CN111128351A - Patient body catheter clinical recording method, terminal and medium based on body diagram - Google Patents

Abstract

The application provides a patient body catheter clinical recording method, a terminal and a medium based on a human body diagram, wherein the method comprises the following steps: displaying all catheters available for selection in a catheter selection area of the newly added catheter interface, displaying a three-dimensional human body image in an image area, displaying labels of maximum category parts at all maximum category parts of a human body, and displaying menu bar options for recording catheter conditions in a menu bar area; displaying the sub-part of the maximum category part and displaying the label of the sub-part; displaying a plurality of selectable orientations of the sub-part; and displaying the three-dimensional human body diagram, and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the selected position corresponding to the sub-part in the three-dimensional human body diagram. The invention efficiently records the catheters through the three-order three-dimensional human body diagram, and respectively arranges the human body parts of the catheters in a visual way in a direction and a sidedness, so that a clinical nurse can intuitively and clearly know the catheter condition of a patient.

Description

Patient body catheter clinical recording method, terminal and medium based on body diagram

Technical Field

The application relates to the technical field of medical management, in particular to the technical field of clinical operation management, and specifically relates to a patient body catheter clinical recording method, terminal and medium based on a human body diagram.

Background

With the rapid development of information technology, more and more hospitals in China are accelerating to implement the whole construction of medical platforms based on informatization so as to improve the service level and the core competitiveness of the hospitals. The clinical data Center (CDR) organizes, integrates and stores clinical data of a patient by taking the patient as a center and taking the patient as a main line, integrates and stores all medical information of the patient, such as a visit record, an outpatient prescription, an in-patient medical advice, an electronic medical record, an examination and examination report, and the like in a comprehensive, standard and unified manner, provides unified platform support for sharing of the clinical data, and is an important informatization medical platform of a hospital.

In clinical care, the body of a person is subjected to surgery or trauma or various chronic diseases, the generated catheter is spread over any part of the body, and various maintenance of the catheter must be grasped through effective visual management. Much of the catheter description in the current clinical record is described in the form of narrative description of the large site. However, the description of the diseased catheter is time-consuming and labor-consuming by simply depending on the text description, so that the medical staff is difficult to accurately know the catheter position of the patient, the diagnosis and the treatment of the disease of the patient are not facilitated, and the quality of medical service is not improved.

Content of application

In view of the above drawbacks of the prior art, the present application aims to provide a method, a terminal and a medium for clinical recording of a catheter of a patient based on a body diagram, which are used to solve the technical problems in the prior art that the clinical recording of the catheter of the patient is time-consuming and labor-consuming, and it is difficult for medical staff to accurately know the catheter position of the patient.

To achieve the above and other related objects, a first aspect of the present application provides a method for anthropometric clinical recording of a patient's body duct, comprising: when a catheter recording request is received, displaying all catheters available for selection in a catheter selection area of a newly added catheter interface, displaying a three-dimensional human body image in a graphic area of the newly added catheter interface, displaying labels of maximum category parts at all maximum category parts of a human body, and displaying menu bar options for recording catheter conditions in a menu bar area of the newly added catheter interface; when a first trigger instruction generated after triggering the labeling of any maximum category part is received, displaying the sub-part of the maximum category part in the graphic area and displaying the labeling of the sub-part; when a second trigger instruction generated after any sub-part is triggered is received, displaying a plurality of selectable directions of the sub-part in the graphic area; generating a record display interface and displaying in the record display interface when receiving a position instruction generated after triggering any optional position and receiving a determination instruction: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

In some embodiments of the first aspect of the present application, the method further comprises: providing a turning trigger interface; when a catheter recording request is received, displaying the front side of the three-dimensional human body diagram and displaying labels of various maximum category parts on the front side of the human body; and when a turn-over instruction formed by clicking the turn-over trigger interface is received, displaying the reverse side of the three-dimensional human body figure and displaying the labels of the maximum category parts of the reverse side of the human body.

