a second rule; and displaying patient information identifiers corresponding to a plurality of patients on a display interface according to the determined display positions, wherein the patient information identifiers at least comprise first patient information identifiers of first patients and second patient information identifiers of second patients with different levels. The invention can help doctors to quickly, clearly and with emphasis on acquiring the status profiles of a plurality of patients.
Description
Technical Field
The present invention relates to the medical field, and more particularly, to a method of displaying a patient status and a vital information processing system.
Background
In clinical work, when a doctor manages and diagnoses a plurality of patients, the doctor needs to quickly know the overall condition of the patients and identify the states of the patients so as to assist diagnosis and treatment decisions. Most information systems currently on the market provide two core functions: 1. recording patient condition information; 2. query of patient condition information. However, the patient's illness is varied, the data information is numerous and is subject to the condition of the current system, the patient information of a plurality of patients which needs to be acquired by the clinician every day is mostly recorded through the manual feedback of medical staff, the information feedback mode is difficult to embody in a unified interface mode, the medical staff is easy to miss or delay the information for the condition of the whole patient, and the method is the pain point existing clinically at present.
In actual clinical practice, doctors in different positions focus on different patients, and it is often necessary to comprehensively understand the disease overview of multiple patients from different dimensions. For example, a department owner wants to know the current overall situation of the whole department, needs to judge the critical degree of a plurality of patients in the same department through the patient grading, and when the patients are abnormal, the critical grade distribution situation of the plurality of patients in the same department needs to be updated in real time so that the owner and doctors give diagnosis and treatment decisions. At present, the multi-dimensional diagnosis and treatment requirements of such staff in different scenes cannot be met clinically.
Disclosure of Invention
In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
A first aspect of an embodiment of the present invention provides a vital information processing system, including: a memory, a processor and a display, the vital information processing system for controlling the display to display patient status on its display interface in the form of a patient information identification, wherein the patient information identification includes at least identity information of each patient, the memory for storing an executable program, the processor for executing the executable program such that the processor performs the operations of:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
according to a first rule, determining the abscissa of the patient information identification corresponding to each patient on the display interface,
According to a second rule, determining the ordinate of the patient information identification corresponding to each patient on the display interface,
wherein at least one of the first rule and the second rule includes a determination of a level of the plurality of patients;
respectively determining display positions of patient information identifiers corresponding to the plurality of patients on the display interface according to the abscissa and the ordinate, wherein the abscissa of at least one patient information identifier is variable based on the first rule and the ordinate thereof is also variable based on the second rule;
controlling the display to display patient information identifications corresponding to the plurality of patients on a display interface thereof according to the determined display position, wherein a first patient information identification of a first patient and a second patient information identification of a second patient having different levels are displayed on the display interface, and wherein,
when the ordinate of the patient information identity of one of the patients displayed on the display interface is changed, the abscissa of the patient information identity of the other patient, which is the same as the changed ordinate, is caused to change, or when the abscissa of the patient information identity of one of the patients displayed on the display interface is changed, the ordinate of the patient information identity of the other patient, which is the same as the changed abscissa, is caused to change.
In one embodiment, the first rule or the second rule comprises a determination of a level of the plurality of patients, and the second rule or the first rule comprises a determination of a bed number of the plurality of patients.
In one embodiment, a plurality of patient information identifiers having the same abscissa or the same ordinate are displayed adjacent to each other or connected to each other on the display interface.
A second aspect of an embodiment of the present invention provides a vital information processing system including: a memory for storing an executable program, a processor for executing the executable program, and a display, such that the processor performs the following operations:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
grading the plurality of patients according to patient data of the plurality of patients to divide the plurality of patients into at least a first-level patient and a second-level patient with different levels;
controlling the display to display the plurality of patients in a hierarchical manner in the form of patient information identifications on a display interface thereof, wherein the patient information identifications include at least the identity information of each patient, the hierarchical display including displaying patient information identifications corresponding to the first level of patients in a first display area for displaying only the first level of patients and displaying patient information identifications corresponding to the second level of patients in a second display area for displaying only the second level of patients;
And the display position of the patient information identification of the at least one first level of patient displayed in the first display area is dynamically adjustable, and the display position of the patient information identification of the at least one second level of patient displayed in the second display area is dynamically adjustable.
In one embodiment, the display position of the patient information identification of each first level of patient displayed in the first display area is dynamically adjustable, and the display position of the patient information identification of each second level of patient displayed in the second display area is dynamically adjustable.
In one embodiment, the display position of the patient information identification of one of the first level patients displayed in the first display area is dynamically adjustable according to the bed number of the one of the first level patients and the bed numbers of the other first level patients; and is also provided with
The display position of the patient information identification of one of the second-level patients displayed in the second display area is dynamically adjustable according to the bed number of the one of the second-level patients and the bed numbers of the other second-level patients.
In one embodiment, the display area of the patient information identification of the at least one first level of patients displayed in the first display area is related to the number of patients of the first level;
The display area of the patient information identification of the at least one second level of patients displayed in the second display area is related to the number of patients of the second level.
A third aspect of an embodiment of the present invention provides a vital information processing system including: a memory, a processor and a display, the vital information processing system for controlling the display to display patient status on its display interface in the form of a patient information identification, wherein the patient information identification includes at least identity information of each patient, the memory for storing an executable program, the processor for executing the executable program such that the processor performs the operations of:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
grading the plurality of patients according to the patient data to divide the plurality of patients into at least a first-level patient and a second-level patient with different levels;
controlling the display to display the plurality of patients in a hierarchical manner on a display interface in the form of patient information identifications, wherein the patient information identifications include at least the identity information of each patient, the hierarchical display including displaying patient information identifications corresponding to the first level of patients in a first display area for displaying only the first level of patients and displaying patient information identifications corresponding to the second level of patients in a second display area for displaying only the second level of patients;
And wherein at least a portion of the patient information identifications of the first level of patients displayed in the first display area are displayed in a first preset order in the first display area and at least a portion of the patient information identifications of the second level of patients displayed in the second display area are displayed in a second preset order in the second display area.
In one embodiment, the first preset sequence and the second preset sequence each include: and displaying the patient information identifiers sequentially from small to large or from large to small according to the bed number of the patient.
In one embodiment, the first preset sequence and/or the second preset sequence comprises:
preferentially displaying patients whose levels change within a preset time period; or,
the patients with ascending levels are displayed in a concentrated manner at preset positions in the same display area, and/or the patients with descending levels are displayed in a concentrated manner at preset positions in the same display area.
In one embodiment, when it is judged that the level of the patient of a certain first level is changed to the second level, the patient information identification of the patient is moved from the first display area to the second display area for display, the patient information identification of the patient of the second level originally displayed in the second display area is rearranged as needed, and when it is judged that the level of the patient of a certain second level is changed to the first level, the patient information identification of the patient is moved from the second display area to the first display area for display, and the patient information identification of the patient of the first level originally displayed in the first display area is rearranged as needed.
In one embodiment, when the patient's corresponding patient bed number moved from the first display area to the second display area is greater than the patient's corresponding bed number of all second levels of patients originally displayed in the second display area, the patient information identification of the patient is displayed at the end of the patient information identification of the second level of patients originally displayed in the second display area; when the patient corresponding bed number moved from the first display area to the second display area is greater than the bed number corresponding to a part of the second-level patients originally displayed in the second display area and is smaller than the bed number corresponding to another part of the second-level patients originally displayed in the second display area, the patient information identification of the patient is displayed between the patient information identifications of the two parts of the second-level patients originally displayed in the second display area; and, in addition, the processing unit,
when the bed number of the patient corresponding to the patient moving from the second display area to the first display area is larger than the bed numbers of all the patients of the first level originally displayed in the first display area, the patient information identification of the patient is displayed at the last of the patient information identifications of the patients of the first level originally displayed in the first display area; when the patient corresponding bed number moved from the second display area to the first display area is greater than the bed number corresponding to a portion of the first-level patient originally displayed in the first display area and less than the bed number corresponding to another portion of the first-level patient originally displayed in the first display area, the patient information identification of the patient is displayed between the patient information identifications of the two portions of the second-level patient originally displayed in the first display area.
In an embodiment, the first display area is divided into a plurality of first sub-display areas, wherein each of the first sub-display areas may display patient information identifications of one or more first levels of patients, all of the first sub-display areas displaying the patient information identifications of the first levels of patients are adjacent to or connected to each other, and/or the second display area is divided into a plurality of second sub-display areas, wherein among the plurality of second sub-display areas, a plurality of second sub-display areas displaying the patient information identifications of the corresponding second levels of patients are adjacent to or connected to each other.
In one embodiment, the display interface has displayed thereon elements for distinguishing the first display area from the second display area.
In one embodiment, the first display area or the second display area is a fixed area in the display interface, and the area is unchanged.
In one embodiment, the area of the plurality of patient information identifiers displayed in the first display area or the second display area is dynamically adjustable according to the number of patient information identifiers displayed in the first display area or the second display area.
In one embodiment, patient information identifiers corresponding to a third level of patients are also displayed on the display interface, and patient criticality of the first level of patients, the second level of patients and the third level of patients are respectively high, medium and low, wherein the first level of patients is more prominently displayed on the display interface than the second level of patients and the third level of patients.
In one embodiment, the patient information identification includes any one of the following: the level of each patient, the patient status assessment of each patient, adjuvant therapy information, information characterizing changes in the level of the patient over a preset period of time, or the identity information of each patient.
In one embodiment, the patient data further includes data for determining the level of the plurality of patients, the data for determining the level of the plurality of patients includes at least one of vital sign data, test data, examination data, and condition data, or the data for determining the level of the plurality of patients includes a patient status assessment result.
In one embodiment, the vital sign data comprises at least one of an electrocardiograph, a blood pressure, a pulse, blood oxygen, respiration, body temperature, cardiac output, carbon dioxide, motion data, video data, respiratory mechanics parameters, hemodynamic parameters, oxygen metabolism parameters, electroencephalogram parameters, a dual frequency index, and microcirculation parameters;
the disease data comprises at least one of basic information of a patient, disease diagnosis data, treatment data, nursing data and electronic medical record data;
the test data comprises at least one of blood routine test data, liver function test data, kidney function test data, thyroid test data, urine test data, immunity test data, blood coagulation test data, blood gas test data, stool routine test data and tumor marker test data;
the inspection data comprises at least one of DR image data, CT image data, MRI image data, PET image data, ultrasonic image data, scale data and physical examination data;
the patient state assessment results include at least one of cardiopulmonary state grading assessment results, SOFA scores, NEWS scores, user-entered scores.
In one embodiment, the patient state assessment results include an assessment of physiological system states of the plurality of patients.
In one embodiment, the physiological system includes at least one of: circulatory system, respiratory system, nervous system.
In one embodiment, the patient status assessment result further comprises at least one of: the evaluation results of the overall states of the plurality of patients, the evaluation results of the states of the organs of the plurality of patients, the evaluation results of the states of the physiological parts of the plurality of patients and the evaluation results of the states of the tissues of the plurality of patients.
In one embodiment, the display interface further includes an accent patient region of interest, the processor further configured to: and determining a key patient in the plurality of patients, and displaying patient information identification corresponding to the key patient in the focus patient attention area.
