CN112951397A - Perioperative period process management system and method - Google Patents

Abstract

A perioperative procedure management method and a perioperative procedure management system are provided, the method comprises generating at least one procedure scheme and at least one type of first identifier for describing the attribute of each procedure scheme according to an operation instruction input by a user, wherein the procedure scheme comprises at least one procedure stage for representing each stage in the perioperative procedure, and the attribute of the procedure scheme at least comprises a service type corresponding to the procedure scheme; receiving flow request information sent by a flow request end; analyzing the process request information to obtain at least one type of second identifier used for describing the attribute of the requested process scheme in the process request information; 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; and sending the flow scheme corresponding to the specific identifier to a flow request end so that a user can select a required flow scheme. The process management method can effectively provide a process scheme suitable for various operations.

Description

Perioperative period process management system and method

Technical Field

The invention relates to the technical field of medical operations, in particular to a perioperative flow management system and a perioperative flow management method.

Background

Perioperative is a whole process around surgery, starting with the patient's decision to receive surgical treatment, and proceeding to surgical treatment until basic recovery, which includes periods of time before, during, and after surgery. The surgical procedures included in the perioperative period of different operations are not completely the same, a doctor usually completes the surgical documents according to the surgical procedures, for example, the surgical documents to be completed in the anesthesia stage may include an anesthesia record sheet, an operation inventory sheet, an intraoperative medical order sheet, and the like, a nurse may perform scheduling and application of surgical resources according to the surgical procedures, and the like.

At present, due to the complexity of operation business, operation flow templates provided for medical staff are generally universal, so that the operation flow templates cannot be well adapted to different operations, and the requirements of the medical staff cannot be met.

Disclosure of Invention

According to a first aspect, there is provided in an embodiment a perioperative procedure management method, comprising:

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 a 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 end;

analyzing the process request information to obtain at least one type of second identifier used for describing the attribute of the requested process scheme in the process request information;

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;

and sending the flow scheme corresponding to the specific identifier to a flow request end so that a user can select a required flow scheme.

According to a second aspect, there is provided in an embodiment a perioperative procedure management system, comprising:

the scheme generation unit is used for generating at least one flow scheme and at least one type of first identifiers used 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 used for representing each stage in a perioperative period, and the attributes of the flow scheme at least comprise a service type corresponding to the flow scheme;

the information analysis unit is used for analyzing the process request information sent by the process request end and acquiring at least one type of second identifier used for describing the attribute of the requested process scheme in the process 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;

and the communication unit is used for receiving an operation instruction input by a user and flow request information sent by the flow request end, and sending the flow scheme corresponding to the specific identifier to the flow request end so that the user can select the required flow scheme.

According to a third aspect, an embodiment provides a computer readable storage medium having a program stored thereon, the program being executable by a processor to implement the method as described in the first aspect.

In the embodiment, a plurality of sets of flow schemes are prepared in advance for complex operation services, so that the method can be well adapted to various service scenes, attributes are added to the flow schemes, the flow schemes are classified in various ways when being created, the flow scheme with the requested attributes can be provided for a flow request terminal, and the requirements of medical care personnel are met more efficiently and accurately.

Drawings

FIG. 1 is a schematic view of a perioperative procedure management system according to an embodiment;

FIG. 2 is a schematic illustration of a flow scheme of an embodiment;

FIG. 3 is a diagram illustrating a flow scenario received by a flow requester according to an embodiment;

FIG. 4 is a schematic diagram of a configuration flow scheme according to an embodiment;

FIG. 5 is a diagram illustrating document information corresponding to a flow phase in a flow scheme according to an embodiment;

fig. 6 is a flowchart of a perioperative procedure management method according to an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

Referring to fig. 1, the present embodiment provides a perioperative procedure management system 10, which includes a plan generating unit 11, an information analyzing unit 12, a data matching unit 13 and a communication unit 14, and the procedure management system 10 may be installed on a central station of a hospital or a workstation of a department, or stored in a memory as a program for being executed by a processor. The flow management system 10 is not described as being installed in a workstation.