In some embodiments of the first aspect of the present application, when displaying labels of maximum category parts of a human body, if the maximum category part does not include a sub-part, a mark frame is configured beside the maximum category part, and when the mark frame is selected, the second trigger instruction is generated to display a plurality of selectable orientations of the sub-part.

In some embodiments of the first aspect of the present application, one implementation of generating the second trigger instruction after triggering any sub-bit includes: arranging a mark frame beside each sub part; and generating the second trigger instruction when the mark frame is selected so as to show a plurality of selectable positions of the sub-part.

In some embodiments of the first aspect of the present application, if the sub-portion having the mark box does not include the selectable orientation, when a determination instruction is received, a record presentation interface is generated and presented in the record presentation interface: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

In some embodiments of the first aspect of the present application, the method further comprises: displaying a whole-body mark frame, an uncertain mark frame and other mark frames in the graphic area; and generating corresponding marked characters when any one of the whole body marked frame, the uncertain marked frame and other marked frames is selected.

In some embodiments of the first aspect of the present application, the graphical region presents a plurality of selectable orientations of the sub-portion in the form of a nine or ten grid; one grid contains 0 selectable positions, 1 selectable position or a plurality of selectable positions.

In some embodiments of the first aspect of the present application, the catheter selection area displays available catheters including names of catheters and available days of use of catheters; the menu bar region displaying menu bar options for recording catheter conditions, comprising: the intubation date, the intubation time, the intubation disease area, the intubation department, the recorded personnel information and the catheter use day information are combined; the catheter condition description information displayed on the recording and displaying interface comprises intubation tube current situation information, intubation tube background information, intubation tube risk assessment information and suggestion information.

To achieve the above and other related objects, a second aspect of the present application provides an electronic terminal comprising: the display is used for displaying the newly added catheter interface and the record display interface; at least one memory for storing a computer program; at least one processor, coupled to the display and the memory, for executing the computer program to implement the body diagram-based patient catheter clinical recording method as described above.

To achieve the above and other related objects, a third aspect of the present application provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements a method for anthropometric clinical recording of a patient's body duct as described above.

As described above, the method, the terminal and the medium for clinical recording of a catheter of a patient based on a body diagram of the present application have the following advantages:

1. the catheter is efficiently recorded through the three-order three-dimensional human body diagram, and the human body parts corresponding to the catheters are respectively arranged visually in a direction and a side-by-side manner, so that a clinical nurse can intuitively and clearly understand the conditions of various catheters of a patient on different parts of the body, the care quality of the patient can be improved, errors in the care process can be avoided, and the care quality of the patient is improved.

2. Through the invention, a user can directly click the finest body part content in the simple and quick clinical recording operation process.

Drawings

Fig. 1 is a schematic overall flowchart of a method for clinical recording of a catheter of a patient based on a body diagram according to an embodiment of the present application.

Fig. 2 to 4 are schematic diagrams illustrating a first-order human form in a method for clinical recording of a catheter for a patient based on a human body diagram according to an embodiment of the present application.

Fig. 5 to 15 are schematic diagrams illustrating a second step human figure in a method for clinical recording of a catheter of a patient based on a human figure according to an embodiment of the present application.

Fig. 16 is a schematic diagram of a third step human form in a method for clinical recording of a catheter based on human body diagrams according to an embodiment of the present application.

Fig. 17 is a schematic diagram of a second-order human body diagram to a third-order human body diagram in a human body diagram-based patient body conduit clinical recording method according to an embodiment of the present application.

Fig. 18 is a schematic diagram illustrating a record display interface in a method for clinical recording of a catheter of a patient based on a body diagram according to an embodiment of the present application.

Fig. 19 is a schematic structural diagram of an electronic terminal according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application is provided by way of specific examples, and other advantages and effects of the present application will be readily apparent to those skilled in the art from the disclosure herein. The present application is capable of other and different embodiments and its several details are capable of modifications and/or changes in various respects, all without departing from the spirit of the present application. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

The human body appearance includes a three-dimensional presentation in addition to a very large number of partial out-of-plane presentations, so that the description of the direction and the description of the three-dimensional presentation in the current plane presentation are very difficult.