In one embodiment, the display interface further includes a deadly event zone, and the processor is further configured to obtain a deadly event for the patient, and display in the deadly event zone an identification representing the deadly event and identity information of the patient associated with the deadly event.
In one embodiment, the display interface further includes an information statistics area, and the processor is further configured to obtain medical resource statistics associated with the plurality of patients and control the display to display the medical resource statistics in the information statistics area.
In one embodiment, the medical resource statistics include at least one of: bed information, auxiliary equipment usage information or medication information.
In one embodiment, the processor is further configured to:
in response to a selection instruction of the medical resource statistical information, controlling the display to highlight a patient information identification of a patient related to the medical resource statistical information, or,
and controlling the display to independently display patient information identification of a patient related to the medical resource statistical information in response to a selection instruction of the medical resource statistical information.
In one embodiment, the processor is further configured to: and controlling the display to display detailed information related to the target patient in response to a selection instruction of the patient information identification corresponding to the target patient.
In one embodiment, the detailed information includes at least one of: an operation interface for displaying or canceling the setting of the focus patient, an operation interface for adding or editing comments, information of auxiliary equipment employed by the target patient to receive the treatment, and medication information of the target patient.
In one embodiment, the plurality of patients belong to the same target patient group, and the processor is further configured to: a user group selection operation is received to determine the target patient group among at least one patient group and to determine patients included in the target patient group.
In one embodiment, the processor is further configured to: and controlling the display to display the patient information identifiers corresponding to the patients with different levels in a distinguishing mode.
In one embodiment, the distinguishing and displaying the patient information identifiers corresponding to different levels of patients includes:
the patient information identification of the first level of patients is displayed with a more prominent color than the patient information identification of the second level of patients, wherein the first level is more critical than the second level.
In one embodiment, the identity information includes any one of the following: bed number, name, age, or patient ID.
In one embodiment, the display interface further comprises an overview zone, the processor further configured to: displaying at least two patient overview identifications with different levels in the overview area, wherein the overview identifications comprise the identity information of the patients, and the overview identifications are used for presenting the levels of the patients corresponding to the overview identifications.
In an embodiment, the overview area and the area displaying the patient information identification are independent of each other and/or the area of the overview area is smaller than the area of the area displaying the patient information identification.
In a fourth aspect, an embodiment of the present invention provides a method for displaying a patient status, the method including:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
grading the plurality of patients according to the patient data to divide the plurality of patients into at least a first-level patient and a second-level patient with different levels;
the plurality of patients are displayed in a hierarchical manner on a display interface in the form of patient information identifications, wherein the patient information identifications include at least the identity information of each patient, the hierarchical display includes displaying patient information identifications of patients corresponding to the first level in a first display area, and displaying patient information identifications of patients corresponding to the second level in a second display area.
In one embodiment, at least a portion of the first level of patients in the first display area are displayed in a preset order in the first display area and/or at least a portion of the second level of patients in the second display area are displayed in a preset order in the second display area.
In one embodiment, the method further comprises:
acquiring a deadly event of the patient, and displaying an identification representing the deadly event and identity information of the patient related to the deadly event in a deadly event area of the display interface.
In one embodiment, the patient information identification includes any one of the following: the level of each patient, the patient status assessment of each patient, adjuvant therapy information, information characterizing changes in the level of the patient over a preset period of time, or the identity information of each patient.
In one embodiment, the method further comprises:
and determining a key patient in the plurality of patients, and displaying patient information identification corresponding to the key patient in a key patient area of the display interface.
In one embodiment, the method further comprises:
medical resource statistical information related to the plurality of patients is acquired, and the medical resource statistical information is displayed in an information statistical area of the display interface.
In one embodiment, the medical resource statistics include at least one of: bed information, auxiliary equipment usage information or medication information.
In one embodiment, the method further comprises:
In response to a selection instruction for the medical resource statistics, highlighting patient information identification of a patient associated with the medical resource statistics, or,
and in response to the selection instruction of the medical resource statistical information, singly displaying patient information identification of the patient related to the medical resource statistical information.
In one embodiment, the method further comprises: displaying an overview identifier of at least two patients in an overview area of the display interface, wherein the overview identifier comprises the identity information of each patient, and the overview identifier is used for presenting the level of the patient corresponding to the overview identifier.
In an embodiment, the overview area and the area displaying the patient information identification are independent of each other and/or the area of the overview area is smaller than the area of the area displaying the patient information identification.
In one embodiment, the step of displaying the plurality of patients on the display interface in the form of patient information identifiers includes:
determining the ordinate of the corresponding patient information identifier according to the level of the patient;
and determining the abscissa of the patient information mark according to the position of the overview mark, and enabling the patient information mark and the overview mark corresponding to the same patient to be aligned and displayed.
The method for displaying the patient state and the life information processing system can help doctors to quickly, clearly and with emphasis on acquiring dynamic illness state information profiles of a plurality of patients based on hierarchical display of patient information identifiers, and are particularly beneficial to the doctors to visit rooms, shift, or remotely know the patient profiles.
Drawings
The above and other objects, features and advantages of the present invention will become more apparent from the following more particular description of embodiments of the present invention, as illustrated in the accompanying drawings. The accompanying drawings are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, and not constitute a limitation to the invention. In the drawings, like reference numerals generally refer to like parts or steps.
FIG. 1 shows a schematic block diagram of a vital information processing system in accordance with one embodiment of the present invention;
FIG. 2 shows a schematic diagram of a display interface according to one embodiment of the invention;
FIG. 3 illustrates a schematic diagram of a custom classification rule according to an embodiment of the invention;
FIG. 4 shows a schematic diagram of a hierarchical rule setting interface in accordance with one embodiment of the present invention;
FIG. 5 illustrates a schematic diagram of selecting a patient group according to one embodiment of the invention;
FIG. 6 shows a schematic diagram of a patient grouping interface, according to one embodiment of the invention;
FIG. 7 illustrates a schematic diagram of a custom classification rule according to an embodiment of the invention;
FIG. 8 shows a schematic diagram of a display interface according to another embodiment of the invention;
FIG. 9 is a schematic diagram showing how critically ill may be presented by location in a display interface in accordance with another embodiment of the invention;
fig. 10 shows a schematic flow chart of a method of displaying a patient status according to one 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 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.
Referring to fig. 1, the vital information processing system 100 according to an embodiment of the present invention includes a memory 110, a processor 120, and a display 130, wherein the memory 110 is configured to store an executable program, and the processor 120 is configured to execute the executable program, so that the processor 120 obtains information of a plurality of patients, and controls the display 130 to display patient information identifications corresponding to the plurality of patients on a display interface thereof, and wherein the processor 120 determines a display position of the patient information identifications at least according to a level of the patient.
The vital information processing system 100 of an embodiment of the present invention includes, but is not limited to, any one of a monitor, a local central station, a remote central station, a cloud service system, a personal computer, a mobile terminal, or a combination thereof. The vital information processing system 100 may be a portable vital information processing system, a transportable vital information processing system, a mobile vital information processing system, or the like.
In one embodiment, the vital information processing system 100 may be a monitor for real-time monitoring of monitored parameters of a patient, which may include bedside monitors, wearable monitors, and the like. The monitors may include ventilator monitors, anesthesia monitors, defibrillation monitors, intracranial pressure monitors, electrocardiographic monitors, and the like.
The vital information processing system 100 may also include a central station for receiving the monitoring data transmitted by the monitors and for centrally monitoring the monitoring data. The central station may include a local central station or a remote central station, among others. The central station connects monitors in a department or a plurality of departments through a network so as to achieve the purposes of real-time centralized monitoring and mass data storage. For example, the central station stores monitoring data, basic information of a patient, medical history information, diagnostic information, and the like, but is not limited thereto.
In some embodiments, the monitor and the central station may form an interconnection platform through a BeneLink to enable data communication between the monitor and the central station, e.g., the central station may access monitoring data monitored by the monitor. In other embodiments, the monitor and the central station may also establish a data connection through a communication unit including, but not limited to, wifi, bluetooth, or 2G, 3G, 4G, 5G, etc. communication units for mobile communications.
The vital information processing system 100 according to the embodiment of the present invention may also be other devices besides monitoring devices, such as an image acquisition device, a treatment and support device, an information system (such as CIS, HIS, shift software, decision support system, etc.), a mobile terminal (such as a ward-round vehicle), etc.
The processor 120 of the vital information processing system 100 may be a central processing unit (Central Processing Unit, CPU), but may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSPs), application specific integrated circuits (Application Specific Integrated Circuit, ASICs), field-programmable gate arrays (Field-Programmable Gate Array, FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. Processor 120 is a control center of vital information processing system 100 and connects the various portions of the overall vital information processing system 100 using various interfaces and lines.
The memory 110 of the vital information processing system 100 is configured to store an executable program, and further, the memory 110 may store patient data such as vital sign data of a patient associated with the vital information processing system 100. By way of example, the memory 110 may primarily include a program storage area and a data storage area, wherein the program storage area may store an operating system, application programs required for a plurality of functions, and the like. In addition, memory 110 may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart memory card, secure digital card, flash card multiple disk storage devices, flash memory devices, or other volatile solid state storage devices.
The display 130 is used to provide visual display output to the user. In particular, the display 130 may be used to provide a visual display interface for a user, including but not limited to a monitoring interface, a monitoring parameter setting interface, and the like. By way of example, the display 130 may be implemented as a touch display, or the display 130 may have an input panel, i.e., the display 130 may function as an input/output device.
In some embodiments, the vital information processing system 100 further includes a data acquisition unit, such as a sensor. The sensor may be used to continuously collect patient monitoring data. The continuous collection means that the sensor continuously measures the monitoring data for a plurality of times at intervals of preset time, wherein the preset time means the shortest time corresponding to the time when the sensor returns one monitoring data. The data acquisition unit and the processor 120 may be connected by a wired communication protocol or a wireless communication protocol, so that data interaction may be performed between the data acquisition unit and the processor 120. Wireless communication techniques include, but are not limited to: various generations of mobile communication technologies (2G, 3G, 4G, and 5G), wireless networks, bluetooth (Bluetooth), zigBee, ultra wideband UWB, NFC, and the like.
In particular, the data acquisition unit is used for acquiring vital sign data of the patient. In some embodiments, the data acquisition unit may be provided separately from the vital information processing system 100 and detachably connected to the vital information processing system 100. The processor 120 is also used for data processing of vital sign data from the data acquisition unit. In some embodiments, the vital information processing system 100 may not include a sensor, and the vital information processing system 100 may receive the monitoring data collected by the external monitoring accessory through the communication unit.
