CN112951396A

CN112951396A - Configuration method of surgical procedure and workstation for configuring surgical procedure

Info

Publication number: CN112951396A
Application number: CN202110330156.6A
Authority: CN
Inventors: 颜凤娇; 陈艳楠
Original assignee: Shenzhen Comen Medical Instruments Co Ltd
Current assignee: Shenzhen Comen Medical Instruments Co Ltd
Priority date: 2021-03-29
Filing date: 2021-03-29
Publication date: 2021-06-11
Anticipated expiration: 2041-03-29
Also published as: CN112951396B

Abstract

A method of configuring a surgical procedure and a workstation for configuring a surgical procedure, the method comprising: displaying at least one first marker in the first display area, each first marker being used for respectively characterizing one procedure stage in the perioperative period, each type of operation procedure in the perioperative period comprising at least one procedure stage; copying the selected first mark based on the user's selection operation of the first mark; based on the dragging operation of the user on the copied first mark, moving the copied first mark along the dragging track; capturing the release operation of a user in dragging the copied first mark, and acquiring the position of releasing the copied first mark; and if the position of the copied first mark is in a second display area, configuring a flow stage represented by the copied first mark in the operation flow corresponding to the second display area. The above method allows the user to easily configure the surgical plan.

Description

Configuration method of surgical procedure and workstation for configuring surgical procedure

Technical Field

The invention relates to the technical field of medical operations, in particular to a workstation for configuring an operation process and a configuration method of the operation process.

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, for operations of different types or different scenes, a user needs to configure each flow stage in an operation flow in advance, and a doctor performs perioperative operation according to the configured operation flow. The perioperative period is complex, the related flow stages are likely to be more, and the steps of most of the current workstations are complicated when the flow stages are configured for the operation flow, for example, the flow stages are expanded in a pull-down menu mode, and then the operation flow is configured by clicking and confirming one by one.

Disclosure of Invention

The invention mainly solves the technical problem of providing a convenient and flexible operation process configuration method.

Based on the above purpose, an embodiment of the present invention discloses a method for configuring a surgical procedure, including:

displaying at least one first marker in the first display area, each first marker being used for respectively characterizing one procedure stage in the perioperative period, each type of operation procedure in the perioperative period comprising at least one procedure stage;

copying the selected first mark based on the user's selection operation of the first mark;

based on the dragging operation of the user on the copied first mark, moving the copied first mark along the dragging track;

capturing the release operation of a user dragging the copied first mark, and acquiring the release position of the copied first mark;

and if the release position of the copied first mark is in a second display area, configuring a flow stage represented by the copied first mark in the surgical flow corresponding to the second display area, wherein the number of the second display areas is at least one, and each second display area corresponds to one type of surgical flow.

In another embodiment, the present invention discloses a workstation for configuring a surgical procedure, comprising:

the system comprises a human-computer interaction module, a first display area, a second display area and at least one first mark in the first display area, wherein the human-computer interaction module is used for receiving an instruction input by a user, displaying the first display area, the second display area and the at least one first mark in the first display area, each first mark is used for respectively representing one process stage in a perioperative period, each type of operation process in the perioperative period comprises at least one process stage, the number of the second display areas is at least one, and each second display area corresponds to one type of operation process;

the processing unit is used for copying the selected first mark based on the selection operation of the user on the first mark; based on the dragging operation of the user on the copied first mark, moving the copied first mark along the dragging track; capturing the release operation of a user dragging the copied first mark, and acquiring the release position of the copied first mark; if the release position of the copied first mark is in a second display area, configuring a flow stage represented by the copied first mark in the operation flow corresponding to the second display area;

and the storage unit is used for storing at least one first mark and the configured completed operation flow.

In view of the above object, another embodiment of the present invention discloses a computer-readable storage medium, on which a program is stored, the program being executable by a processor to implement the configuration method of the above-mentioned surgical procedure.

In the above embodiment, the flow stage is represented by the first mark, and the user may add the flow stage corresponding to the first mark to the surgical flow corresponding to the second display area by "dragging" the first mark in the first display area to the second display area, so as to convert the configuration of the surgical flow into a dragging operation of the first mark. This approach has the following advantages:

1. for a complicated perioperative period with multiple flow stages, the flow stages are displayed in the first display area in a centralized manner, so that a user can overview the flow stages and prepare for the configuration of an operative flow as soon as possible.