The plan generating unit 11 is configured to generate at least one flow plan and at least one type of first identifier for describing attributes of each flow plan according to an operation instruction input by a user, where one flow plan corresponds to one surgical flow, and the attributes of the flow plan at least include a service type corresponding to the flow plan. In addition to the business type, other operation information may be used as the attribute of the flow scheme, for example, the operation information that may be used as the attribute of the flow scheme includes, but is not limited to, surgical instruments, surgical equipment, surgical consumables, anesthesia methods, and anesthesia medications. The first identifier may be a key word or a field stored in the system, and if a flow scheme has the key word, it means that the flow scheme has an attribute corresponding to the key word, for example, the key word as the first identifier is "gastrointestinal scope", which represents that the surgical instrument used in the surgery includes a gastrointestinal scope. In this embodiment, fig. 2 is a flow scheme generated by the scheme generating unit 11, where the flow scheme includes multiple flow stages for characterizing each stage in the perioperative period, the multiple flow stages may be arranged in sequence, and the arrangement sequence of the flow stages may be used to characterize the execution sequence of each operative stage in the perioperative period.

The information analyzing unit 12 is configured to analyze the flow request information sent by the flow request end 20, and obtain at least one type of second identifier used for describing an attribute of the requested flow scheme in the flow request information. The procedure request terminal 20 may be a nurse workstation or an anesthesia workstation in the same hospital or department, after the patient information is entered into the nurse workstation, if the patient needs to perform a surgery, the nurse may send procedure request information to the procedure management system 10 through the nurse workstation, for example, the name of the surgery, the surgical instruments expected to be used in the surgery, etc., and the second identifier may be a keyword or a field similar to the first identifier.

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 matching 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 keywords acquired as the second identifier include "no pain" and "gastroscope", and the data matching unit 13 acquires the flow scheme in which the attribute includes "no pain" and "gastroscope" in each flow scheme according to 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 a specific identifier to the flow request end 20, for example, as shown in fig. 3, the flow request end 20 receives two flow schemes. The user can input an operation instruction by using a human-computer interaction device, wherein the human-computer interaction device includes but is 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 surgical services, so that various service scenarios can be well adapted, attributes are added to the flow schemes, the flow schemes are variously classified when the flow schemes are created, the flow request terminal 20 can request the flow schemes with the corresponding attributes, and the requirements of medical care personnel are met more efficiently and accurately.

In some embodiments, the scheme generation unit 11 generates the flow scheme shown in fig. 2 as follows:

firstly, at least part of the different process stages are associated with different first identifiers in advance, as shown in fig. 4, at least one display module 30 for characterizing the process stages is displayed in a display area of a display connected to a server of the workstation, the display module 30 is in one-to-one correspondence with the process stages, the display module 30 is used for providing the different process stages for a user to select, and at least part of the display module 30 is associated with the first identifiers because at least part of the process stages are associated with different first identifiers.

Then, according to a name creation instruction input by the user, a process name corresponding to the service type of the created process scheme and a first identifier for describing the process name are generated, for example, a new scheme may be created by clicking "new scheme" in fig. 4, and then a process name is input, and in the process of inputting the process name, the process management system 10 extracts a character before "process scheme" in the name as the first identifier, that is, "resuscitation" in "resuscitation process scheme" as the first identifier, so that the first identifier describing the service type is generated when the process name is created.

Then, according to a selection instruction input by a user for a flow stage, at least one flow stage included in the created flow scheme and an arrangement sequence between different flow stages are determined, where the arrangement sequence between different flow stages is used to represent an 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, a selection sequence of the display module 30 and the selected display module 30 selected by the user is determined, according to the display module 30 selected by the user, at least one flow stage included in the created flow scheme is determined, and according to the selection sequence of the display module 30 by the user, an arrangement sequence between different flow stages in the created flow scheme is determined. For example, the user inputs a selection instruction for a corresponding flow stage by clicking the display module 30, and after the user creates a resuscitation flow scheme, the user sequentially clicks the upper display modules 30 for "resuscitation room entering", "anesthesia ending", "analgesia starting", "analgesia ending", "resuscitation room leaving", and "document inspection", and the flow scheme includes the flow stages corresponding to the display modules 30 arranged sequentially, and finally, the user can click and save to complete the creation of one flow scheme. The first identifier corresponding to the flow scheme includes the first identifier corresponding to the name of the flow 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 both have associated first identifiers, so that after the user clicks the "anesthesia start" and "analgesia start" display module 30 in creating the "resuscitation flow scheme", the anesthesia start stage and the analgesia start stage are added to the "resuscitation flow scheme", and the "resuscitation flow scheme" also has associated first identifiers of the anesthesia start stage and the analgesia start stage.