The vital information processing system 100 may also include a communication unit coupled to the processor 120. In some embodiments, vital information processing system 100 may establish data communication with a third party device via a communication unit. The processor 120 also controls the communication unit to acquire data of the third party device, or transmits vital sign data acquired by the data acquisition unit to the third party device. The communication units include, but are not limited to, wiFI, bluetooth, NFC, zigBee, ultra wideband UWB, or 2G, 3G, 4G, 5G, and the like mobile communication units. In other embodiments, the vital information processing system 100 may also establish a connection with a third party device via a cable. Third party devices include, but are not limited to, medical devices such as monitoring devices, ventilator devices, anesthesia machine devices, infusion pump devices, image acquisition devices, and the like. The vital information processing system 100 may provide a centralized display of data collected from a plurality of third party devices. The third party device may also be a cloud service system or a non-medical device such as a television, monitor, cell phone, tablet, notebook or desktop computer, as well as one or more other devices having a hardware processor configured to execute a data display system. The vital information processing system 100 may also communicate with a hospital system, for example, the vital information processing system 100 may communicate wirelessly or otherwise with a third party data management system, such as a data management system for medical personnel recording information for admission, discharge, transfer, etc., or an electronic medical record (Electronic Medical Record, EMR) system.
The vital information processing system 100 according to the embodiment of the present invention can help a doctor to quickly, clearly and with focus on acquiring a dynamic patient condition information profile of a patient, and in particular, help the doctor to visit a room, take a shift, or remotely learn about the patient profile, based on the patient information identifiers of a plurality of patients. The multiple patients can belong to the same department, the same organization, the same hospital and the like, and also can belong to different departments, organizations or hospitals, and the information of the multiple patients is integrated according to the actual needs of users. For example, screening may be performed by department to observe a dynamic condition information profile of all patients in a particular department.
The processor 120 obtains patient data for a plurality of patients, wherein the patient data includes at least patient identification information, which may include a bed number, name, age, ID, etc. that enable the healthcare worker to determine the patient in question. In addition, the patient data may include vital sign data, test data, examination data, illness state data, etc. of the patient, which can reflect the physical condition of the patient, and the processor 120 may rank the patient according to the vital sign data, the test data, the examination data, the illness state data, etc. of the patient, to determine the rank of each patient. Alternatively, the processor 120 may receive patient levels sent by other devices or manually entered by the user. The patient level is used to display a hierarchical representation of patient information identification of the patient. Patient information identifiers for higher-level patients may be displayed preferentially, for example, above or to the left of the display interface where the user views preferentially, or patient information identifiers for higher-level patients may have more prominent visual effects (larger size, more striking color, etc.).
When patients are classified according to the patient data, the patients can be classified according to the patient data directly, or the patient state can be estimated according to the patient data to obtain the patient state estimation result of each patient, and then the patients are classified according to the patient state estimation result. If the patient status evaluation results are included in the acquired patient data, the classification may be directly performed according to the patient status evaluation results included in the patient data. Wherein the patient condition assessment result may be a summary of the macroscopic state of the patient as a whole, of a physiological system, of an organ, of a tissue or of a site, reflecting the overall condition of the physiological function of the part.
Exemplary vital sign data of a patient includes, but is not limited to, at least one of, electrocardiography, blood pressure, pulse, blood oxygen, respiration, body temperature, cardiac output, carbon dioxide, motion data, video data, respiratory mechanics parameters, hemodynamic parameters, oxygen metabolism parameters, electroencephalogram parameters, dual frequency index, and microcirculation parameters. The processor 120 may acquire vital sign data acquired by the vital information processing system 100 itself from a data acquisition unit, or may receive vital sign data of a patient from an external device through a communication unit. Illustratively, the external devices include a treatment device including a ventilator, an anesthesia machine, an infusion pump, an extracorporeal circulation device, and the like, an examination device including an ultrasound imaging device, an endoscope device, and the like, and a third party system including a PACS system (image archiving and communication system), an LIS system (laboratory information system), a CIS system (clinical information system), and the like.
Illustratively, the condition data includes at least one of patient basic information, disease diagnosis data, treatment data, care data, and electronic medical record data. Wherein, the patient basic information includes age, weight, sex, etc., and the disease diagnosis data includes medical history, diagnosis report, doctor's advice, consultation dialogue, type of department where the patient is located, location of ward where the patient is located, number of sickbed of the patient, role of patient's tube doctor, clinical operation performed by medical care on the patient, information related to level judgment of the patient entered in advance by medical care, time of admission of the patient, type or dosage of medicine taken by the patient, etc. The vital information processing system 100 may obtain patient condition data via an electronic medical record or receive medical personnel entered condition data. The test data includes biochemical test index data collected by the in vitro diagnostic device, the biochemical test index data includes at least one of blood routine test data, liver function test data, kidney function test data, thyroid test data, urine test data, immune test data, blood coagulation test data, blood gas test data, stool routine test data, and tumor marker test data, and the vital information processing system 100 can acquire test data of a patient through a hospital laboratory information management system. The examination data includes data acquired by a medical imaging device, specifically at least one of DR image data, CT image data, MRI image data, PET image data, ultrasound image data, scale data, and physical examination data, and the vital information processing system 100 may acquire the examination data from the medical imaging device or the image induction and communication system.
The patient status assessment results include at least one of: patient criticality, patient condition type, patient state stability cardiopulmonary state grading assessment results, SOFA (sequential organ failure) score, NEWS (early warning in the united kingdom) score, or user entered score. Illustratively, the user may determine a currently applicable patient level decision rule among a plurality of patient level decision rules, causing the processor 120 to derive a patient stratification result based on the currently applicable patient level decision rule.
The patient state evaluation result may be a score obtained by evaluating the state of the patient according to a specific clinically existing evaluation rule forming a consensus, for example, a score rule such as SOFA (sequential organ failure) score, NEWS (early warning in the united kingdom) score, etc., to obtain the score of the patient; alternatively, the patient state evaluation result may be an evaluation result obtained by evaluating the state of the patient according to a specific evaluation rule configured by means of clinical investigation or the like. Specifically, whether the patient data satisfies a preset rule in the rule base or not may be determined, and when the patient data satisfies one or more preset rules in the rule base, it is determined that the patient has a patient state corresponding to the preset rule. Alternatively, a machine learning model may be used to evaluate the state of the patient. The accurate and reliable patient state evaluation result can be obtained by integrating various patient data to evaluate the patient state.
In one embodiment, the patient state assessment of the plurality of patients comprises an assessment of a physiological system state of the plurality of patients, the physiological system of the patients comprising at least one of: circulatory system, respiratory system, nervous system. Illustratively, the patient status assessment results for the plurality of patients further include at least one of: an evaluation result of the overall state of the plurality of patients, an evaluation result of the state of the plurality of organs of the patient, an evaluation result of the state of the physiological parts of the plurality of patients, and an evaluation result of the state of the tissue of the plurality of patients. The processor 120 may obtain an evaluation of one or more aspects of each patient.
Illustratively, the respiratory system may be evaluated in terms of the following parameters: the evaluation of the respiratory system may include overall status of the respiratory system (e.g., respiratory instability), current problems of the respiratory system (transient hypoxia, intermittent compliance reduction), possible risks (risk of pressure injury), etc.
By way of example, the circulatory system may be evaluated in accordance with the following parameters: shock index, blood pressure (which may be invasive or non-invasive), cardiac output, lactic acid (Lac), laboratory indicators and hemodynamic parameters related to hemodynamic and perfusion conditions, information about support or treatment equipment related to the circulatory system, and the like. Among them, laboratory indicators include, but are not limited to, hemoglobin (Hb or HGB), red blood cell count (RBC), pH, HCO3, base remaining (BE); hemodynamic parameters include, but are not limited to, central venous pressure, CVP, peripheral vascular resistance index, SVRI, pulmonary water index, ELWI, central venous oxygen saturation, scvO2; the information about the circulatory system-related support device or treatment device includes the treatment mode in which the support device or treatment device is used, key parameters of the device, etc., for example, whether to use the circulatory support device such as ECMO, whether to use the balloon refute pump IABP, whether to use the vasoactive drug, etc. The evaluation result of the circulatory system may include the overall state of the circulatory system (e.g., circulatory instability).
By way of example, the nervous system may be evaluated according to the following parameters: consciousness score, brain blood pressure and blood oxygen index, clinical assessment results related to the nervous system, etc. Where the clinically common consciousness score is the GCS score (glasgo coma score), but also allows the user to define consciousness scoring rules by themselves. Clinical assessment results related to the nervous system include assessment of pupil size, pupil light reflex assessment, extremity muscle strength assessment, etc.
The patient state evaluation result may also be an evaluation result of the state of an organ, a physiological site, a tissue, etc. of the patient. Wherein the organ comprises at least one of brain, heart, lung, liver, stomach, and kidney; the physiological parts comprise head, chest, abdomen, etc.; tissues include muscle tissue, nerve tissue, epithelial tissue, and the like.
By way of example, the heart may be evaluated in terms of the following parameters: TIMI (myocardial infarction thrombolysis treatment) score, GRACE (global acute coronary syndrome registration) score; heart rate and cardiac-related biochemical markers such as creatine kinase isozymes (CK-MB), troponin (cTn), titanium natriuretic (NT-proBNP), and the like; cardiac related alarm events, such as ST elevation or depression events, arrhythmia events, and the like.
For example, the liver may be assessed according to liver function assessment indicators such as alanine Aminotransferase (ALT), gamma-glutamyl transfer (GGT), total bilirubin (Tbil), direct bilirubin (Dbil), and ammonia-blood (AMM).
For example, kidneys may be evaluated based on urine volume and fluid ingress and egress. The liquid input/output amounts include a liquid input amount and a liquid output amount, wherein the liquid input amount includes a total input amount for 24 hours, and a liquid input amount by which the infusion pump pumps into the human body within 24 hours. Further, the liquid intake may also include a dietary liquid amount and the like. Fluid output includes 24 hours urine, 24 hours drainage, other equipment dehydration, etc. Fluid output may also include perspiration, excretion, vomiting, bleeding fluid output, and the like.
Illustratively, the patient overall state assessment may be a SOFA score, a NEWS score, or a cardiopulmonary state grading assessment, etc. The aim of the SOFA score is to describe the occurrence and development of multiple organ dysfunction and evaluate the morbidity, and the SOFA score relates to six score indexes of respiratory system, blood system, liver, cardiovascular system, central nervous system and kidney, wherein the score interval of each score index is 0-4 points, the sum of scores is the total SOFA score, and the higher the score is, the worse the prognosis is. NEWS score relates to six score indexes of respiratory rate, blood oxygen saturation, body temperature, systolic pressure, pulse and consciousness level, wherein the score interval of each score index is 0-3 points, when a patient needs oxygen inhalation, the score of each index is 2 points, and the sum of the scores of the various indexes is the total score of NEWS score. The heart-lung state grading evaluation result is an evaluation result obtained by grading evaluation of the heart-lung state according to the respiratory and circulation aspects, wherein the evaluation result that the severity of one of the respiratory instability and the circulation instability is high, the evaluation result that neither the respiratory instability nor the circulation instability belongs to the high is medium, neither the respiratory instability nor the circulation is found to be low, and the higher the grade is, the more serious the illness state is.
In addition, the patient state evaluation result may be an evaluation result under other evaluation criteria, or may be a score subjectively manually set by the user, for example, according to clinical experience.
