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CN112951397B - Perioperative process management system and method - Google Patents

Perioperative process management system and method Download PDF

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Publication number
CN112951397B
CN112951397B CN202110330214.5A CN202110330214A CN112951397B CN 112951397 B CN112951397 B CN 112951397B CN 202110330214 A CN202110330214 A CN 202110330214A CN 112951397 B CN112951397 B CN 112951397B
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flow
scheme
user
identifier
stage
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CN112951397A (en
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何佳松
李上奖
吴曙泽
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Shenzhen Comen Medical Instruments Co Ltd
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Shenzhen Comen Medical Instruments Co Ltd
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Priority to PCT/CN2021/092454 priority patent/WO2022205562A1/en
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    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H40/00ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
    • G16H40/20ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the management or administration of healthcare resources or facilities, e.g. managing hospital staff or surgery rooms
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0484Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
    • G06F3/04845Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range for image manipulation, e.g. dragging, rotation, expansion or change of colour
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/30Computing systems specially adapted for manufacturing

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  • Health & Medical Sciences (AREA)
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  • Medical Informatics (AREA)
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Abstract

The method comprises the steps of generating at least one flow scheme and at least one type of first identifier for describing the attribute of each flow scheme according to an operation instruction input by a user, wherein the flow scheme comprises at least one flow stage for representing each stage in the perioperative period, and the attribute of the flow scheme at least comprises a service type corresponding to the flow scheme; receiving flow request information sent by a flow request terminal; analyzing the flow request information to obtain at least one type of second identifier for describing the attribute of the requested flow scheme in the flow request information; matching the obtained at least one type of second identifiers with the first identifiers, and determining a specific identifier matched with the second identifiers in the at least one type of first identifiers; and sending the flow scheme corresponding to the specific identifier to a flow request end so as to enable a user to select a required flow scheme. The flow management method can effectively provide flow schemes suitable for various operations.

Description

Perioperative process management system and method
Technical Field
The invention relates to the technical field of medical operations, in particular to a flow management system in a perioperative period and a flow management method in the perioperative period.
Background
The perioperative phase is a whole process surrounding the operation, starting from the patient's decision to receive surgical treatment, and proceeding to the surgical treatment until substantial recovery, which includes a period of time before, during and after the operation. The surgical procedures included in the perioperative period of different operations are not completely the same, a doctor usually completes a surgical document according to the surgical procedures, for example, the surgical document to be completed in an anesthesia stage can comprise an anesthesia record sheet, a surgical check sheet, a surgical doctor order sheet and the like, a nurse can carry out scheduling according to the operation stage, application of surgical resources and the like, and it is very important to provide a surgical procedure scheme matched with the operation for medical staff before the operation, and the surgical procedure scheme has guiding significance for the operation of the medical staff in the perioperative period.
At present, due to the complexity of operation business, an operation flow template provided for medical staff is universal, so that the operation flow template cannot be well matched with different operations, and the requirements of the medical staff cannot be met.
Disclosure of Invention
According to a first aspect, in one embodiment, a method for managing a perioperative procedure is provided, including:
Generating at least one flow scheme and at least one type of first identifier for describing the attributes of each flow scheme according to an operation instruction input by a user, wherein the flow scheme comprises at least one flow stage for representing each stage in the perioperative period, and the attributes of the flow scheme at least comprise service types corresponding to the flow scheme;
Receiving flow request information sent by a flow request terminal;
Analyzing the flow request information to obtain at least one type of second identifier for describing the attribute of the requested flow scheme in the flow request information;
matching the obtained at least one type of second identifiers with the first identifiers, and determining a specific identifier matched with the second identifiers in the at least one type of first identifiers;
and sending the flow scheme corresponding to the specific identifier to a flow request end so as to enable a user to select a required flow scheme.