The embodiment aims to provide a patient body catheter clinical recording method, a terminal and a medium based on a human body diagram, and is used for solving the technical problems that time and labor are wasted in patient catheter clinical recording and medical staff are difficult to accurately know catheter positions of patients in the prior art.

The principle and implementation of a method, a terminal and a medium for clinical recording of a catheter based on a body diagram according to the present embodiment will be described in detail below, so that those skilled in the art can understand the method, the terminal and the medium for clinical recording of a catheter based on a body diagram without creative work.

It should be noted that the method for clinical recording of a catheter for a patient based on a body diagram can be applied to various types of hardware devices. The hardware devices may be, for example, a computer that includes components such as memory, a memory controller, one or more processing units (CPUs), a peripheral interface, RF circuitry, audio circuitry, speakers, a microphone, an input/output (I/O) subsystem, a display screen, other output or control devices, and external ports; the computer includes, but is not limited to, Personal computers such as desktop computers, notebook computers, tablet computers, smart phones, smart televisions, Personal Digital Assistants (PDAs), and the like. In other embodiments, the hardware device may also be a server, where the server may be arranged on one or more entity servers according to various factors such as functions and loads, or may be formed by a distributed or centralized server cluster, and this embodiment is not limited in this embodiment.

In an embodiment, the method for clinical recording of a catheter based on a body diagram of a patient may be implemented by a medical management system, which may display a Graphical User Interface (GUI) in an electronic terminal of a client, the electronic terminal including a display, and display medical procedure data of the patient related to the graphical user interface.

In one embodiment, the electronic terminal may be, for example, a fixed terminal, such as a server, a desktop, or the like; or a mobile terminal, such as a notebook computer, a smart phone, or a tablet computer.

In one embodiment, the electronic terminal can realize the patient body catheter clinical marking based on the human body diagram in an off-line or on-line state.

In an example, the electronic terminal may not access the internet, and is installed with a client APP, and the medical staff may log in the client APP through pre-registered account information, and the client APP may authenticate itself, and provide medical care data related to the account information after the authentication is passed.

The client APP preferably but not exclusively is an SBAR system:

s-treatment (status quo) including the patient 'S bed number and name, the patient' S question;

B-Background including patient complaints, basis and analysis of problems;

A-Assessment including abnormal response of the patient, abnormal reported value, psychological state of the patient, Assessment of the problem, observation point;

R-Recommendation (advice): advice including care measures that have been taken, advice on problem handling.

Fig. 1 shows a flow chart of a method for clinical recording of a catheter of a patient based on a body diagram according to an embodiment of the present invention. As shown in fig. 1, in the present embodiment, the method for clinical recording of a catheter of a patient based on a body diagram includes steps S100 to S400.

Step S100, when a catheter recording request is received, displaying each catheter which can be selected in a catheter selection area of a newly added catheter interface, displaying a three-dimensional human body image in a graphic area of the newly added catheter interface, displaying labels of maximum category parts in each maximum category part of a human body, and displaying menu bar options for recording catheter conditions in a menu bar area of the newly added catheter interface;

step S200, when a first trigger instruction generated after triggering the labeling of any maximum category part is received, displaying the sub-part of the maximum category part in the graphic area and displaying the labeling of the sub-part;

step S300, when a second trigger instruction generated after any sub-part is triggered is received, displaying a plurality of selectable directions of the sub-part in the graphic area;

step S400, when receiving an orientation instruction generated after triggering any optional orientation and receiving a determination instruction, generating a record display interface and displaying in the record display interface: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

The method for clinically recording the catheter of the patient based on the body diagram expands the planar part into the three-dimensional description by comprehensively checking the body part, and respectively provides visual arrangement for the catheter data in the three-dimensional part in the directions and the sides. The medical staff can directly click the finest part content in the simple and quick operation process.

The following describes steps S100 to S400 of the method for clinical recording of a catheter based on a body diagram according to this embodiment in detail.