After the patient state evaluation results of the plurality of patients are obtained, the processor 120 may rank the plurality of patients according to the patient state evaluation results of the plurality of patients to divide the plurality of patients into at least a first-level patient and a second-level patient having different levels. In particular, the processor 120 may determine a ranking rule for the patient state assessment results, ranking the patient state assessment results according to the ranking rule. The patient's level represents a priority of displaying the patient's status, and the patient information identification of the higher priority patient may be displayed preferentially, for example, above or to the left of the display interface, etc. where the user is viewing preferentially, or the patient information identification of the higher priority patient may have a more prominent visual effect (larger size, more striking color, etc.). The limited size of the display interface should also preferably ensure that patient information identifiers for patients with higher priority are displayed. One or more patients may be included in each patient level.
In some embodiments, the patient status assessment results reflect patient criticality, and the processor 120 may divide the plurality of patients into a plurality of patient levels of different criticality based on the patient status assessment results. Patients with higher criticality may have higher priority, but are not limited thereto. In some embodiments, different levels may be set for different patient status assessment results, e.g., when a patient is classified into three different levels, the patient levels may be defined as including high, medium, and low levels. In some embodiments, the number of levels is not limited to three, for example, a patient's level may include only a first level and a second level; alternatively, the patient level may be greater than three levels, for example, a deadline level may also be set above the high level. The processor 120 may rank according to a single patient state assessment, or may rank together by integrating at least two patient state assessments; the classification may be performed based on only the patient status evaluation results, or may be performed in combination with other patient data. For example, when grading according to the SOFA score, it is classified as high when the score is greater than or equal to 5; or the score is more than or equal to 2, and simultaneously, the blood vessel booster is used, MAP (mean arterial pressure) is more than or equal to 65mmHg, and serum lactic acid is also classified as high-grade when more than 2 mmol; the score is divided into medium levels when it is 2-4 and low levels when it is 0-1. When grading is performed according to NEWS scores, the grading is classified into high grades when the scores are greater than or equal to 7, classified into medium grades when the scores are between 5 and 6, or single indexes are 3, and classified into low grades when the scores are between 0 and 4. The heart-lung state grading evaluation result is divided into a low grade, a medium grade and a high grade, and the grading result can be directly adopted. For scoring manually entered by a user, its grading rules may also be defined by the user.
Referring to fig. 3, the user may click on the user setting entry 301 to enter the hierarchical rule setting interface as shown in fig. 4. In the hierarchical rule setting interface, a patient state evaluation rule entry 401, a hierarchical number setting entry 402, and a threshold range setting entry 403 are displayed. The user may select a currently applicable patient state assessment rule, such as cardiopulmonary state grading, SOFA score, NEWS score, manual settings, etc., at the patient state assessment rule entry 401; the number of ranks is selected at the rank number setting entry 402, for example, three ranks are set, and a specific threshold range corresponding to each rank is filled in at the threshold range setting entry 403, for example, when the SOFA score is adopted, the score corresponding to the higher rank (i) is 5 or more, the score corresponding to the middle rank (ii) is 2 to 4, and the score corresponding to the lower rank (iii) is 1 or less.
Illustratively, the vital information processing system 100 may automatically obtain patient status assessment results for a patient, and update the display interface once new assessment results are obtained. For example, the grading period of the cardiopulmonary state deterioration grade is 2h, the grading period of the NEWS grading is determined according to the preset automatic grading interval time, and the grading period of the SOFA grading is graded when all indexes are updated. When the score input by the user manually is adopted, the score input by the user can be monitored in real time, so that the patient state evaluation result is dynamically adjusted.
Based on the determined patient levels of the plurality of patients, the processor 120 controls the display 130 to display patient information identifiers on a display interface thereof, and patient status of the plurality of patients is presented in the form of the patient information identifiers. The patient information identifiers can be uniformly displayed in a patient state display area of the display interface; in addition to the patient status display area, the display interface may include a plurality of areas, such as an overview area, an information statistics area, an accent patient area, a deadly event area, and the like, as will be described in more detail below.
In order to display the patient information identification of each patient on the display interface, the abscissa and the ordinate of each patient information identification on the display interface need to be determined. The processor 120 may determine an abscissa of the patient information identifier corresponding to each patient on the display interface according to a first rule, and determine an ordinate of the patient information identifier corresponding to each patient on the display interface according to a second rule, where the first rule and/or the second rule at least includes a determination of a level of the plurality of patients, and when one rule is a determination of a level of the patient, the other rule is a determination of a ranking of the plurality of patients in the same level. For example, the processor 120 may divide the plurality of patients into at least a first patient of a first level and a second patient of a second level according to the first rule and/or the second rule, the first patient may refer to any patient of the first level, and the second patient may refer to any patient of the second level. After determining the abscissa of the patient information identification, the processor 120 determines the display positions of the patient information identifications corresponding to the plurality of patients on the display interface according to the abscissa and the ordinate of each patient information identification, and controls the display 130 to display the patient information identifications corresponding to the plurality of patients on the display interface according to the determined display positions. The patient information identifications of the plurality of patients include at least a first patient information identification of the first patient and a second patient information identification of the second patient. In this embodiment, the abscissa of at least one patient information identifier is variable based on a first rule and the ordinate thereof is also variable based on a second rule, so that the display position of the patient information identifier can reflect information in two dimensions.
In one embodiment, when the first rule includes a determination of a level of a plurality of patients, the second rule may include a determination of a number of beds of the plurality of patients, i.e., the second rule specifies a ranking of the patients based on the number of beds of the patients. In this embodiment, the abscissa of the patient information identification reflects the patient level and the ordinate of the patient information identification reflects the patient bed number. In another embodiment, referring to fig. 2, 3 and 7, when the second rule includes a determination of a level of a plurality of patients, the first rule may include a determination of a plurality of bed numbers. In this embodiment, the ordinate of the patient information identification reflects the patient's level, e.g., the higher the patient information identification is in the display interface, the higher the criticality of the identified patient; the abscissa of the patient information identification reflects the patient's bed number, e.g. the more right the patient information identification is in the display interface, the larger the bed number. Because the bed number is the main basis for the identification of the patient by the clinical medical staff, the patient information identifications of a plurality of patients at the same level are sequentially arranged according to the order of the bed number, so that the clinical requirement is met, and the medical staff can conveniently and quickly find the patient information identification corresponding to the appointed patient.
Alternatively, in addition to determining the ordering of a plurality of patients in the same rule based on the patient's bed number, the ordering of the patients may be determined based on the order of admission, age, etc. For example, in order to prompt the user for a rule for ordering patients, relevant information for ordering may be displayed in the patient information identification, such as the bed number when ordering patients according to the bed number, the time of admission when ordering patients according to the order of admission, etc. in the patient information identification.
The positions of the plurality of patient information identifiers at the same level in the embodiment of the invention are dynamically adjustable, so that the positions of the patient information identifiers always accord with the first rule or the second rule for determining the patient ordering. Thus, when the ordinate of the patient information identity of one of the patients displayed on the interface changes, the abscissa of the patient information identity of the other patient, which is the same as the changed ordinate, will be caused to change.
Assuming that the second rule includes a determination of the patient level, i.e., the ordinate of the patient information identifier is related to the patient level, and the first rule includes a determination of the patient bed number, when the level of the patient a changes from the second level to the first level, the ordinate thereof changes from the second ordinate corresponding to the second level to the first ordinate corresponding to the first level. If the bed number of the patient A is smaller than the bed numbers of other patients at the first level, the abscissa of the patient information marks of all the patients at the first level is increased; if the patient A bed number is only smaller than the bed number of a part of patients in the first level, the abscissa of the patient information mark of a part of patients in the first level is increased; i.e. the abscissa of at least part of the patient information identity will change with the change of the level of patient a. Only when the bed number of the patient A is larger than the bed numbers of all patients in the first level, the abscissa of the patient information marks of other patients is not changed.
Similarly, assuming that the first rule includes a determination of the patient level, i.e., the abscissa of the patient information identity is associated with the patient level, when the abscissa of the patient information identity of one of the patients displayed on the display interface changes, the ordinate of the patient information identity of the other patient, which is the same as the changed abscissa, will be caused to change.
In one embodiment, a plurality of patient information identifiers having the same abscissa or the same ordinate are displayed adjacent to each other or connected to each other on the display interface. Wherein the same abscissa or the same ordinate may represent the same level, i.e. a plurality of patient information identifications of a plurality of patients of the same level are displayed adjacent to each other or connected to each other on the display interface, and patient information identifications of patients of different levels may be directly separated by a larger distance or divided by a graphic element. As shown in fig. 2, 3 and 7, a plurality of patient information identifiers of a plurality of patients at the same level are adjacent to each other, so that the layout of the display interface is more compact and can accommodate more patient information identifiers. It should be noted that, in the display area 203 of fig. 2, the plurality of patient information identifiers are displayed in three rows due to the greater number of patient information identifiers being displayed, but the patient information identifiers are still defined to have the same ordinate.
When patient information is displayed in a hierarchical manner according to patient levels, patients of different levels can be displayed in different areas, so that patient information identifiers are displayed in a hierarchical manner. The processor 120 may control the display 130 to divide a corresponding display area for each level of patient in the display interface thereof, and uniformly display patient information identifications of the same level of patient in the display area corresponding to the level, thereby performing a division and hierarchical display of patient information identifications of a plurality of patients. Continuing with the first level and the second level as examples, the processor 120 may control the display 130 to display patient information identifications of patients corresponding to the first level in a first display area for displaying only patients of the first level and patient information identifications of patients corresponding to the second level in a second display area for displaying only patients of the second level. For the P patients classified in the ith level, the patient information identifications of the P patients are displayed in the display area corresponding to the ith level, for example, the patient information identifications corresponding to the patients of the higher level are displayed in the display area corresponding to the higher level, and the patient information identifications corresponding to the patients of the middle level are displayed in the display area corresponding to the middle level.
And the display position of the patient information identifications of at least one first level of patient displayed in the first display area is dynamically adjustable, and the display position of the patient information identifications of at least one second level of patient displayed in the second display area is dynamically adjustable, so that the ordering of the patient information identifications inside each display area always follows a specific rule.
Further, the display position of the patient information identification of the first level patient A displayed in the first display area is dynamically adjustable according to the bed number of the patient A and the bed numbers of other first level patients, and the display position of the patient information identification of the second level patient B displayed in the second display area is dynamically adjustable according to the bed number of the patient B and the bed numbers of other second level patients. Referring to fig. 2, assuming that patient a has a bed number of 3-05, patient a is currently displayed in the third position of the display area 201 because the bed numbers of the other two patients of the first level are 3-01 and 3-02, respectively, before the bed number of patient a. If the level of patient C with a bed number of 3-03 is changed from the second level to the first level, the patient information identification of patient A will change from the third level to the fourth level, i.e. the location of the identification of patient information of patient A depends on the number of patients with a bed number smaller than patient A in the first level. Meanwhile, after the level of the patient C is changed from the second level to the first level, the patient information identification of the patient B having the bed number 3-06 is changed from the third position of the display area 202 to the second position, i.e., the position of the patient information identification of the patient B depends on the number of patients having the bed number smaller than the patient B in the second level.