By associating the flow stages with the first identifiers, the attributes possibly possessed by each flow scheme are modularized, and the user selects the corresponding attributes while selecting the flow stages, so that the attributes of the flow schemes are automatically added when configuring the flow schemes. The workload when the flow scheme is configured is reduced, and the experience requirement on the user when the flow scheme is configured is lower.

It should be noted that the above-mentioned manner of inputting the selection instruction for the corresponding process stage includes not only clicking, dragging, and frame selecting, but also feasible manners 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 arranged and displayed according to the selection order to generate the display module set 40 for characterizing the created flow scheme, for example, in fig. 4, the display modules 30 in the "resuscitation flow scheme" are connected in sequence by dashed arrows to form the display module set 40. Specifically, the display module 30 may be added to the display module set 40 based on an add module instruction input by the user for the display module set 40, so that the flow stage corresponding to the added display module 30 and the associated first identifier thereof are added to the created flow scheme, or the display module 30 may be deleted from the display module set 40 based on a delete module instruction input by the user for the display module set 40, so that the flow stage corresponding to the deleted display module 30 and the associated first identifier thereof are reduced in the created flow scheme, in some embodiments, the add module instruction may be input by dragging the display module 30 onto the display module set 40, by dragging the display module 30 out of the display module set 40 to a predetermined area and inputting a delete module command, for example, dragging the display modules 30 of "start of analgesia" and "end of analgesia" into the display module set 40 (between the display modules 30 of "start of anesthesia" and "end of anesthesia") in the intubation flow plan, an analgesia start flow stage and an analgesia end flow stage are added to the intubation flow plan, and meanwhile, the first identifier corresponding to the analgesia start flow stage also becomes the first identifier corresponding to the intubation flow plan.

The configuration mode of the flow stages is flexible and the expansibility is good, a user can customize the new flow stages and associate the new flow stages 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.

In some embodiments, each process stage may be associated with at least one piece of document information in advance, the document information includes different types of documents to be filled in by the associated process stage, and the process scheme corresponding to the specific identifier is sent to the process request terminal 20, and the document information is also sent to the process request terminal 20, for example, as shown in fig. 5, document information corresponding to the process stage may be seen, and similar to the first identifier, when a process stage in a process scheme is added or deleted, the document information corresponding to the process stage is also added to or deleted from the process scheme.

The invention also provides a perioperative process management method, as shown in fig. 6, comprising the steps of:

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.

In this embodiment, one service type corresponds to a service scenario of an operation, and the service type may include, but is not limited to, painless, emergency, intubation, surgery, and resuscitation, if the service type is painless, it means that the flow scheme is applicable to painless surgery, and if the service type is surgery, it may means that the flow scheme is generally applicable to general surgery. In addition to the business type, other operation information may be used as the attribute of the flow scheme, for example, the operation information that may be used as the attribute of the flow scheme includes, but is not limited to, surgical instruments, surgical equipment, surgical consumables, anesthesia methods, and anesthesia medications. The first identifier may be a key word or a field stored in the system, and if a flow scheme has the key word, it means that the flow scheme has an attribute corresponding to the key word, for example, the key word as the first identifier is "gastrointestinal scope", which represents that the surgical instrument used in the surgery includes a gastrointestinal scope. In this embodiment, fig. 2 is a flow scheme, 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 arranged in sequence, and the arrangement sequence of the flow stages may be used to characterize the execution sequence of each operative stage in the perioperative period.

In some embodiments, the manner in which the flow scheme shown in fig. 2 is generated is as follows:

as shown in fig. 4, at least some of the different process stages are associated with different first identifiers in advance, at least one display module 30 for representing the process stages is displayed in the display area, the display modules 30 correspond to the process stages one by one, the display module 30 is used for providing the different process stages for the user to select, 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 a service type of the created flow scheme and a first identifier for describing the flow name are generated, for example, a new scheme can be created by clicking "new scheme" in fig. 4, and then the flow name is input, in the process of inputting the flow name, characters before "flow scheme" in the name are extracted as the first identifier, that is, "resuscitation" in "resuscitation flow scheme" is used as the first identifier, so that the first identifier describing the service type is generated when the flow name is created.