2. The configuration of the operation process is converted into the dragging operation of the first mark, so that the operation steps required by the configuration are simplified, and the operation is simpler and more humanized.

Drawings

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

FIG. 2 is a schematic view of a surgical protocol configuration interface of an embodiment;

FIG. 3 is a schematic view of an interface of a nurse workstation requesting a surgical protocol according to one embodiment;

FIG. 4 is a schematic illustration of a document configuration interface according to an embodiment;

FIG. 5 is a schematic illustration of a document template according to an embodiment;

FIG. 6 is a flow chart of a surgical procedure configuration method of an embodiment;

FIG. 7 is a flow diagram of a document configuration method of an embodiment;

1. a human-computer interaction module;

2. a processing unit;

3. a storage unit;

4. a communication unit;

10. a first display area;

11. a first mark;

20. a second display area;

30. a third display area;

31. a second mark;

40. a fourth display area;

41. a sub-display area;

50. a tab area.

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).

The operation procedures in the perioperative period can be divided into painless operation procedures, resuscitation operation procedures, emergency treatment operation procedures and the like according to different types, and different types of operation procedures can have the same procedure stage and can also have different procedure stages. When a plurality of operation flows are configured continuously, if the menu needs to be pulled down repeatedly according to the existing configuration mode, and the flow stage is selected repeatedly to complete the configuration. In this case, the configuration process only needs one more operation, which brings great inconvenience to the configuration of the whole operation flow, and in contrast, small improvement in the configuration scheme process can also bring great convenience. The invention makes a breakthrough in the inherent thinking of the conventional flow configuration mode in the perioperative period and makes a corresponding improvement on the simplification of the operation steps.

Referring to fig. 1, the present invention provides a workstation for configuring a surgical procedure, the workstation comprising a human-machine interaction module 1, a processing unit 2 and a storage unit 3.

The man-machine interaction module 1 is used for receiving instructions of a user and displaying the first display area 10, the second display area 20 and at least one first mark 11 in the first display area 10.

In some embodiments, the human-computer interaction module 1 includes a display and a peripheral device such as a keyboard and a mouse that is matched with the display, in other embodiments, the human-computer interaction module 1 may be a display screen with a touch function, and a user completes input of an instruction by pressing or clicking the display screen. Wherein, different second display areas 20 correspond to different types of surgical procedures, respectively. The processing unit 2 may divide the display area into the first display area 10 and at least one second display area 20 according to a pre-stored layout manner, for example, after the workstation is powered on for self-test, the processing unit 2 divides the display area into the first display area 10 and a plurality of second display areas 20 according to a set layout manner, the number of the second display areas 20 matches with the number of the operation schemes commonly used according to experience, for example, one of the second display areas 20 corresponds to a painless operation, the other second display area 20 corresponds to an emergency operation, and so on.

In the present embodiment, the first display area 10 and the second display area 20 are generated in a more flexible manner, as shown in fig. 2, a tab area 50 is provided on the left side of the display area, the flow configuration step is entered after the user clicks the "flow configuration" character, the processing unit 2 divides the first display area 10 in the area on the right side in response to the user clicking the "flow configuration" character, and displays the first mark 11 stored in the storage unit 3 in the first display area 10. When the user clicks the "new scheme" below the first display area 10, a window pops up below the first display area 10, the window is displayed as the second display area 20, and the user can input the name of the surgical procedure in the window to establish a corresponding relationship between the second display area 20 and the surgical procedure.

The above-mentioned generation manner of the first display area 10 and the second display area 20 is only an example, and other feasible manners can be applied to the present invention, and preferably, the first display area 10 and the second display area 20 are displayed side by side, for example, displayed up and down or displayed left and right.

With continued reference to fig. 2, two lines of first markers 11 are displayed in the first display area 10, each first marker 11 being used to respectively characterize one procedure stage in the perioperative period, while different types of surgical procedures in the perioperative period respectively include at least one procedure stage. In the present embodiment, the first mark 11 is a square block diagram including the name of the flow stage, and in other embodiments, the first mark 11 may include, but is not limited to, a character, an image, and the like.