Alternatively, the patient information identifications of each first level of patient displayed in the first display area are displayed in a first preset order in the first display area, and the patient information identifications of each second level of patient displayed in the second display area are displayed in a second preset order in the second display area. The first preset order and the second preset order may be defined by the same ordering rule, referring to an ordering order of patient information identifiers of the same level of patients. Thus, after the display area of the patient information identification is determined according to the level of the patient, information of another dimension can also be reflected by the ordering of the patient information identification within the display area.
Illustratively, the first preset sequence and the second preset sequence each include: patient information identifiers are displayed in sequence from small to large or from large to small according to the bed number of the patient. With continued reference to FIG. 2, the patient information identifiers for patient A are displayed in the first position in the display area 201, patient information identifiers for patient B are displayed in the second position in the display area 201, and patient information identifiers for patient C are displayed in the third position in the display area 201 for the first level of patient A, B, C having bed numbers 3-01, 3-02, and 3-05, respectively. Because the bed number is the main basis for the identification of the patient by the clinical medical staff, the patient information identifications of a plurality of patients at the same level are sequentially arranged according to the order of the bed number, so that the clinical requirement is met, and the medical staff can conveniently and quickly find the patient information identification corresponding to the appointed patient.
In another embodiment, the first preset sequence and/or the second preset sequence comprises: patients whose levels change during a preset period of time are preferentially displayed. When the patient a changes from the second level to the first level within the preset period of time, the patient information identification of the patient a is displayed in the front row of the first display area even if the bed number of the patient a is located later. Alternatively, patients with ascending levels may be displayed centrally at preset locations on the same display area and/or patients with descending levels may be displayed centrally at preset locations on the same display area. For example, the left area of the second display area displays patient information identifications of patients who have recently risen from the third level to the second level, the right area displays patient information identifications of patients who have recently fallen from the first level to the second level, and the middle area displays patient information identifications of patients whose recent level has not changed.
Referring to fig. 9, a patient whose status deterioration results in an increase in level, whose patient information identification may be displayed on the left side of the display area; a patient whose status improvement results in a decrease in level, whose patient information identification is displayed on the right side of the display area; a patient whose patient information identification is displayed in the middle of the display area is in a stable state.
When the processor 120 determines that the level of the patient a of the first level is changed to the second level, the patient information identification of the patient a is moved from the first display area to the second display area for display, and the patient information identification of the patient of the second level, which is originally displayed in the second display area, is rearranged as needed. Similarly, when it is judged that the level of a patient of a certain second level is changed to the first level, the patient information identification of the patient is moved from the second display area to the first display area for display, and the patient information identification of the patient of the first level originally displayed in the first display area is rearranged as necessary.
For example, when the bed number corresponding to the patient a moving from the first display area to the second display area is greater than the bed numbers corresponding to all the second-level patients originally displayed in the second display area, the patient information identification of the patient a is displayed at the end of the second-level patient information identification originally displayed in the second display area; when the patient A's corresponding bed number is greater than the corresponding bed number of a portion of the second-level patients originally displayed in the second display area and less than the corresponding bed number of another portion of the second-level patients originally displayed in the second display area, patient information identifications of patient A are displayed between the patient information identifications of two portions of the second-level patients originally displayed in the second display area, so that the patient information identifications displayed in the second display area are always kept arranged in the order of the bed numbers.
When the bed number of the patient B corresponding to the patient information identity moved from the second display area to the first display area is greater than the bed number of the patient corresponding to all of the patient information identities of the first level originally displayed in the first display area, the patient information identity of the patient B is displayed between the patient information identities of the first level originally displayed in the first display area and the patient information identities of the second level originally displayed in the first display area, so that the patient information identities displayed in the first display area are always kept in the order of the bed numbers when the bed number of the patient B is greater than the bed number of the patient corresponding to the patient information identity of the first level originally displayed in the first display area and less than the bed number of the patient corresponding to the patient information identity of the second level originally displayed in the first display area.
For compact display of the patient information identification, the first display area may be divided into a plurality of first sub-display areas, wherein each of the first sub-display areas may display one or more patient information identifications of the first level of patients, and all of the first sub-display areas displaying the patient information identifications of the first level of patients are adjacent to or connected to each other. Similarly, the second display area is divided into a plurality of second sub-display areas, wherein, among the plurality of second sub-display areas, in which the patient information identifications of the patients of the corresponding second level are displayed, are adjacent to or connected to each other. The sub-display area may coincide with the range of the patient information identification or the patient information identification may occupy part of the space of the sub-display area. By closely arranging the plurality of sub-display areas of the same level, the layout of the display interface can be made more compact.
In one embodiment, elements for distinguishing between different display areas are also displayed on the display interface. For example, referring to fig. 2 and 3, a dividing line is displayed between adjacent display areas. The dividing line may divide the patient status display area into a plurality of display areas. For example, the gradation identification corresponding to the i-th display area may be displayed in the i-th display area, for example, the gradation identification corresponding to the higher level may be displayed in the display area corresponding to the higher level, and the gradation identification corresponding to the middle level may be displayed in the display area corresponding to the middle level, that is, the gradation corresponding to each area is presented by the gradation identification.
In one embodiment, the first display area or the second display area is a fixed area in the display interface, and the area is unchanged. At this time, the area of the patient information marks may be dynamically adjustable according to the number of patient information marks displayed in the first display area or the second display area, and the larger the number of patients of the first level, the smaller the display area of the patient information marks in the first display area, so that more patient information marks are displayed in the first display area, whereas the larger the number of patients of the first level, the larger the area of the patient information marks displayed in the first display area. For example, when the area of the patient information mark becomes smaller, a part of the secondary information displayed in the patient information mark may be omitted to ensure that the important information can be clearly displayed, or the amount of information displayed in the patient information mark may be kept unchanged and the font size or the graphic size may be reduced. Similarly, the greater the number of patients at the second level, the smaller the display area of the patient information identifiers within the second display area, thereby displaying more patient information identifiers within the second display area.
Or when the number of patient information identifications to be displayed is large, the patient information identifications can be displayed in a sliding interface mode, so that more patient information identifications are displayed while the area of the display area and the area of the patient information identifications are kept unchanged.
In another embodiment, the area of the first display area or the second display area is variable, and when the number of patient information marks displayed therein is larger, the area of the first display area or the second display area may be larger to accommodate more patient information marks, and the area of the patient information marks may be selected to remain unchanged to avoid affecting the definition.
When an adjustment is required to be made to the patient information identification or the area of the display area, an adjustment object may be selected according to the level of the patient. For example, when the first level is the highest critically ill level, the display area of the patient information indicia displayed by the first display area remains fixed to ensure adequate display of critically ill patient information; when the number of patients of the first level is greater, the area of the first display area may be increased to accommodate more patient information identification. Meanwhile, when the number of patients in the second level or the third level is larger, the patient information marks displayed in the second display area or the third display area can be reduced, so that more patient information marks are displayed in the second display area or the third display area on the premise of keeping the area of the second display area or the third display area unchanged.
The patient information identification may be in the form of a card or any other suitable form. Illustratively, the patient information identification includes at least each patient identity information for prompting the user for a patient identity corresponding to the patient information identification. Wherein the identity information displayed in the patient information identification may include at least one of a bed number, a name, an age, or a patient ID.
Further, the patient information identification may also include patient status assessment results for each patient. Wherein the patient status assessment results may be displayed only in a partial level of patient information identification. For example, referring to fig. 2, the patient levels are divided into a first level patient, a second level patient, and a third level patient, which are respectively higher (i), middle (ii), and lower (iii) according to patient criticality. The high, medium and low levels have respective display areas, respectively display area 201, display area 202 and display area 203, respectively, the display area 201, display area 202 and display area 203 being located in the patient status display area 210; each display area is also displayed with a name of a corresponding level; in each display area, a patient information identifier corresponding to the patient belonging to the level is displayed. FIG. 2 is a view showing the results of the classification evaluation of cardiopulmonary status, i.e., unstable breathing, unstable circulation, or unstable breathing and unstable circulation, in addition to the bed number representing the patient identification information, in the patient information identification of the advanced and intermediate patients, taking the classification according to the results of the classification evaluation of cardiopulmonary status as an example; in addition to the textual description, respiratory instability and circulatory instability may also be graphically represented. For the low-level patient information identification, since neither respiratory instability nor circulatory instability is found, only the patient identity information and no cardiopulmonary status grading evaluation result can be displayed in the patient information identification.
FIG. 8 shows a display interface for grading a patient according to SOFA score, wherein the display interface is also divided into a high-level corresponding display area 801, a medium-level corresponding display area 802 and a low-level corresponding display area 803, wherein patient information identifiers in the high-level corresponding display area 801 and the medium-level corresponding display area 802 display SOFA scores in addition to bed numbers; patient information identification in the lower-level corresponding display area 803 displays only the bed number. In the example of fig. 8, a grading standard and a number of beds are also displayed in the display area corresponding to each level, for example, the advanced grading standard is that the SOFA score is greater than or equal to 5, and the number of beds is 9.
In one embodiment, the patient information identifier may further include a level for each patient, and in particular, the patient level may be displayed in text or graphics, or the patient level may be characterized by a color, shape, texture, size, etc. of the patient information identifier, so as to distinguish between different levels of patients. Specifically, patient information identifications of patients of a first level (high-level) are more prominently displayed on the display interface than patient information identifications of patients of a second level (medium-level) and patients of a third level (low-level). The more prominently display may be embodied as a more prominent color, larger size, more information displayed, having unique indicia, etc. of the patient information identification. For example, the patient information identification of the patient at the first level may be displayed in red, the patient information identification of the patient at the second level may be displayed in yellow, the patient information identification of the patient at the third level may be displayed in green, and so on. The color of the patient information indicator may be the base color, border color, or the color of graphics or text displayed therein of the patient information indicator.
In some embodiments, the patient information identification may also include vital sign parameters or other physiological parameters of the patient. For example, the patient information identification may include real-time monitoring values of SpO2, MAP, and HR. The patient information identification may also include a score for a certain one-way indicator under the current evaluation criteria, e.g., an abnormal indicator score of the six indicators of the SOFA score.
In addition, the patient information identification also includes adjuvant therapy information such as whether to use a ventilator, an IABP (intra-aortic balloon counterpulsation), ECMO (extra-corporeal pulmonary oxygenation), a vasoactive drug, etc. The patient information identification may also include annotation tags, which may be added automatically or manually by the user.
In one embodiment, the patient information identifier may further include information characterizing changes in the patient's level over a preset period of time, thereby highlighting the patient whose recent status has changed among the plurality of patient identifiers, prompting the user for patient status changes; the information may be a hierarchical change identifier in the form of text, graphics, symbols, colors, etc., and the level up and level down correspond to different manifestations, i.e. the hierarchical change identifier comprises a hierarchical up identifier indicating that the currently determined level is higher than the previously determined level and a hierarchical down identifier indicating that the currently determined level is lower than the previously determined level. For example, when the level of a certain patient rises from the middle level to the high level, the patient information identification of the certain patient is moved from the display area corresponding to the middle level to the display area corresponding to the high level, and an upward arrow is displayed above the patient information identification, indicating that the state of the certain patient is deteriorated. Conversely, when the level of a certain patient is lowered from the high level to the medium level, the patient information mark of the certain patient is moved from the display area corresponding to the high level to the display area corresponding to the medium level, and a downward arrow is displayed above the patient information mark, indicating that the state of the certain patient is improved.