According to a second aspect, in one embodiment there is provided a perioperative procedure management system comprising:
The scheme generating unit is used for generating at least one flow scheme and at least one type of first identifier for describing the attribute of each flow scheme according to an operation instruction input by a user, wherein the flow scheme comprises at least one flow stage for representing each stage in the perioperative period, and the attribute of the flow scheme at least comprises a service type corresponding to the flow scheme;
The information analysis unit is used for analyzing the flow request information sent by the flow request end and acquiring at least one type of second identifiers used for describing the attribute of the requested flow scheme in the flow request information;
The data matching unit is used for matching the obtained at least one type of second identifier with the first identifier, determining a specific identifier matched with the second identifier in the at least one type of first identifier, and acquiring a flow scheme corresponding to the specific identifier;
the communication unit is used for receiving an operation instruction input by a user and flow request information sent by a flow request end, and sending a flow scheme corresponding to the specific identifier to the flow request end so as to enable the user to select a required flow scheme.
According to a third aspect, an embodiment provides a computer readable storage medium having stored thereon a program executable by a processor to implement a method as described in the first aspect.
In the embodiment, a plurality of sets of flow schemes are prepared for complex operation business in advance, various business scenes can be well adapted, attributes are added to the flow schemes, the flow schemes are classified in various ways when the flow schemes are created, the flow schemes with the requested attributes can be provided for a flow request terminal, and the requirements of medical staff are met more efficiently and accurately.
Drawings
FIG. 1 is a schematic diagram of a perioperative procedure management system of one embodiment;
FIG. 2 is a schematic diagram of a flow scheme of an embodiment;
FIG. 3 is a schematic diagram of a flow scheme received by a flow request terminal according to an embodiment;
FIG. 4 is a schematic diagram of a configuration flow scheme of an embodiment;
FIG. 5 is a schematic diagram of corresponding document information of a process stage in a process scheme according to an embodiment;
FIG. 6 is a flow chart of a method of perioperative flow management of an embodiment.
Detailed Description
The application will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present application have not been shown or described in the specification in order to avoid obscuring the core portions of the present application, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.
Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.
The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated.
Referring to fig. 1, the present embodiment provides a perioperative flow management system 10, which includes a scheme generating unit 11, an information analyzing unit 12, a data matching unit 13 and a communication unit 14, wherein the flow management system 10 may be installed on a central station of a hospital or a workstation of a department, or stored as a program in a memory for execution by a processor. The description will be given taking the example in which the flow management system 10 is installed in a workstation.
The solution generating unit 11 is configured to generate at least one flow solution and at least one type of first identifier for describing attributes of each flow solution according to an operation instruction input by a user, where one flow solution corresponds to one operation flow, and the attributes of the flow solution at least include a service type corresponding to the flow solution, in this embodiment, one service type corresponds to a service scenario of one operation, and the service type may include, but is not limited to, painless, emergency treatment, intubation, surgery, and resuscitation. In addition to the business type, other surgical information may also be included as an attribute of the flow scheme, for example, surgical information that may be included as an attribute of the flow scheme includes, but is not limited to, surgical instruments, surgical devices, surgical consumables, anesthesia methods, and anesthesia medications. The first identifier used to describe the attribute may be a keyword or field stored in the system, and if a flow scheme has the keyword, this means that the flow scheme has the attribute corresponding to the keyword, for example, the keyword used as the first identifier is "gastroscope", which is included in the surgical instrument used for the operation. In this embodiment, fig. 2 is a flow scheme generated by the scheme generating unit 11, where the flow scheme includes a plurality of flow stages for characterizing each stage in the perioperative period, the plurality of flow stages may be sequentially arranged, and the arrangement order of the flow stages may be used to characterize the execution order of each surgical stage in the perioperative period.
The information parsing unit 12 is configured to parse the flow request information sent by the flow request terminal 20, and obtain at least one type of second identifier used for describing the attribute of the requested flow scheme in the flow request information. The flow request terminal 20 may be a nurse workstation or an anesthesia workstation of the same hospital or department, and after the patient information is entered into the nurse workstation, if the patient needs to perform an operation, the nurse may send flow request information, such as an input operation name, an operation instrument expected to be used for the operation, etc., to the flow management system 10 through the nurse workstation, and the second identifier, which may be similar to the first identifier, may be a keyword or a field.