The processing unit 2 is configured to copy the selected first marker 11 based on a user's selection operation on the first marker 11, and then move the copied first marker 11 along the drag trajectory based on a user's drag operation on the copied first marker 11. For example, in configuring the resuscitation room procedure, the user may drag the first mark 11 "in the first display area 10 into the second display area 20 corresponding to the resuscitation room procedure, and trigger the copying of the first mark 11 when the dragging of the first mark 11 is started, so that the first mark 11 in the first display area 10 does not disappear, thereby ensuring the reusability of the first mark 11. The processing unit 2 also captures a release operation of the user dragging the copied first mark 11, and acquires a release position of the copied first mark 11; when the man-machine interaction module 1 comprises a mouse and other peripherals, a user can complete the dragging operation by pressing and moving the mouse, the user can complete the releasing operation of the first mark 11 when releasing the pressing of the mouse, when the man-machine interaction module 1 is a display screen with a touch function, the user can complete the dragging operation by clicking the screen and keeping pressing and moving a finger on the screen, and when the user finger does not press or touch the screen, the releasing operation of the first mark 11 is completed. If the release position of the copied first marker 11 is in a second display area 20, the procedure stage represented by the copied first marker 11 is configured in the surgical procedure corresponding to the second display area 20. That is, after moving the first indicia 11 "into the resuscitation chamber" into the second display area 20 corresponding to the resuscitation chamber procedure, the resuscitation chamber procedure is also augmented with a procedure phase of entering the resuscitation chamber. Subsequently, if the save button in the second display area 20 is clicked, the configured resuscitation room procedure is stored in the storage unit 3.

The workstation may be in communication connection with other workstations through the communication unit 4, for example, a nurse workstation, an anesthesia workstation, and other workstations, the nurse workstation may request a surgical procedure from the workstation of the present invention after registering patient information, the communication unit 4 may send a correspondingly stored surgical procedure to the nurse workstation according to the request, so as to guide the operation steps at each stage in the perioperative period, as shown in fig. 3, which is a schematic diagram of the surgical procedure provided by the workstation of this embodiment after the nurse workstation requests the surgical procedure.

In some embodiments, the user may also click a "deactivate" button in the second display area 20 to temporarily deactivate the configured surgical procedure, meaning that the surgical procedure is not deleted, but the deactivated surgical procedure is not provided when a surgical plan is requested externally.

In the surgical plan, there is also a sequence between each procedure stage, and in some embodiments, the procedure stages represented by different first markers 11 are arranged and combined into a surgical procedure corresponding to the second display area 20 according to the sequence in which at least one first marker 11 moves into the second display area 20. For example, when configuring, the user drags "enter resuscitation room", "start of analgesia", "end of analgesia", and "exit resuscitation room" to the second display area 20 in sequence, and in the configured resuscitation room flow, the sequence of the flow stages is the sequence of dragging into the second display area 20.

The mode configuration is simpler, but the fault tolerance rate is lower, and the editing is not convenient enough.

In other embodiments, the processing unit 2 may determine whether the first mark 11 exists in the second display area 20, and if the first mark 11 does not exist, the procedure phase represented by the first mark 11 moved to the inside of the second display area is used as the first procedure phase in the surgical procedure corresponding to the second display area 20. For example, in configuring a resuscitation room procedure, if "enter resuscitation room" is dragged into the second display area 20 when the first indicia 11 is not yet in the second display area 20, the first procedure stage in the resuscitation room procedure is to enter resuscitation room. If the first mark 11 exists, determining the sequence between the flow stage represented by the first mark 11 moving into the second display area 20 and the flow stage represented by the first mark 11 existing according to the position relationship between the first mark 11 moving into the second display area 20 and the first mark 11 existing. For example, the first mark 11 "enter the resuscitation room", "analgesia is finished", and "leave the resuscitation room" already exist in the second display area 20 corresponding to the resuscitation room flow, and if the user drags the first mark 11 "start analgesia" between "enter the resuscitation room" and "finish analgesia", after the processing unit 2 captures the positional relationship between the first mark 11 "start analgesia" and the other two first marks 11 "enter the resuscitation room" and "finish analgesia", it is determined that the flow phase "start analgesia" is between the two flow phases "enter the resuscitation room" and "finish analgesia", and the sequence of the flow phases in the configured resuscitation room flow is "enter the resuscitation room", "start analgesia", and "finish analgesia". In other embodiments, the effective area of the first mark 11 may be set, and when other first marks 11 enter the effective area of the first mark 11, the processing unit 2 recognizes that the position relationship determination of the two is successful.