Illustratively, the alarm information may be communicated by highlighting of the patient information identification, including but not limited to, magnification, flashing, color changing, etc. of the patient information identification. The alarm reasons can be displayed at the same time of alarm. The user can customize the alarm rules needed by the user, and when the alarm rules are triggered, alarm information is generated.
In some embodiments, the display of the patient information identification may be selected by the user. For example, for the SOFA score, the user may select the advanced corresponding patient information identification to display the bed number, SOFA score, and real-time monitoring values of SpO2, MAP, and HR, or switch to display the bed number, SOFA score, and abnormality index score.
In some embodiments, referring to fig. 2, the display interface further includes a deadline event area 204, and the processor 120 may further obtain a deadline event for the patient, and display an identification of the deadline event representing the patient and the identity information of the patient in the deadline event area 204. The information represented by the deadline event area 204 of FIG. 2 is: the deadly event of the patient is the stop pulse, the number of the patient bed where the stop broadcast occurs is 3-30, and the deadly event area can effectively remind the user of paying attention to the deadly event of the patient. The information displayed in the deadly event area 204 is not limited to clinically common deadly events, but may be out of limits alarms or other potentially deadly situations for medical customization. The user may also set different deadly events for different patients, e.g. heart rate exceeding 160 is a deadly event for some specific patients and not for others, only heart rate exceeding 160 for specific patients will show this information in the deadly event zone. The deadly event area can timely transmit the deadly event to the user in a protruding mode, so that medical staff is reminded of timely finding and processing sudden life-threatening events, and the survival rate of patients is improved.
In some embodiments, referring to fig. 2, the display interface further includes a focus patient attention area 205, and may further determine a focus patient among a plurality of patients, and display patient information identifiers representing patient information of the focus patient and patient status evaluation results in the focus patient attention area 205, so as to implement focus attention on the patient, and help a doctor to grasp the patient crisis at any time. In some embodiments, a focus mark may be added to the patient information identification of a focus patient to identify the patient as a focus patient, the focus mark in FIG. 2 being an asterisk. For example, the patient information identification may be pressed for a long time to pop up a floating window in which the patient to which the patient information identification corresponds is set to focus on the patient.
Illustratively, after a patient is determined to be an important patient, the patient information identification of the patient may be displayed only in the important patient focus area, and the patient information identification of the patient is not displayed in the display area corresponding to each level, so as to reduce duplicate information, as shown in fig. 8; alternatively, after a patient is determined to be a priority patient, the patient information identification of the patient may be displayed in both the priority patient attention area and the patient information identification of the patient in the display area corresponding to the respective ranks. For example, the accent patient may be bound to the user's account, so that the same user may always view the patient information identification of the accent patient bound to the user's account at different times or on different devices, while the accent patient viewed by different users is different. Or, the key patient can be bound with the patient information identification, when one patient is determined to be the key patient, the patient information identification of the patient is displayed with the key attention mark when different users view the display interface, so that the patient can be ensured to be focused under any condition.
In some embodiments, the display interface further includes an information statistics area, and the processor 120 is further configured to obtain medical resource statistics information related to a plurality of patients, and control the display 130 to display the medical resource statistics information in the information statistics area, so as to macroscopically evaluate an overall nursing level of a department, a hospital, etc. or an overall status of a medical resource used by the patient, without requiring a user to manually count the medical resource, and improve a working efficiency of the user. Illustratively, the medical asset statistics include bed information including at least one of: total number of beds, number of used beds, number of available beds. The medical resource statistics may also include auxiliary device usage information or medication information for a plurality of patients, such as the number of patients using the auxiliary device, and the number of patients using a particular medication (e.g., a vasoactive medication, a sedative analgesic, etc. key medication, or a regulatory medication). The dimension of statistics may be further refined, for example, auxiliary device usage information may be further refined into usage information of invasive ventilation devices, usage information of non-invasive ventilation devices; the usage information of the ECMO device may be further refined into usage information of the vein-vein catheterization mode, usage information of the vein-artery catheterization mode, and the like. The information statistics area may display only the statistics amount, or may display specific distribution information at the same time, for example, when ECMO usage information is displayed, only the number of patients using ECMO may be displayed, or which patients or beds are currently using ECMO may be displayed at the same time.
Referring to fig. 2, the information statistics area 206 may be displayed at the bottom of the display interface or at other locations of the display interface. The information statistics area 206 of fig. 2 has shown therein the total number of beds, the number of beds available, the number of mechanically ventilated beds used, the number of vasoactive beds used, the number of ECMO beds used, the number of IABP beds used, the number of CRRT beds used, etc., and illustratively the information statistics area may be displayed or hidden according to user instructions, e.g., the information statistics area 206 of fig. 2 has shown on top an identification for hiding the information statistics area, which the user may click to hide the information statistics area 206; the bottom of the display interface of fig. 3 displays an indication for displaying the information statistics area that the user can click to display the information statistics area 206.
The information statistics area may also be used for user interaction, for example. In particular, the processor 120 may control the display 130 to highlight the patient information identification of the patient associated with the medical resource statistics in response to a selection instruction of the medical resource statistics. For example, when the user selects the number of EMCO beds to use in the information statistics area 206, the patient information identification of the patient using ECMO is highlighted in the patient status display area 210. The highlighting may be performed by visually enhancing the patient information identification in whole or in part to distinguish it from the patient information identification of a patient who does not use ECMO. For example, patient information identifiers for patients who use ECMO and patients who do not use ECMO may be distinguished by their color, size, or dynamic special effects. Alternatively, the label representing the ECMO is displayed in the patient information identification of the patient using the ECMO, so as to distinguish from the patient information identification of the patient not using the ECMO, and the label representing the ECMO may be text displayed in the patient information identification or a floating label added to the patient information identification.
In another embodiment, when the user selects a piece of medical resource statistics in the information statistics area, the processor 120 may control the display 130 to individually display patient information identifications of patients associated with the medical resource statistics in response to a selection instruction of the medical resource statistics. That is, the processor 120 screens the patient information identifications, and only the patient information identifications of the patients related to the medical resource statistics are displayed in the patient status display area 210 after the screening, but the patient information identifications of other patients are not displayed. For example, when the user selects the number of EMCO beds to use in the information statistics area 206, only the patient information identifications of patients currently using ECMO are retained in the patient status display area 210, while the patient information identifications of other patients are hidden. The patient information marks reserved in the patient state display area 210 can be displayed in a grading manner according to the level of the patient, the reserved patient information marks can be kept at the original display positions, and the positions of the hidden patient information marks are displayed as empty positions, so that the change of the positions of the patient information marks during interface switching is reduced, and the visual experience of a user is improved; alternatively, the retained patient information identifiers may be adjacent to each other or connected to each other without reserving a location for the hidden patient information identifiers, thereby facilitating the user's statistics on the different levels of retained patient information identifiers.
In one embodiment, the display interface may further comprise an overview zone 207, the processor 120 further being configured to control the display to display at the overview zone 207 an overview identification of at least two patients of different levels, the overview identification comprising identity information of the patient, and the overview identification being configured to present the level of the patient corresponding thereto. In particular, the overview section 207 may display an overview identification of all patients in order for the user to overview the overall condition of all patients. The size of the overview indicia is smaller than the size of the patient information indicia or the overview indicia displays less patient information than the patient information displayed in the patient information indicia so that the overview indicia for all patients can be displayed in the overview zone. For example, the overview identifier may only display the bed number and indicate the level of the corresponding patient by a different color. The plurality of overview identifications may be arranged in the order of the bed number. The overview area integrates the overview identifications of all patients, and displays the overview identifications in an orderly and compact display mode, so that a user can conveniently and quickly check the overview of all patients and locate the concerned patients.
Illustratively, the overview area 207 and the patient status display area 210 displaying the patient information identification are independent of each other. For example, the overview area 207 may be displayed above, below, or to one side of the patient status display area 210. Since the size of the overview indicia is smaller than the size of the patient information indicia, the area of the overview area is smaller than the area of the patient status display area. In some embodiments, the abscissa of the patient information identifier may be determined according to the location of the overview identifier, so that the patient information identifier corresponding to the same patient and the overview identifier are displayed in alignment. In this case, the plurality of patient information identifiers in the unified display area may not be adjacent or connected, for example, the plurality of patient information identifiers displayed in the overview area may be sequentially arranged in order of the bed number, wherein the patient information identifier corresponding to the bed number 1 is displayed in the first position, the patient information identifier corresponding to the bed number 2 is displayed in the second position, and so on. If the patient with the bed number 1 and the patient with the bed number 3 are at the first level and the patient with the bed number 2 is at the second level, the first position of the first display area displays the patient information identifier corresponding to the bed number 1, the third position of the first display area displays the patient information identifier corresponding to the bed number 3, and the second position of the first display area is a vacancy and does not display the patient information identifier, so that the patient information identifier displayed in the first display area is aligned with the patient information identifier of the overview area, and the user can conveniently and rapidly check and position the patient information identifier of the patient in question. For example, the user may first view the overview area 207 to see an overview of all patients, and since all patient identifications in the overview area are arranged in sequence, the user may quickly locate the overview identifications of the target patient, and then quickly locate the patient information identifications of the target patient based on the alignment between the overview identifications and the patient information identifications to see the patient details. In this embodiment, to facilitate the display of the overview indicia in alignment with the patient information indicia, the width of the overview indicia may be set to be consistent with the width of the patient information indicia, with the height being less than the height of the patient information indicia.
In some embodiments, some patients in the department may not be subject to patient status assessment for some reason, and for patients without patient status assessment results, patient information identifications including only patient identity information may also be displayed in the display interface. Specifically, an unevaluated area may be set in the display interface, dedicated to displaying patient information identifications of patients without patient status evaluation results, or patient information identifications of patients without patient status evaluation results may be displayed in a display area corresponding to the least-degree level, as shown in fig. 3, and patient information identifications of patients 3-13 and 3-22 to be scored may be displayed in a display area corresponding to the lower level (iii).
In some embodiments, memory 130 may store a plurality of patient groupings, each patient grouping including a plurality of patients; the processor 120 may control the display to display patient identifications of patients of the same patient group, i.e. the patient information identifications of the plurality of patients displayed in the display interface may be patient information identifications of patients included in the target patient group. Grouping rules may include, among other things, grouping by location (e.g., grouping by hospital, department, etc.), grouping by severity or urgency (e.g., grouping by critically ill or non-critically ill), grouping by attending physician, grouping by disease type, grouping by gender or age, grouping by time of admission, etc. The processor 120 may receive a user group selection operation to determine a target patient group and a target patient included in the target group among the at least one patient group, extract a patient information identification of the target patient, and display in the display interface. As shown in fig. 5, the user can enter the patient group related function operation through the patient group setting entry 501 to select a target patient group. Alternatively, the processor 120 may also automatically select the target patient group based on the identity of the currently logged-in user, such as automatically selecting the group of patients for which treatment is provided with the attending physician based on the identity of the currently logged-in attending physician.