The data matching unit 13 is configured to match the obtained at least one type of second identifier with the first identifier, determine a specific identifier matched with the second identifier in the at least one type of first identifier, and obtain a flow scheme corresponding to the specific identifier. For example, the keyword acquired as the second identifier includes "painless" and "gastroscope", and the data matching unit 13 acquires the flow schemes whose attributes include "painless" and "gastroscope" from among the flow schemes based on the matching of the second identifier and the first identifier.
The communication unit 14 is configured to receive an operation instruction input by a user and flow request information sent by the flow request end 20, and send a flow scheme corresponding to the specific identifier to the flow request end 20, for example, as shown in fig. 3, where the flow request end 20 receives two flow schemes. The user may input an operation instruction by using a man-machine interaction device, including but not limited to a keyboard, a mouse, or other intelligent terminal devices.
In the above embodiment, a plurality of sets of flow schemes are prepared in advance for complex operation business, various business scenes can be well adapted, attributes are added to the flow schemes, the flow schemes are classified in various ways when the flow schemes are created, and the flow request terminal 20 can request the flow schemes with the corresponding attributes, so that the demands of medical staff are met more efficiently and accurately.
In some embodiments, the scheme generating unit 11 generates the flow scheme as shown in fig. 2 in the following manner:
At first, at least some of the different process phases are associated with different first identifiers in advance, as shown in fig. 4, at least one display module 30 for characterizing the process phases is displayed in a display area of a display connected to a server of the workstation, the display modules 30 are in one-to-one correspondence with the process phases, the display modules 30 function to provide the user with different process phases for selection, and at least some of the display modules 30 are associated with the first identifiers because at least some of the process phases are associated with different first identifiers.
Then, according to the name creation instruction input by the user, a flow name corresponding to the service type of the created flow scheme and a first identifier for describing the flow name are generated, for example, clicking on "new scheme" in fig. 4 may create a new scheme, then, the flow name is input, and in the process of inputting the flow name, the flow management system 10 extracts a character before "flow scheme" in the name as the first identifier, that is, "resuscitation" in "resuscitation flow scheme" as the first identifier, so that the first identifier describing the service type is generated when the flow name is created.
Then, according to the selection instruction input by the user for the process stages, determining at least one process stage included in the created process scheme and the arrangement sequence among the different flow Cheng Jie stages, wherein the arrangement sequence among the different flow Cheng Jie stages is used for representing the execution sequence of each stage in the perioperative period, specifically, in this embodiment, based on the selection instruction input by the user for the display module 30, the display module 30 selected by the user and the selection sequence for the display module 30 are determined, according to the display module 30 selected by the user, at least one process stage included in the created process scheme is determined, and according to the selection sequence of the user for the display module 30, the arrangement sequence among the different flow Cheng Jie stages in the created process scheme is determined. For example, after the user inputs a selection instruction for a corresponding process stage by clicking the display module 30 and creates a resuscitation process scheme, the user clicks the upper "enter resuscitation room", "anesthesia end", "analgesia start", "analgesia end", "exit resuscitation room" and "document inspection" display module 30 in sequence, and the process scheme includes process stages corresponding to the display modules 30 arranged in sequence, and finally can click for storage to complete the creation of a process scheme. The first identifier corresponding to the flow scheme includes the first identifier corresponding to the flow name and the first identifier associated with each flow stage included in the flow scheme, for example, the anesthesia start stage and the analgesia start stage each have an associated first identifier, so in creating the "resuscitation flow scheme", after the user clicks the "anesthesia start" and the "analgesia start" display module 30, the "resuscitation flow scheme" has an anesthesia start stage and an analgesia start stage, and the "resuscitation flow scheme" also has an associated first identifier of the anesthesia start stage and the analgesia start stage.
By associating the flow stage with the first identifier, the possible attributes of each flow scheme are modularized, and the user selects the corresponding attribute while selecting the flow stage, so that the attribute of the flow scheme is automatically added when the flow scheme is configured. The workload in the process scheme configuration is reduced, and the experience requirement on the user is lower in the process scheme configuration.