The above manner is more flexible and easy to use for configuration of the flow stage.

In order to better show the configured surgical procedure, in this example, the first markers 11 are arranged in sequence in the second display area 20, and the sequence between adjacent first markers 11 is indicated by arrows. In other embodiments, the order of the various procedural stages in the surgical procedure may also be indicated by other line segments, symbols, and the like.

After the configuration of the surgical plan is completed, the surgical plan may be edited, for example, the first mark 11 in the second display area 20 may be dragged out of the second display area 20, the flow stage corresponding to the first mark 11 may be deleted from the surgical plan, for example, when the mouse is hovered over the first mark 11 for more than a preset time, the area where the first mark 11 is located may display a close mark key (for example, a cross mark appears in the upper right corner), and the user may delete the corresponding first mark 11 and the flow stage thereof by clicking the close mark key. If a new procedure stage is to be added to the surgical procedure, the procedure stage may be added by dragging the first mark 11 in the first display area 10 to the second display area 20, as in the procedure configuration step.

In some embodiments, the human-computer interaction module 1 is further configured to display a third display area 30, a fourth display area 40, and at least one second marker 31 in the third display area 30. In this example, switching between the first display area 10 and the third display area 30 is performed by inputting an instruction in the tab area 50 on the left side in fig. 4, and when the user clicks the "document setting" character in the option, the first display area 10 on the right side is switched to the third display area 30. In other embodiments, the third display area 30 may be displayed side by side with the first display area 10. The processing unit 2 generates the fourth display area 40 corresponding to the selected first marker 11 based on the user's selection instruction for the first marker 11 in the second display area 20. For example, as shown in fig. 4, the currently selected first marker 11 is "enter resuscitation room" in a resuscitation room procedure, and the fourth display area 40 on the right corresponds to the resuscitation room procedure entering phase.

With continued reference to fig. 4, two lines of second marks 31 are displayed in the third display area 30, and different second marks 31 are used for respectively representing different document templates required in the perioperative period, and the document templates are stored in the storage unit 3 in advance. Fig. 5 shows an example of a document template, when a medical staff member reaches a certain flow stage in an operation, a corresponding document can be filled in according to the document template. In the present embodiment, the second mark 31 is a square block diagram including a document name, and in other embodiments, the second mark 31 may include, but is not limited to, a character, an image, and the like.

The processing unit 2 may copy and move the user-selected second mark 31 to the fourth display area 40 in response to an operation instruction of the user selecting and dragging at least one second mark 31 to the fourth display area 40. For example, in fig. 4, the user has dragged the second mark 31 "surgery application form", "surgery consent form", "preoperative visit form", and "intraoperative medical order form" into the fourth display area 40 corresponding to the resuscitation room, and the second mark 31 does not disappear during the dragging, thereby ensuring reusability of the second mark 31. Specifically, the processing unit 2 may copy the selected second mark 31 based on a user's selection operation of the second mark 31; moving the copied second mark 31 following the drag trajectory based on a drag operation of the user on the copied second mark 31; capturing the release operation of the user in dragging the copied second mark 31, and acquiring the release position of the copied second mark 31; and if the release position 31 of the copied second mark is in the fourth display area 40, storing the flow stage corresponding to the selected first mark 11 and the document template corresponding to the copied second mark 31 in an associated manner. That is, the document template that needs to be completed during the resuscitation room entry phase of the resuscitation room flow of FIG. 4 is "tied" to the resuscitation room entry phase. The communication unit 4 will also send the corresponding associated stored document template when sending the surgical plan in response to the request. Thereby further guiding the operation of the user.