The processor 120 may group the patients automatically or manually by the user. The user may also enter a patient group editing interface as shown in fig. 6 through the group settings portal 501 to edit patient groups. The patient group editing interface may edit an existing patient group or a newly created patient group. The user can click on the newly-built grouping option 601 to newly-built and save the patient groups according to clinical requirements, and at the moment, the bed numbers of all patients can be displayed in a card element mode in a certain sequence for the user to select, so that the operation mode is clear at a glance.
Patient information identifiers of a plurality of patients displayed in the display interface can also be patient information identifiers of patients establishing binding relation with the target account; patients who establish a binding relationship with the target account number may also be considered to belong to the same patient group, which is established by user identity (e.g., the same attending physician). The display displays a patient status interface corresponding to the target group or corresponding to the target account number, and patient information identifiers of target patients belonging to the target group or establishing binding relation with the target account number are displayed in the patient status interface. A hierarchical identifier may also be displayed in the patient status interface to indicate the level of the target patient.
When the patient state interface is displayed, the currently logged-in target account number requesting the display of the patient state interface can be determined, and the target patient bound with the target account number is determined, so that the patient information identification of the target patient bound with the target account number is displayed, and the information of the target patient which is focused by the person is provided for the target account number. Alternatively, the target patient belonging to the target group may be determined among a plurality of patients, and the patient status interface of the target patient belonging to the target group may be displayed when any account number requests the patient status interface to be displayed.
In some embodiments, the processor 120 is further configured to control the display 130 to display detailed information related to the target patient in response to a selection instruction for the patient information identification corresponding to the target patient. Illustratively, the detailed information includes an operation interface for displaying setting or canceling setting of a focus patient, an operation interface for adding or editing comments, information of an auxiliary device employed by the target patient to receive treatment, medication information of the target patient, and the like. As shown in fig. 7, a floating window 701 may be displayed in response to a user selection instruction for patient information identification of a target patient, and detailed information related to the target patient may be displayed in the floating window 701. The floating window 701 may also be used to display patient-related information such as information about the auxiliary equipment used by the patient to receive treatment, medication information about the patient, real-time monitoring video of the patient, and the like. It should be appreciated that the floating window is used to display information that is richer than what would otherwise be displayed within the patient information identifier, and that the above information may be displayed in any other manner known in the art in addition to the floating window.
In summary, the method 100 for displaying patient status according to the embodiment of the present invention displays patient information in a hierarchical manner based on the hierarchical rule, which can help a doctor to quickly, clearly and with emphasis on acquiring information profiles of a plurality of patients, and is particularly helpful for the doctor to visit, shift, or remotely learn about the patient profiles.
Another aspect of an embodiment of the present invention provides a method for displaying a patient status, as shown in fig. 10, a method 1000 for displaying a patient status includes:
in step S1010, patient status evaluation results of a plurality of patients and identity information of each patient are acquired;
classifying the plurality of patients according to the patient status evaluation result to classify the plurality of patients into at least a first-class patient and a second-class patient having different classes at step S1020;
the plurality of patients are displayed in a hierarchical manner on a display interface in the form of patient information identifications including at least the identity information of each patient, the hierarchical display including displaying patient information identifications of the patients corresponding to the first level in a first display area and displaying patient information identifications of the patients corresponding to the second level in a second display area at step S1030.
At least a portion of the first level of patients in the first display area are displayed in a predetermined order in the first display area and/or at least a portion of the second level of patients in the second display area are displayed in a predetermined order in the second display area. The preset sequence may be a sequence of bed numbers from small to large. The predetermined sequence may further include preferentially displaying patients whose levels have changed during the predetermined period of time; alternatively, patients with ascending levels are displayed in a concentrated manner at preset positions in the same display area, and/or patients with descending levels are displayed in a concentrated manner at preset positions in the same display area.
In one embodiment, the patient information identification includes any one of the following: the level of each patient, the patient status assessment results of each patient, the adjuvant therapy information, information characterizing changes in the level of the patient over a preset period of time, and the identity information of each patient.
In one embodiment, the display interface further comprises at least one of the following regions: an important patient area, an information statistics area, an overview area and a deadly event area. The patient information identification corresponding to the patient of interest is displayed in the patient zone of interest, and the patient of interest can be manually determined by the user. Acquiring medical resource statistics associated with a plurality of patients and displaying the medical resource statistics in an information statistics area, wherein the medical resource statistics include at least one of: bed information, auxiliary equipment usage information or medication information. At least two patient overview identifications are displayed in an overview area of the display interface, the overview identifications comprising said identity information of each patient and being used for presenting the patient level corresponding thereto.
Further, the patient information identification of the patient related to the medical resource statistics may also be highlighted in response to the selection instruction of the medical resource statistics, or separately displayed in response to the selection instruction of the medical resource statistics.
Illustratively, the overview region is independent of the region displaying the patient information identification and/or the area of the overview region is smaller than the area of the region displaying the patient information identification. Displaying the plurality of patients in a hierarchical manner on a display interface in the form of patient information identifiers, comprising: determining the ordinate of the corresponding patient information identifier according to the level of the patient; and determining the abscissa of the patient information mark according to the position of the overview mark, and enabling the patient information mark corresponding to the same patient and the overview mark to be aligned and displayed.
For more specific details of the method 1000 for displaying a patient status according to the embodiment of the present invention, reference is made to the above related description, and details thereof are not described herein.
Furthermore, according to an embodiment of the present invention, there is provided a storage medium having stored thereon program instructions for performing the respective steps of the method of displaying a patient status of an embodiment of the present invention when the program instructions are executed by a computer or processor. The storage medium may include, for example, a memory card of a smart phone, a memory component of a tablet or notebook computer, a hard disk of a desktop 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. The computer-readable storage medium may be any combination of one or more computer-readable 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 by the present invention, 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.
The foregoing description is merely illustrative of specific embodiments of the present invention and the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the scope of the present invention. The protection scope of the invention is subject to the protection scope of the claims.
Claims (47)
1. A vital information processing system, the vital information processing system comprising: a memory, a processor and a display, the vital information processing system for controlling the display to display patient status on its display interface in the form of a patient information identification, wherein the patient information identification includes at least identity information of each patient, the memory for storing an executable program, the processor for executing the executable program such that the processor performs the operations of:
Acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
according to a first rule, determining the abscissa of the patient information identification corresponding to each patient on the display interface,
according to a second rule, determining the ordinate of the patient information identification corresponding to each patient on the display interface,
wherein at least one of the first rule and the second rule includes a determination of a level of the plurality of patients;
respectively determining display positions of patient information identifiers corresponding to the plurality of patients on the display interface according to the abscissa and the ordinate, wherein the abscissa of at least one patient information identifier is variable based on the first rule and the ordinate thereof is also variable based on the second rule;
controlling the display to display patient information identifications corresponding to the plurality of patients on a display interface thereof according to the determined display position, wherein a first patient information identification of a first patient and a second patient information identification of a second patient having different levels are displayed on the display interface, and wherein,
when the ordinate of the patient information identity of one of the patients displayed on the display interface is changed, the abscissa of the patient information identity of the other patient, which is the same as the changed ordinate, is caused to change, or when the abscissa of the patient information identity of one of the patients displayed on the display interface is changed, the ordinate of the patient information identity of the other patient, which is the same as the changed abscissa, is caused to change.
2. The vital information processing system of claim 1, wherein the first rule or the second rule comprises a determination of a level of the plurality of patients, and wherein the second rule or the first rule comprises a determination of a bed number of the plurality of patients.
3. The vital information processing system of claim 1 or 2, wherein a plurality of patient information identifiers having the same abscissa or the same ordinate are displayed adjacent to each other or connected to each other on the display interface.
4. A vital information processing system, the vital information processing system comprising: a memory for storing an executable program, a processor for executing the executable program, and a display, such that the processor performs the following operations:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
grading the plurality of patients according to patient data of the plurality of patients to divide the plurality of patients into at least a first-level patient and a second-level patient with different levels;
controlling the display to display the plurality of patients in a hierarchical manner in the form of patient information identifications on a display interface thereof, wherein the patient information identifications include at least the identity information of each patient, the hierarchical display including displaying patient information identifications corresponding to the first level of patients in a first display area for displaying only the first level of patients and displaying patient information identifications corresponding to the second level of patients in a second display area for displaying only the second level of patients;
And the display position of the patient information identification of the at least one first level of patient displayed in the first display area is dynamically adjustable, and the display position of the patient information identification of the at least one second level of patient displayed in the second display area is dynamically adjustable.
5. The vital information processing system of claim 4, wherein the display location of the patient information identification of each first level of the patient displayed in the first display area is dynamically adjustable and the display location of the patient information identification of each second level of the patient displayed in the second display area is dynamically adjustable.
6. The vital information processing system of claim 5, wherein the display location of the patient information identification of one of the first level patients displayed in the first display area is dynamically adjustable based on the bed number of the one of the first level patients and the bed numbers of the other first level patients; and is also provided with
The display position of the patient information identification of one of the second-level patients displayed in the second display area is dynamically adjustable according to the bed number of the one of the second-level patients and the bed numbers of the other second-level patients.
7. The vital information processing system of claim 4, wherein the display area of the patient information identification of the at least one first level of patients displayed within the first display area is related to the number of patients of the first level;
the display area of the patient information identification of the at least one second level of patients displayed in the second display area is related to the number of patients of the second level.
8. A vital information processing system, the vital information processing system comprising: a memory, a processor and a display, the vital information processing system for controlling the display to display patient status on its display interface in the form of a patient information identification, wherein the patient information identification includes at least identity information of each patient, the memory for storing an executable program, the processor for executing the executable program such that the processor performs the operations of:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
grading the plurality of patients according to the patient data to divide the plurality of patients into at least a first-level patient and a second-level patient with different levels;
Controlling the display to display the plurality of patients in a hierarchical manner on a display interface in the form of patient information identifications, wherein the patient information identifications include at least the identity information of each patient, the hierarchical display including displaying patient information identifications corresponding to the first level of patients in a first display area for displaying only the first level of patients and displaying patient information identifications corresponding to the second level of patients in a second display area for displaying only the second level of patients;
and wherein at least a portion of the patient information identifications of the first level of patients displayed in the first display area are displayed in a first preset order in the first display area and at least a portion of the patient information identifications of the second level of patients displayed in the second display area are displayed in a second preset order in the second display area.
9. The vital information processing system of claim 8, wherein the first preset sequence and the second preset sequence each comprise: and displaying the patient information identifiers sequentially from small to large or from large to small according to the bed number of the patient.
10. The vital information processing system of claim 8, wherein the first preset sequence and/or the second preset sequence comprises:
preferentially displaying patients whose levels change within a preset time period; or,
the patients with ascending levels are displayed in a concentrated manner at preset positions in the same display area, and/or the patients with descending levels are displayed in a concentrated manner at preset positions in the same display area.