It should be noted that, the above-mentioned ways of inputting the selection instruction for the corresponding flow stage include not only clicking, dragging, frame selecting, and other ways, which are all feasible ways of inputting the selection instruction.
In some embodiments, after determining the display module 30 selected by the user and the selection order of the display modules 30, the display modules 30 selected by the user are displayed in the order of selection to generate the display module set 40 for characterizing the created flow scheme, for example, in fig. 4, each display module 30 in the "resuscitation flow scheme" is sequentially connected by a dashed arrow, so as to form the display module set 40. Based on the adjustment instruction input by the user for the display module set 40, the combination of the display modules 30 in the display module set 40 is adjusted so that the process phases and the first identifiers corresponding to the created process scheme included in the created process scheme are changed in association, specifically, the display modules 30 may be added to the display module set 40 based on the addition module instruction input by the user for the display module set 40, so that the process phases and the first identifiers corresponding to the added display modules 30 in the created process scheme are added, or the display modules 30 may be deleted from the display module set 40 based on the deletion module instruction input by the user for the display module set 40, so that the process phases and the first identifiers corresponding to the deleted display modules 30 in the created process scheme are reduced, in some embodiments, the addition module instruction may be input by dragging the display modules 30 from the display module set 40 to a preset area, for example, the display modules 30 in the "start" and "analgesic end" are dragged to the display module set 40 in the cannula scheme (drag to the "end" display module 30 to the "end" analgesic end "and the analgesic process) are also dragged to the first identifiers corresponding to the first analgesic process phases in the cannula process steps.
The configuration mode of the flow stage is flexible and good in expansibility, a user can customize a new flow stage and associate the new flow stage with the first identifier, so that the flow scheme can be conveniently expanded, and the attribute of the flow scheme can be changed or expanded accordingly.
In some embodiments, each process stage may be associated with at least one document information in advance, where the document information includes different types of documents that need to be filled in by the associated process stage, and the process scheme corresponding to the specific identifier is sent to the process request end 20, and at the same time, the document information is also sent to the process request end 20, for example, as shown in fig. 5, the document information corresponding to the process stage may be seen, and similar to the first identifier, when adding and deleting the process stage in one process scheme, the document information corresponding to the process stage is also added to or deleted from the process scheme.
The invention also provides a procedure management method in the perioperative period, as shown in fig. 6, comprising the following steps:
step 100, generating at least one flow scheme and at least one type of first identifier for describing the attribute of each flow scheme according to an operation instruction input by a user.
A procedure scheme corresponds to a surgical procedure, and the attribute of the procedure scheme at least includes a service type corresponding to the procedure scheme, in this embodiment, a service type corresponds to a service scenario of a surgery, and the service type may include, but is not limited to, painless, emergency treatment, intubation, surgery, and resuscitation. In addition to the business type, other surgical information may also be included as an attribute of the flow scheme, for example, surgical information that may be included as an attribute of the flow scheme includes, but is not limited to, surgical instruments, surgical devices, surgical consumables, anesthesia methods, and anesthesia medications. The first identifier used to describe the attribute may be a keyword or field stored in the system, and if a flow scheme has the keyword, this means that the flow scheme has the attribute corresponding to the keyword, for example, the keyword used as the first identifier is "gastroscope", which is included in the surgical instrument used for the operation. In this embodiment, fig. 2 is a flow scheme, where the flow scheme includes a plurality of flow phases for characterizing each phase in the perioperative period, the plurality of flow phases may be sequentially arranged, and an arrangement sequence of the flow phases may be used to characterize an execution sequence of each surgical phase in the perioperative period.
In some embodiments, the flow scheme shown in FIG. 2 is generated as follows:
As shown in fig. 4, at least some of the different process stages are first associated with different first identifiers, at least one display module 30 for characterizing the process stages is displayed in the display area, the display modules 30 are in one-to-one correspondence with the process stages, the display modules 30 function to provide the user with the different process stages for selection, and at least some of the display modules 30 are also associated with the first identifiers because at least some of the process stages are associated with different first identifiers.