It should be noted that the above document template is only an example of associable storage information, and in other embodiments, other operation information may be associable and stored with the procedure phase, for example, a required operation machine may be associable and stored with the procedure phase.

In some embodiments, the fourth display area 40 includes at least one sub-display area 41, the storage unit 3 is further configured to store identifiers respectively corresponding to the at least one sub-display area 41, the identifiers are used to characterize the priority of the associated document template at the corresponding process stage, and the processing unit 2 may associate the second identifier 31 moved to the sub-display area 41 with the identifier corresponding to the sub-display area 41. For example, in fig. 4, the fourth display area 40 includes two sub-display areas 41, the document template moved to the left sub-display area 41 is the document template with the highest priority that must be filled in, the document template moved to the right sub-display area 41 is the document that can be filled in optionally, and the priority of the document template can be judged by a request end such as a workstation requesting a surgical plan, and the guidance of medical staff is further detailed.

Referring to fig. 6, the present invention further provides a configuration method of a surgical procedure, including the steps of:

step 100, at least one first marker 11 is displayed in the first display area 10. Each first marker 11 is used to characterize one respective procedural stage in the perioperative period, wherein the different types of surgical procedures in the perioperative period each comprise at least one respective procedural stage.

For example, in fig. 2, two lines of first marks 11 are displayed in the first display area 10, in this embodiment, the first marks 11 are square block diagrams including flow stage names, and in other embodiments, the first marks 11 may include, but are not limited to, characters, images, and the like.

Step 200, copying the selected first mark 11 based on the user's operation of selecting the first mark 11. For example, when the user can copy the first mark 11 by double-clicking the first mark 11, in the embodiment, the user drags the first mark 11 to simultaneously trigger the copying of the first mark 11.

Step 300, based on the drag operation of the user on the copied first mark 11, moving the copied first mark 11 along the drag trajectory. The first mark 11 in the first display area 10 does not disappear during the dragging, thereby ensuring the reusability of the first mark 11.

Step 400, capturing the release operation of the user dragging the copied first mark 11, and acquiring the release position of the copied first mark 11.

Step 500, judging that the release position of the copied first mark 11 is in the second display area 20, if so, executing step 600, otherwise, executing step 700. Wherein the number of the second display areas 20 is at least one, and each second display area 20 corresponds to one type of surgical procedure.

Step 600, configuring a procedure stage represented by the copied first mark 11 in the operation procedure corresponding to the second display area 20,

for example, in configuring a resuscitation room procedure, a user may drag the first indicia 11 within the first display area 10 "into the resuscitation room" into the corresponding second display area 20 of the resuscitation room procedure. After moving the first marker 11 "into the resuscitation room" into the second display area 20 corresponding to the resuscitation room procedure, the resuscitation room procedure is also augmented with the phase of the procedure into the resuscitation room. Subsequently, if the save button in the second display area 20 is clicked, the configured resuscitation room procedure may be saved for subsequent use.

Step 700, the copied first mark 11 is removed.

In some embodiments, the display area may be divided into the first display area 10 and at least one second display area 20 according to a pre-stored layout manner, for example, the display area is divided into the first display area 10 and a plurality of second display areas 20 according to a set layout manner, the number of the second display areas 20 is matched with the number of operation schemes commonly used according to experience, for example, one of the second display areas 20 corresponds to a painless operation, another one of the second display areas 20 corresponds to an emergency operation, and so on.

In other embodiments, the first display area 10 and the second display area 20 are generated in a more flexible manner, as shown in fig. 2, a tab area 50 is provided on the left side of the display area, the flow configuration step is performed after the user clicks the "flow configuration" character, the first display area 10 is divided in the area on the right side in response to the user clicking the "flow configuration" character, and the first mark 11 stored in the storage unit 3 is displayed in the first display area 10. When the user clicks the "new scheme" below the first display area 10, a window pops up below the first display area 10, the window is displayed as the second display area 20, and the user can input the name of the surgical procedure in the window to establish a corresponding relationship between the second display area 20 and the surgical procedure.