11. The vital information processing system according to any one of claims 4 to 10, wherein when the level of a patient of a certain first level is judged to be changed to the second level, the patient information identification of the patient is moved from the first display area to the second display area for display, the patient information identification of the patient of the second level originally displayed in the second display area is rearranged as needed, and when the level of the patient of a certain second level is judged to be changed to the first level, the patient information identification of the patient is moved from the second display area to the first display area for display, and the patient information identification of the patient of the first level originally displayed in the first display area is rearranged as needed.
12. The vital information processing system of claim 11, wherein when the patient's corresponding patient bed number moved from the first display area to the second display area is greater than the patient bed number corresponding to all of the second level of patients originally displayed in the second display area, the patient information identification of the patient is displayed at the end of the patient information identification of the second level of patients originally displayed in the second display area; when the patient corresponding bed number moved from the first display area to the second display area is greater than the patient bed number corresponding to a portion of the second-level patients originally displayed in the second display area and less than the patient bed number corresponding to another portion of the second-level patients originally displayed in the second display area, the patient information identification of the patient is displayed between the patient information identifications of the two portions of the second-level patients originally displayed in the second display area; and, in addition, the processing unit,
when the bed number of the patient corresponding to the patient moving from the second display area to the first display area is larger than the bed numbers of all the patients of the first level originally displayed in the first display area, the patient information identification of the patient is displayed at the last of the patient information identifications of the patients of the first level originally displayed in the first display area; when the patient corresponding bed number moved from the second display area to the first display area is greater than the bed number corresponding to a portion of the first-level patient originally displayed in the first display area and less than the bed number corresponding to another portion of the first-level patient originally displayed in the first display area, the patient information identification of the patient is displayed between the patient information identifications of the two portions of the second-level patient originally displayed in the first display area.
13. The vital information processing system of any one of claims 4 to 12, wherein the first display area is divided into a plurality of first sub-display areas, wherein each of the first sub-display areas can display patient information identifications of one or more first levels of patients, all of the first sub-display areas displaying the patient information identifications of the first levels of patients are adjacent to or connected to each other, and/or the second display area is divided into a plurality of second sub-display areas, wherein among the plurality of second sub-display areas, a plurality of second sub-display areas displaying patient information identifications corresponding to the second levels of patients are adjacent to or connected to each other.
14. The vital information processing system according to any one of claims 4 to 13, wherein an element for distinguishing the first display area from the second display area is displayed on the display interface.
15. The vital information processing system of any one of claims 4 to 14, wherein the first display area or the second display area is a fixed area in the display interface and is of constant area.
16. The vital information processing system of any one of claims 4 to 15, wherein an area of the plurality of patient information identifiers displayed in the first display area or the second display area is dynamically adjustable based on a number of patient information identifiers displayed in the first display area or the second display area.
17. The vital information processing system of any of claims 4 to 16, wherein patient information identifiers corresponding to a third level of patients are also displayed on the display interface, the patient crisis level of the first level of patients, the second level of patients, and the third level of patients being respectively high, medium, and low, wherein the first level of patients is more prominently displayed on the display interface than the second level of patients and the third level of patients.
18. The vital information processing system of any one of claims 1 to 17, wherein the patient information identification includes any one of: the level of each patient, the patient status assessment of each patient, adjuvant therapy information, information characterizing changes in the level of the patient over a preset period of time, or the identity information of each patient.
19. The vital information processing system of any of claims 1-18, wherein the patient data further comprises data for determining a level of the plurality of patients, the data for determining a level of the plurality of patients comprising at least one of vital sign data, test data, examination data, and condition data, or the data for determining a level of the plurality of patients comprising a patient status assessment result.
20. The vital information processing system of claim 19, wherein the vital sign data includes at least one of an electrocardiograph, a blood pressure, a pulse, an blood oxygen, a respiration, a body temperature, a heart displacement, carbon dioxide, motion data, video data, a respiratory mechanics parameter, a hemodynamic parameter, an oxygen metabolism parameter, an electroencephalogram parameter, a double frequency index, and a microcirculation parameter;
the disease data comprises at least one of basic information of a patient, disease diagnosis data, treatment data, nursing data and electronic medical record data;
the test data comprises at least one of blood routine test data, liver function test data, kidney function test data, thyroid test data, urine test data, immunity test data, blood coagulation test data, blood gas test data, stool routine test data and tumor marker test data;
The inspection data comprises at least one of DR image data, CT image data, MRI image data, PET image data, ultrasonic image data, scale data and physical examination data;
the patient state assessment results include at least one of cardiopulmonary state grading assessment results, SOFA scores, NEWS scores, user-entered scores.
21. The vital information processing system of claim 19, wherein the patient state assessment results comprise an assessment result of physiological system states of the plurality of patients.
22. The vital information processing system of claim 21, wherein the physiological system comprises at least one of: circulatory system, respiratory system, nervous system.
23. The vital information processing system of claim 20, wherein the patient status assessment result further comprises at least one of: the evaluation results of the overall states of the plurality of patients, the evaluation results of the states of the organs of the plurality of patients, the evaluation results of the states of the physiological parts of the plurality of patients and the evaluation results of the states of the tissues of the plurality of patients.
24. The vital information processing system of any one of claims 1 to 23, wherein the display interface further comprises an emphasized patient region of interest, the processor further configured to: and determining a key patient in the plurality of patients, and displaying patient information identification corresponding to the key patient in the focus patient attention area.
25. The vital information processing system of any one of claims 1 to 24, wherein the display interface further comprises a deadly event field, the processor further configured to obtain a deadly event for the patient, and wherein the deadly event field displays an identification representing the deadly event and identity information of the patient associated with the deadly event.
26. The vital information processing system of any one of claims 1 to 24, wherein the display interface further comprises an information statistics area, the processor further configured to obtain medical resource statistics associated with the plurality of patients and to control the display to display the medical resource statistics in the information statistics area.
27. The vital information processing system of claim 26, wherein the medical resource statistics include at least one of: bed information, auxiliary equipment usage information or medication information.
28. The vital information processing system of claim 26 or 27, wherein the processor is further configured to:
in response to a selection instruction of the medical resource statistical information, controlling the display to highlight a patient information identification of a patient related to the medical resource statistical information, or,
And controlling the display to independently display patient information identification of a patient related to the medical resource statistical information in response to a selection instruction of the medical resource statistical information.
29. The vital information processing system of any one of claims 1 to 28, wherein the processor is further configured to: and controlling the display to display detailed information related to the target patient in response to a selection instruction of the patient information identification corresponding to the target patient.
30. The vital information processing system of claim 29, wherein the detailed information includes at least one of: an operation interface for displaying or canceling the setting of the focus patient, an operation interface for adding or editing comments, information of auxiliary equipment employed by the target patient to receive the treatment, and medication information of the target patient.
31. The vital information processing system of any one of claims 1 to 30, wherein the plurality of patients belong to the same target patient group, the processor further being configured to: a user group selection operation is received to determine the target patient group among at least one patient group and to determine patients included in the target patient group.
32. The vital information processing system of any one of claims 1 to 31, wherein the processor is further configured to:
and controlling the display to display the patient information identifiers corresponding to the patients with different levels in a distinguishing mode.
33. The vital information processing system of claim 32, wherein the distinguishing display of the patient information identifiers corresponding to different levels of patients comprises:
the patient information identification of the first level of patients is displayed with a more prominent color than the patient information identification of the second level of patients, wherein the first level is more critical than the second level.
34. The vital information processing system of any one of claims 1 to 33, wherein the identity information includes any one of: bed number, name, age, or patient ID.
35. The vital information processing system of any one of claims 1 to 34, wherein the display interface further comprises an overview region, the processor further configured to: displaying at least two patient overview identifications with different levels in the overview area, wherein the overview identifications comprise the identity information of the patients, and the overview identifications are used for presenting the levels of the patients corresponding to the overview identifications.
36. The vital information processing system of claim 35, wherein the overview region and the region displaying the patient information identification are independent of each other and/or the overview region has an area that is smaller than an area of the region displaying the patient information identification.
37. A method of displaying a patient condition, the method comprising:
acquiring patient data of a plurality of patients, wherein the patient data at least comprises identity information of the plurality of patients;
grading the plurality of patients according to the patient data to divide the plurality of patients into at least a first-level patient and a second-level patient with different levels;
the plurality of patients are displayed in a hierarchical manner on a display interface in the form of patient information identifications, wherein the patient information identifications include at least the identity information of each patient, the hierarchical display includes displaying patient information identifications of patients corresponding to the first level in a first display area, and displaying patient information identifications of patients corresponding to the second level in a second display area.
38. The method of claim 37, wherein at least a portion of the first level of patients in the first display area are displayed in a pre-set order within the first display area and/or at least a portion of the second level of patients in the second display area are displayed in a pre-set order within the second display area.
39. The method according to claim 37 or 38, characterized in that the method further comprises:
acquiring a deadly event of the patient, and displaying an identification representing the deadly event and identity information of the patient related to the deadly event in a deadly event area of the display interface.
40. The method of any one of claims 37 to 39, wherein the patient information identification comprises any one of: the level of each patient, the patient status assessment of each patient, the adjuvant therapy information, the information characterizing the change in the level of the patient over a preset period of time, or the identity information of each patient.
41. The method of any one of claims 37 to 40, further comprising:
and determining a key patient in the plurality of patients, and displaying patient information identification corresponding to the key patient in a key patient area of the display interface.
42. The method of any one of claims 37 to 41, further comprising:
medical resource statistical information related to the plurality of patients is acquired, and the medical resource statistical information is displayed in an information statistical area of the display interface.
43. The method of claim 42, wherein the medical resource statistics include at least one of: bed information, auxiliary equipment usage information or medication information.
44. The method of claim 43, further comprising:
in response to a selection instruction for the medical resource statistics, highlighting patient information identification of a patient associated with the medical resource statistics, or,
and in response to the selection instruction of the medical resource statistical information, singly displaying patient information identification of the patient related to the medical resource statistical information.
45. The method of any one of claims 37 to 44, further comprising: displaying an overview identifier of at least two patients in an overview area of the display interface, wherein the overview identifier comprises the identity information of each patient, and the overview identifier is used for presenting the level of the patient corresponding to the overview identifier.
46. The method of claim 45, wherein the overview zone and the area displaying the patient information identification are independent of each other and/or the area of the overview zone is smaller than the area of the area displaying the patient information identification.
47. The method of claim 45 or 46, wherein the step displaying the plurality of patients on a display interface in the form of patient information identifiers comprises:
determining the ordinate of the corresponding patient information identifier according to the level of the patient;
and determining the abscissa of the patient information mark according to the position of the overview mark, and enabling the patient information mark and the overview mark corresponding to the same patient to be aligned and displayed.
Applications Claiming Priority (6)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202210970385 | 2022-08-12 | ||
| CN2022109703774 | 2022-08-12 | ||
| CN2022109703859 | 2022-08-12 | ||
| CN202210970377 | 2022-08-12 | ||
| CN2022144266 | 2022-12-30 | ||
| CNPCT/CN2022/144266 | 2022-12-30 |
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| Publication Number | Publication Date |
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| CN117594217A true CN117594217A (en) | 2024-02-23 |
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| CN202310802000.2A Pending CN117594217A (en) | 2022-08-12 | 2023-06-30 | Method for displaying patient status and vital information processing system |
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