Then, according to a name creation instruction input by a user, a flow name corresponding to the service type of the created flow scheme and a first identifier for describing the flow name are generated, for example, clicking on "new scheme" in fig. 4 can create a new scheme, then, the flow name is input, and in the process of inputting the flow name, a character before "flow scheme" in the name is extracted as the first identifier, that is, "resuscitation" in "resuscitation flow scheme" is used as the first identifier, so that the first identifier for describing the service type is generated when the flow name is created.
Then, according to the selection instruction input by the user for the process stages, determining at least one process stage included in the created process scheme and the arrangement sequence among the different flow Cheng Jie stages, wherein the arrangement sequence among the different flow Cheng Jie stages is used for representing the execution sequence of each stage in the perioperative period, specifically, in this embodiment, based on the selection instruction input by the user for the display module 30, the display module 30 selected by the user and the selection sequence for the display module 30 are determined, according to the display module 30 selected by the user, at least one process stage included in the created process scheme is determined, and according to the selection sequence of the user for the display module 30, the arrangement sequence among the different flow Cheng Jie stages in the created process scheme is determined. For example, after the user inputs a selection instruction for a corresponding process stage by clicking the display module 30 and creates a resuscitation process scheme, the user clicks the upper "enter resuscitation room", "anesthesia end", "analgesia start", "analgesia end", "exit resuscitation room" and "document inspection" display module 30 in sequence, and the process scheme includes process stages corresponding to the display modules 30 arranged in sequence, and finally can click for storage to complete the creation of a process scheme. The first identifier corresponding to the flow scheme includes the first identifier corresponding to the flow name and the first identifier associated with each flow stage included in the flow scheme, for example, the anesthesia start stage and the analgesia start stage each have an associated first identifier, so in creating the "resuscitation flow scheme", after the user clicks the "anesthesia start" and the "analgesia start" display module 30, the "resuscitation flow scheme" has an anesthesia start stage and an analgesia start stage, and the "resuscitation flow scheme" also has an associated first identifier of the anesthesia start stage and the analgesia start stage.
By associating the flow stage with the first identifier, the possible attributes of each flow scheme are modularized, and the user selects the corresponding attribute while selecting the flow stage, so that the attribute of the flow scheme is automatically added when the flow scheme is configured. The workload in the process scheme configuration is reduced, and the experience requirement on the user is lower in the process scheme configuration.
It should be noted that, the above-mentioned ways of inputting the selection instruction for the corresponding flow stage include not only clicking, dragging, frame selecting, and other ways, which are all feasible ways of inputting the selection instruction.
In some embodiments, after determining the display module 30 selected by the user and the selection order of the display modules 30, the display modules 30 selected by the user are displayed in the order of selection to generate the display module set 40 for characterizing the created flow scheme, for example, in fig. 4, each display module 30 in the "resuscitation flow scheme" is sequentially connected by a dashed arrow, so as to form the display module set 40. Based on the adjustment instruction input by the user for the display module set 40, the combination of the display modules 30 in the display module set 40 is adjusted so that the process phases and the first identifiers corresponding to the created process scheme included in the created process scheme are changed in association, specifically, the display modules 30 may be added to the display module set 40 based on the addition module instruction input by the user for the display module set 40, so that the process phases and the first identifiers corresponding to the added display modules 30 in the created process scheme are added, or the display modules 30 may be deleted from the display module set 40 based on the deletion module instruction input by the user for the display module set 40, so that the process phases and the first identifiers corresponding to the deleted display modules 30 in the created process scheme are reduced, in some embodiments, the addition module instruction may be input by dragging the display modules 30 from the display module set 40 to a preset area, for example, the display modules 30 in the "start" and "analgesic end" are dragged to the display module set 40 in the cannula scheme (drag to the "end" display module 30 to the "end" analgesic end "and the analgesic process) are also dragged to the first identifiers corresponding to the first analgesic process phases in the cannula process steps.
The configuration mode of the flow stage is flexible and good in expansibility, a user can customize a new flow stage and associate the new flow stage with the first identifier, so that the flow scheme can be conveniently expanded, and the attribute of the flow scheme can be changed or expanded accordingly.