In other embodiments, when a certain first mark 11 is dragged into the second display area 20, it may be determined whether the first mark 11 already exists in the second display area 20, and if the first mark 11 does not exist, the procedure phase represented by the first mark 11 moved to the inside of the second display area is used as the first procedure phase in the surgical procedure corresponding to the second display area 20. For example, in configuring a resuscitation room procedure, if "enter resuscitation room" is dragged into the second display area 20 when the first indicia 11 is not yet in the second display area 20, the first procedure stage in the resuscitation room procedure is to enter resuscitation room. If the first mark 11 exists, determining the sequence between the flow stage represented by the first mark 11 moving into the second display area 20 and the flow stage represented by the first mark 11 existing according to the position relationship between the first mark 11 moving into the second display area 20 and the first mark 11 existing. For example, the first mark 11 "enter the resuscitation room", "analgesia is finished", and "go out of the resuscitation room" already exist in the second display area 20 corresponding to the resuscitation room flow, and if the user drags the first mark 11 "start analgesia" between "enter the resuscitation room" and "finish analgesia", after capturing the positional relationship between the first mark 11 "start analgesia" and the other two first marks 11 "enter the resuscitation room" and "finish" it is determined that the flow phase "start analgesia" is between the two flow phases "enter the resuscitation room" and "finish analgesia", and the sequence of the flow phases in the configured resuscitation room flow is "enter the resuscitation room", "start analgesia", and "finish" in order. In other embodiments, the effective area of the first mark 11 may be set, and when other first marks 11 enter the effective area of the first mark 11, the position relationship between the two marks is considered to be determined to be successful.

In some implementations, as shown in fig. 7, after the surgical procedure is configured, the method further includes the steps of:

step 810, switching the first display area 10 to the third display area 30 based on the instruction input by the user.

In this example, switching between the first display area 10 and the third display area 30 is performed by inputting an instruction in the tab area 50 on the left side in fig. 4, and when the user clicks the "document setting" character in the option, the first display area 10 on the right side is switched to the third display area 30. In other embodiments, the third display area 30 may be displayed side by side with the first display area 10.

And 820, displaying at least one second mark 31 in the third display area 30, wherein each second mark 31 is used for respectively representing a document template required in the perioperative period.

Fig. 5 shows an example of a document template, when a medical staff member reaches a certain flow stage in an operation, a corresponding document can be filled in according to the document template. In the present embodiment, the second mark 31 is a square block diagram including a document name, and in other embodiments, the second mark 31 may include, but is not limited to, a character, an image, and the like.

Step 830, based on the user's selection instruction for the first marker 11 in the second display area 20, generates the fourth display area 40 corresponding to the selected first marker 11.

For example, as shown in fig. 4, the currently selected first marker 11 is "enter resuscitation room" in a resuscitation room procedure, and the fourth display area 40 on the right corresponds to the resuscitation room procedure entering phase.

In step 840, the selected second mark 31 is copied based on the user's operation of selecting the second mark 31.

Step 850 of moving the copied second mark 31 following the drag trajectory based on the drag operation of the user on the copied second mark 31.

Step 860, capturing the release operation of the user dragging the copied second mark 31, and acquiring the release position of the copied second mark 31.

Step 870, determining whether the copied second mark 31 is located in the fourth display area 40, if so, executing step 880, otherwise executing step 890.

And 880, storing the flow stage corresponding to the selected first mark 11 and the document template corresponding to the copied second mark 31 in an associated manner.

For example, in fig. 4, the user has dragged the second mark 31 "surgery application form", "surgery consent form", "preoperative visit form", and "intraoperative medical order form" into the fourth display area 40 corresponding to the resuscitation room, and the second mark 31 does not disappear during the dragging, thereby ensuring reusability of the second mark 31. The "associative storage" is, for example, that the document template required to be completed in the resuscitation room entering stage in the resuscitation room flow in fig. 4 is "bound" to the resuscitation room entering stage. When a surgical plan is sent in response to a request, the corresponding and associated stored document template is also sent. Thereby further guiding the operation of the user. It should be noted that the above document template is only an example of associable storage information, and in other embodiments, other operation information may be associable and stored with the procedure phase, for example, a required operation machine may be associable and stored with the procedure phase.

Step 890, the copied second mark 31 is removed.