Then, according to a selection instruction input by a user for a flow stage, at least one flow stage included in the created flow scheme and an arrangement sequence between different flow stages are determined, where the arrangement sequence between different flow stages is used to represent an 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, a selection sequence of the display module 30 and the selected display module 30 selected by the user is determined, according to the display module 30 selected by the user, at least one flow stage included in the created flow scheme is determined, and according to the selection sequence of the display module 30 by the user, an arrangement sequence between different flow stages in the created flow scheme is determined. For example, the user inputs a selection instruction for a corresponding flow stage by clicking the display module 30, and after the user creates a resuscitation flow scheme, the user sequentially clicks the upper display modules 30 for "resuscitation room entering", "anesthesia ending", "analgesia starting", "analgesia ending", "resuscitation room leaving", and "document inspection", and the flow scheme includes the flow stages corresponding to the display modules 30 arranged sequentially, and finally, the user can click and save to complete the creation of one flow scheme. The first identifier corresponding to the flow scheme includes the first identifier corresponding to the name of the flow 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 both have associated first identifiers, so that after the user clicks the "anesthesia start" and "analgesia start" display module 30 in creating the "resuscitation flow scheme", the anesthesia start stage and the analgesia start stage are added to the "resuscitation flow scheme", and the "resuscitation flow scheme" also has associated first identifiers of the anesthesia start stage and the analgesia start stage.

By associating the flow stages with the first identifiers, the attributes possibly possessed by each flow scheme are modularized, and the user selects the corresponding attributes while selecting the flow stages, so that the attributes of the flow schemes are automatically added when configuring the flow schemes. The workload when the flow scheme is configured is reduced, and the experience requirement on the user when the flow scheme is configured is lower.

It should be noted that the above-mentioned manner of inputting the selection instruction for the corresponding process stage includes not only clicking, dragging, and frame selecting, but also feasible manners 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 arranged and displayed according to the selection order to generate the display module set 40 for characterizing the created flow scheme, for example, in fig. 4, the display modules 30 in the "resuscitation flow scheme" are connected in sequence by dashed arrows to form the display module set 40. Specifically, the display module 30 may be added to the display module set 40 based on an add module instruction input by the user for the display module set 40, so that the flow stage corresponding to the added display module 30 and the associated first identifier thereof are added to the created flow scheme, or the display module 30 may be deleted from the display module set 40 based on a delete module instruction input by the user for the display module set 40, so that the flow stage corresponding to the deleted display module 30 and the associated first identifier thereof are reduced in the created flow scheme, in some embodiments, the add module instruction may be input by dragging the display module 30 onto the display module set 40, by dragging the display module 30 out of the display module set 40 to a predetermined area and inputting a delete module command, for example, dragging the display modules 30 of "start of analgesia" and "end of analgesia" into the display module set 40 (between the display modules 30 of "start of anesthesia" and "end of anesthesia") in the intubation flow plan, an analgesia start flow stage and an analgesia end flow stage are added to the intubation flow plan, and meanwhile, the first identifier corresponding to the analgesia start flow stage also becomes the first identifier corresponding to the intubation flow plan.

The configuration mode of the flow stages is flexible and the expansibility is good, and a user can define a new flow stage and associate the new flow stage with the first identifier, so that the flow scheme can be expanded conveniently, and the attribute of the flow scheme can be changed or expanded.

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 in the same hospital or department, and after the information of the patient is entered into the nurse workstation, if the patient needs to perform the operation, the nurse may send the procedure request information through the nurse workstation, for example, input the name of the operation, the surgical instruments expected to be used in the operation, and the like.

And step 300, analyzing the flow request information, and acquiring at least one type of second identifier used 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 a field.

And 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, keywords obtained as the second identifier include "no pain" and "gastroscope", and the flow schemes of which the attribute includes "no pain" and "gastroscope" in each flow scheme are obtained based on the matching of the second identifier with the first identifier.

Step 500, sending the flow scheme corresponding to the specific identifier to the flow request terminal 20, so that the user can select the required flow scheme. For example, as shown in fig. 3, the flow request terminal 20 receives two flow schemes.

In some embodiments, each process stage may be associated with at least one piece of document information in advance, the document information includes different types of documents to be filled in by the associated process stage, and the process scheme corresponding to the specific identifier is sent to the process request terminal 20, and the document information is also sent to the process request terminal 20, for example, as shown in fig. 5, document information corresponding to the process stage may be seen, and similar to the first identifier, when a process stage in a process scheme is added or deleted, 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 in advance for complex operation services, various service scenes can be well adapted, attributes are attached to the 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 care personnel 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 computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implemented.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. A perioperative procedure management method, comprising:

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 a 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 end;

analyzing the process request information to obtain at least one type of second identifier used for describing the attribute of the requested process scheme in the process request information;

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;

and sending the flow scheme corresponding to the specific identifier to a flow request end so that a user can select a required flow scheme.