Step 200, receiving the flow request information sent by the flow request terminal 20.
The procedure request terminal 20 may be a nurse workstation or an anesthesia workstation of the same hospital or department, and after the patient information is entered into the nurse workstation, if the patient needs to perform an operation, the nurse may send procedure request information, such as an input operation name, an operation instrument for which the operation is expected to be used, etc., through the nurse workstation.
And 300, analyzing the flow request information to obtain at least one type of second identifier for describing the attribute of the requested flow scheme in the flow request information. The second identifier, similar to the first identifier, may be a key or field.
Step 400, matching the obtained at least one type of second identifier with the first identifier, and determining a specific identifier matched with the second identifier in the at least one type of first identifier.
For example, the keyword obtained as the second identifier includes "painless" and "gastroscope", and the attribute includes "painless" and "gastroscope" among the flow schemes obtained based on the matching of the second identifier and the first identifier.
Step 500, the flow scheme corresponding to the specific identifier is sent to the flow request end 20, so that the user can select a desired flow scheme. For example, as shown in fig. 3, the flow request 20 receives two flow schemes.
In some embodiments, each process stage may be associated with at least one document information in advance, where the document information includes different types of documents that need to be filled in by the associated process stage, and the process scheme corresponding to the specific identifier is sent to the process request end 20, and at the same time, the document information is also sent to the process request end 20, for example, as shown in fig. 5, the document information corresponding to the process stage may be seen, and similar to the first identifier, when adding and deleting the process stage in one process scheme, the document information corresponding to the process stage is also added to or deleted from the process scheme.
In the embodiment, a plurality of sets of flow schemes are prepared for complex operation business in advance, various business scenes can be well adapted, attributes are attached to flow stages forming the flow schemes, the attributes are automatically attached to the flow stages when the flow schemes are created, the flow schemes can be flexibly edited or expanded by taking the flow stages as units, and the requirements of medical staff are met more efficiently and accurately.
Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by a computer program. When all or part of the functions in the above embodiments are implemented by means of a computer program, the program may be stored in a computer readable storage medium, and the storage medium may include: read-only memory, random access memory, magnetic disk, optical disk, hard disk, etc., and the program is executed by a computer to realize the above-mentioned functions. For example, the program is stored in the memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above can be realized. In addition, when all or part of the functions in the above embodiments are implemented by means of a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and the program in the above embodiments may be implemented by downloading or copying the program into a memory of a local device or updating a version of a system of the local device, and when the program in the memory is executed by a processor.
The foregoing description of the invention has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the invention pertains, based on the idea of the invention.

Claims (8)

1. A method of perioperative procedure management, comprising:
Providing different preset process stages for the user to select;
generating at least one flow scheme and at least one type of first identifier for describing the attribute of each flow scheme according to an operation instruction input by a user, wherein the flow scheme comprises at least one flow stage for representing each stage in the perioperative period, and the attribute of the flow scheme at least comprises flow request information sent by a flow request terminal and received by a business type corresponding to the flow scheme; wherein, the generating at least one flow scheme according to the operation instruction input by the user includes:
At least part of the different process stages are associated with different first identifiers in advance;
Generating a flow name corresponding to the service type of the created flow scheme and a first identifier for describing the flow name according to a name creation instruction input by a user;
Determining at least one flow stage and the arrangement sequence among the sections of different streams Cheng Jie, wherein the arrangement sequence among the sections of different streams Cheng Jie is used for representing the execution sequence of each stage in the perioperative period according to a selection instruction input by a user aiming at the flow stage;
determining at least one type of first identifier for describing the attribute of the created flow scheme according to the flow name of the created flow scheme and at least one flow stage included in the created flow scheme;
Analyzing the flow request information to obtain at least one type of second identifier for describing the attribute of the requested flow scheme in the flow request information;
matching the obtained at least one type of second identifiers with the first identifiers, and determining a specific identifier matched with the second identifiers in the at least one type of first identifiers;
and sending the flow scheme corresponding to the specific identifier to a flow request end so as to enable a user to select a required flow scheme.