Step S100, when a catheter recording request is received, displaying each catheter which can be selected in a catheter selection area of a newly added catheter interface, displaying a three-dimensional human body image in a graphic area of the newly added catheter interface, displaying labels of maximum category parts in each maximum category part of a human body, and displaying menu bar options for recording catheter conditions in a menu bar area of the newly added catheter interface.

The embodiment adopts a three-order human figure to optimize the care service. There are 575 human body parts, and it is difficult to record only by text description. In the embodiment, the human body parts are divided into three stages through classification and disassembly, a human figure graph is obtained, and at most, 575 finest body conduit parts of the human body can be recorded intuitively by three steps.

Upon receiving a catheter recording request, a newly added catheter interface is presented, as shown in fig. 2, including a catheter selection area presenting each catheter, a graphical area presenting a three-dimensional body view, and a menu bar area recording catheter conditions.

As shown in fig. 2, in the embodiment, the catheter selection area displays that each catheter available for selection includes the name of each catheter and the available days of each catheter; the catheter selection area displays available catheters including but not limited to: ETT, tracheotomy, an oxygen tube, a T tube, a VSD, a nasobiliary tube, an enterostomy drainage tube, a puncture drainage tube, a cholangioenterostomy drainage tube, a gallbladder bed drainage tube, a sacral anterior drainage tube, a sacral caudal drainage tube and an abdominal wall drainage tube.

The menu bar region displaying menu bar options for recording catheter conditions, comprising: the intubation date, the intubation time, the intubation disease area, the intubation department, the recording personnel information and the catheter use day information.

The figure area displays a three-dimensional human body figure and displays marks of the maximum category parts at each maximum category part of the human body, namely a first-order figure record, wherein the first-order figure record is the maximum category of the human body parts.

In this embodiment, when displaying labels of maximum category parts of a human body, if the maximum category part does not include a sub-part, that is, the maximum category part is already the thinnest part of the human body (e.g., the left shoulder, the right shoulder, the left palm, the right palm, the left foot, and the right foot shown in fig. 2 and fig. 3), a mark frame is configured beside the maximum category part, and when the mark frame is selected, the second trigger instruction is generated to display a plurality of selectable orientations of the sub-part.

In this embodiment, as shown in fig. 2 to 4, the method for clinical recording of a catheter of a patient based on anthropometry further includes:

providing a twist trigger interface (twist as shown in fig. 2-4); when a catheter recording request is received, displaying the front side of the three-dimensional human body diagram and displaying labels of various maximum category parts on the front side of the human body; and when a turn-over instruction formed by clicking the turn-over trigger interface is received, displaying the reverse side of the three-dimensional human body figure and displaying the labels of the maximum category parts of the reverse side of the human body.

Step S200, when receiving a first trigger instruction generated after triggering the labeling of any maximum category part, displaying the sub-part of the maximum category part in the graphic area and displaying the label of the sub-part.

And displaying the sub-part of the maximum category part in the graphic area and displaying the label of the sub-part, namely a second-order human-shaped graph. In the second-order humanoid graph, 14 large categories of body parts are subdivided, these 14 categories including: (front surface): face, chest, abdomen, right finger, left finger, pudendum (male, female); back side: head, neck, back, waist, hip, left toe, right toe. Where the neck, back and waist are specifically positioned in terms of direction and orientation, and therefore not shown in the second hierarchal sketch, the remaining 10 categories of second hierarchal sketch will be described from front to back.

1) The face comprises 21 parts of face, forehead, left alar nose, right alar nose, oral cavity, human middle, left corner, right corner, upper lip, lower lip, eyebrow, left ear, right ear, left cheek, right cheek, chin, left eyebrow, right eyebrow, left eye, right eye, and nose. The human figure is shown in fig. 5.

2) The chest part comprises: 7 parts of the thorax, the left clavicle, the right clavicle, the left breast, the right breast, the left nipple and the right nipple. The human figure is shown in fig. 6.

3) The abdomen contains 4 parts of abdomen, navel, left groin and right groin. The human figure is shown in fig. 7.