2. The method of claim 1, wherein the method further comprises: providing preset different flow stages for a user to select;

generating at least one flow scheme according to an operation instruction input by a user, wherein the flow scheme comprises the following steps:

at least part of the different process stages are associated with different first identifiers in advance;

generating a process name corresponding to the service type of the created process scheme and a first identifier for describing the process name according to a name creating instruction input by a user;

determining at least one flow stage and an arrangement sequence among different flow stages included in the created flow scheme according to a selection instruction input by a user aiming at the flow stages, wherein the arrangement sequence among different flow stages is used for representing an execution sequence of each stage in a perioperative period;

at least one type of first identifier for describing attributes of the created flow plan is determined based on the flow name of the created flow plan and at least one flow stage included therewith.

3. The method of claim 2, wherein providing the user with different flow stages for selection by the user comprises: displaying at least one display module for representing a process stage in a display area, wherein the display modules correspond to the process stages one to one;

determining at least one flow stage included in the created flow scheme and the arrangement sequence among different flow stages according to a selection instruction input by a user aiming at the flow stages, wherein the arrangement sequence comprises the following steps:

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 of different process stages in the created process scheme according to the selection sequence of the display module by the user.

4. The method of claim 3, wherein determining the display module selected by the user and the order of selection of the display modules further comprises:

arranging and displaying the display modules selected by the user according to the selection sequence to generate a display module set for representing the created flow scheme;

and adjusting the combination of the display modules in the display module set based on an adjusting instruction input by a user for the display module set, so that the association between the process stages included in the created process scheme and the first identifier corresponding to the created process scheme is changed.

5. The method of claim 4, wherein the adjusting the combination of the display modules in the display module set based on the adjustment instruction input by the user for the display module set to make the association change between the process stage included in the created process scheme and the first identifier corresponding to the created process scheme comprises:

adding a display module to the display module set based on a module adding instruction input by a user for 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 to the created flow scheme; or

And deleting the display module from the display module set based on a deletion module instruction input by a user aiming at the display module set, so that the flow stage corresponding to the deleted display module and the associated first identifier are reduced in the created flow scheme.

6. The method of claim 2, 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 required to be filled in by the associated process stage;

sending the flow scheme corresponding to the specific identifier to a flow request end, further comprising:

and sending the document information corresponding to each flow stage in the flow scheme corresponding to the specific identifier to a flow request end.

7. The method of claim 1, wherein the types of business include at least painless, emergency, intubation, surgery, and resuscitation;

the attributes of the flow stage also include surgical information, which at least includes surgical instruments, surgical equipment, surgical consumables, anesthesia methods, and anesthesia medications.

8. A perioperative procedure management system, comprising:

the scheme generation unit is used for generating at least one flow scheme and at least one type of first identifiers used 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 used for representing each stage in a perioperative period, and the attributes of the flow scheme at least comprise a service type corresponding to the flow scheme;

the information analysis unit is used for analyzing the process request information sent by the process request end and acquiring at least one type of second identifier used for describing the attribute of the requested process scheme in the process 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;

and the communication unit is used for receiving an operation instruction input by a user and flow request information sent by the flow request end, and sending the flow scheme corresponding to the specific identifier to the flow request end so that the user can select the required flow scheme.

9. The system of claim 8, wherein generating at least one flow scheme based on the user-entered operating instructions comprises:

at least part of the different process stages are associated with different first identifiers in advance;

generating a process name corresponding to the service type of the created process scheme and a first identifier for describing the process name according to a name creating instruction input by a user;

providing different process stages for a user to select;

determining at least one flow stage and an arrangement sequence among different flow stages included in the created flow scheme according to a selection instruction input by a user aiming at the flow stages, wherein the arrangement sequence among different flow stages is used for representing an execution sequence of each stage in a perioperative period;

at least one type of first identifier for describing attributes of the created flow plan is determined based on the flow name of the created flow plan and at least one flow stage included therewith.

10. 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 according to any one of claims 1-7.

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