The fourth display area 40 includes at least one sub-display area 41, at least one sub-display area 41 corresponds to a pre-stored identifier, and the document template moved to the sub-display area 41 can be associated with the identifier corresponding to the sub-display area 41, where the identifier is used to represent the priority of the associated document template in the corresponding process stage. For example, in fig. 4, the fourth display area 40 includes two sub-display areas 41, the document template moved to the left sub-display area 41 is the document template with the highest priority that must be filled in, the document template moved to the right sub-display area 41 is the document that can be filled in optionally, and the priority of the document template can be judged by a request end such as a workstation requesting a surgical plan, and the guidance of medical staff is further detailed.

The operation scheme configuration method of the embodiment is flexible in configuration, simple in operation and more humanized, the required process stages are uniformly displayed in the first display area in a first marking mode, searching of a user is simplified, and required operation information can be conveniently configured for each process stage.

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

1. A method of configuring a surgical procedure, comprising:

2. The method of claim 1, wherein the first display area and the second display area are generated in a manner comprising:

dividing a display area into a first display area and at least one second display area according to a pre-stored layout mode; or

Dividing a first display area in the display area based on an instruction input by a user;

and generating and popping up a window serving as a second display area outside the first display area based on a creation instruction of the surgical procedure by the user.

3. The method of claim 1, wherein configuring a procedure stage of the replicated first marker representation in the surgical procedure corresponding to the second display area:

and judging whether the first mark exists in the second display area, if not, taking the flow stage represented by the copied first mark as the first flow stage in the operation flow corresponding to the second display area, and if so, determining the sequence between the flow stage represented by the copied first mark and the flow stage represented by the already-existing first mark according to the position relationship between the copied first mark and the already-existing first mark.

4. The method of claim 1, wherein configuring the flow stage of the replicated first marker representation in the surgical flow corresponding to the second display area comprises:

and arranging and combining the process stages represented by different first marks into an operation process corresponding to the second display area according to the sequence of the copied first marks moved to the same second display area.

5. The method of claim 1, wherein the method further comprises:

switching the first display area to a third display area based on an instruction input by a user;

displaying at least one second mark in the third display area, wherein each second mark is used for respectively representing a document template required in the perioperative period;

generating a fourth display area corresponding to the selected first mark based on a selection instruction of the user for the first mark in the second display area;

copying the selected second mark based on the user's selection operation of the second mark;

based on the dragging operation of the user on the copied second mark, moving the copied second mark along the dragging track;

capturing the release operation of the user in dragging the copied second mark, and acquiring the release position of the copied second mark;

and if the release position of the copied second mark is in the fourth display area, performing associated storage on the flow stage corresponding to the selected first mark and the document template corresponding to the copied second mark.

6. The method of claim 5, wherein the fourth display area comprises at least one sub-display area, the at least one sub-display area corresponding to a pre-stored identifier, respectively, the method further comprising:

and associating the second mark moved to the sub-display area with an identifier corresponding to the sub-display area, wherein the identifier is used for representing the priority of the associated document template in the corresponding process stage.

7. A workstation for configuring a surgical procedure, comprising:

8. The workstation of claim 7, wherein the human-computer interaction module is further configured to display a third display area, a fourth display area, and at least one second mark in the third display area, each second mark being configured to respectively represent a document template required in a perioperative period, the document template being pre-stored in the storage unit;

the processing unit is further used for generating a fourth display area corresponding to the selected first mark based on a selection instruction of a user for the first mark in the second display area; copying the selected second mark based on the user's selection operation of the second mark; based on the dragging operation of the user on the copied second mark, moving the copied second mark along the dragging track; capturing the release operation of the user in dragging the copied second mark, and acquiring the release position of the copied second mark; and if the release position of the copied second mark is in the fourth display area, storing the flow stage corresponding to the selected first mark and the document template corresponding to the copied second mark in an associated manner.

9. The workstation of claim 8, wherein the fourth display area comprises at least one sub-display area;

the storage unit is further used for storing identifiers respectively corresponding to the at least one sub-display area;

the processing unit is further configured to associate the second mark moved to the sub-display area with an identifier corresponding to the sub-display area, where the identifier is used to characterize the priority of the associated document template at the corresponding process stage.

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 1-6.