2. The method of claim 1, wherein providing the user with different stages of the procedure for selection by the user comprises: displaying at least one display module for representing the process stages in a display area, wherein the display modules are in one-to-one correspondence with the process stages;
according to a selection instruction input by a user for a flow stage, determining an arrangement sequence of at least one flow stage and different flow Cheng Jie stages included in the created flow scheme comprises:
Determining a display module selected by a user and a selection sequence of the display module based on a selection instruction input by the user for the display module;
determining at least one flow stage included in the created flow scheme according to the display module selected by the user;
And determining the arrangement sequence among the sections Cheng Jie of different streams in the created flow scheme according to the selection sequence of the display module by the user.
3. The method of claim 2, wherein after determining the display module selected by the user and the selection order of the display modules, further comprising:
Displaying the display modules selected by the user according to the selection sequence, so as to generate a display module set for representing the created flow scheme;
based on an adjustment instruction input by a user for the display module set, the combination of the display modules in the display module set is adjusted, so that the association between the process stage included in the created process scheme and the first identifier corresponding to the created process scheme is changed.
4. The method of claim 3, wherein the adjusting the combination of the display modules in the set of display modules based on the adjustment instruction input by the user for the set of display modules causes a change in association between the process stage included in the created process recipe and the first identifier corresponding to the created process recipe, comprising:
Based on an add module instruction input by a user for the display module set, adding display modules to the display module set, so that a flow stage corresponding to the added display module and a first identifier associated with the flow stage are added in the created flow scheme; or alternatively
Based on a deleting module instruction input by a user for the display module set, deleting the display modules from the display module set, so that flow stages corresponding to the deleted display modules and associated first identifiers thereof are reduced in the created flow scheme.
5. The method of claim 1, wherein the method further comprises:
the process stage is associated with at least one piece of document information in advance, and the document information comprises different types of documents which need to be filled in the associated process stage;
the process scheme corresponding to the specific identifier is sent to a process request end, and the method further comprises the following steps:
And sending the document information corresponding to each flow stage in the flow scheme corresponding to the specific identifier to a flow request end.
6. The method of claim 1, wherein the types of services include at least painless, emergency, intubation, surgery, and resuscitation;
The attributes of the process stage further include surgical information including at least surgical instruments, surgical equipment, surgical consumables, anesthesia methods, and anesthesia medications.
7. A perioperative procedure management system, comprising:
The scheme generating unit is configured to generate at least one flow scheme and at least one type of first identifier for describing attributes of each flow scheme according to an operation instruction input by a user, where the flow scheme includes at least one flow stage for characterizing each stage in the perioperative period, and the attributes of the flow scheme at least include a service type corresponding to the flow scheme, where generating at least one flow scheme according to the operation instruction input by the user includes:
At least part of the different process stages are associated with different first identifiers in advance;
Generating a flow name corresponding to the service type of the created flow scheme and a first identifier for describing the flow name according to a name creation instruction input by a user;
providing different process stages for the user to select;
Determining at least one flow stage and the arrangement sequence among the sections of different streams Cheng Jie, wherein the arrangement sequence among the sections of different streams Cheng Jie is used for representing the execution sequence of each stage in the perioperative period according to a selection instruction input by a user aiming at the flow stage;
determining at least one type of first identifier for describing the attribute of the created flow scheme according to the flow name of the created flow scheme and at least one flow stage included in the created flow scheme;
The information analysis unit is used for analyzing the flow request information sent by the flow request end and acquiring at least one type of second identifiers used for describing the attribute of the requested flow scheme in the flow request information;
The data matching unit is used for matching the obtained at least one type of second identifier with the first identifier, determining a specific identifier matched with the second identifier in the at least one type of first identifier, and acquiring a flow scheme corresponding to the specific identifier;
the communication unit is used for receiving an operation instruction input by a user and flow request information sent by a flow request end, and sending a flow scheme corresponding to the specific identifier to the flow request end so as to enable the user to select a required flow scheme.
8. A computer readable storage medium, characterized in that the medium has stored thereon a program, which is executable by a processor to implement the method of any of claims 1-6.
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