4) The right finger comprises 20 parts of a right finger, a right thumb, a first knuckle of the right thumb, a second knuckle of the right thumb, a right index finger, a first knuckle of the right index finger, a second knuckle of the right index finger, a third knuckle of the right index finger, a right middle finger, a first knuckle of the right middle finger, a second knuckle of the right middle finger, a third knuckle of the right middle finger, a right ring finger, a first knuckle of the right ring finger, a second knuckle of the right ring finger, a third knuckle of the right ring finger, a right little finger, a first knuckle of the right little finger, a second knuckle of the right little finger and a third knuckle of the right little finger. The human figure is shown in fig. 8.

5) The left finger comprises 20 parts of a left finger, a left thumb, a first knuckle of the left thumb, a second knuckle of the left thumb, a left index finger, a first knuckle of the left index finger, a second knuckle of the left index finger, a third knuckle of the left index finger, a left middle finger, a first knuckle of the left middle finger, a second knuckle of the left middle finger, a third knuckle of the left middle finger, a left ring finger, a first knuckle of the left ring finger, a second knuckle of the left ring finger, a third knuckle of the left ring finger, a left little finger, a first knuckle of the left little finger, a second knuckle of the left little finger and a third knuckle of the left little finger. The human figure is shown in fig. 9.

6) The pudendum (male) comprises 6 parts of a urethral orifice, a penis head, a penis root, a penis, a scrotum and a urethra. The human figure is shown in fig. 10.

7) The pudendum (female) comprises 6 parts of the labia majora, labia minora, vagina, introitus vaginae, urethra, and urethral orifice. The human figure is shown in fig. 11.

8) The head comprises 5 parts of the head, the occiput, the top, the left temporal part and the right temporal part. The human figure is shown in fig. 12.

9) The buttocks comprise 8 parts of buttocks, a caudal vertebra, a left ischium, a right ischium, a left intestinal bone spine, a right intestinal bone spine, a left hip and a right hip. The human figure is shown in fig. 13.

10) The left toe comprises 6 parts of the whole left toe, the left big toe, the left second toe, the left third toe, the left fourth toe and the left little toe. The human figure is shown in fig. 14.

11) The right toe comprises 6 parts of the whole right toe, the big right toe, the second right toe, the third right toe, the fourth right toe and the little right toe. The human figure is shown in fig. 15.

In step S300, when a second trigger instruction generated after triggering any sub-part is received, a plurality of selectable orientations of the sub-part are displayed in the graphic area.

In this embodiment, one implementation manner of generating the second trigger instruction after triggering any sub-bit includes:

arranging a mark frame beside each sub part; and generating the second trigger instruction when the mark frame is selected so as to show a plurality of selectable positions of the sub-part.

In this embodiment, if the sub-part with the mark frame does not include the selectable position, when a determination instruction is received, a record display interface is generated and displayed in the record display interface: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

If the sub-part with the mark frame contains the selectable orientation, generating the second trigger instruction when the mark frame is selected so as to display a plurality of selectable orientations of the sub-part.

In this embodiment, a plurality of selectable positions of the sub-portion, i.e., a third-order human-shaped diagram, are displayed in the graphic area, the third-order human-shaped diagram represents the thinnest portion, so that the specific position needs to be determined from the direction and the position, and the third-order human-shaped diagram represents the direction and the position in a nine-square or ten-square manner.

Specifically, in this embodiment, the graphic area displays a plurality of selectable positions of the sub-portion in the form of nine-square grids or ten-square grids; one grid contains 0 selectable positions, 1 selectable position or a plurality of selectable positions. Wherein, 0 optional position represents all positions and all ranges of the sub-part, and if the grid is selected, the positions of other grids do not need to be selected specifically.

The directions are specified as follows: and taking an observation descriptor as a reference, wherein the observer is positioned at the center of the nine-grid, the square above represents the upper part and the middle part, the square below represents the lower part and the middle part, the square left represents the left middle part and the left middle part, the square right represents the right middle part and the right middle part, the square above the left represents the upper left, the square above the right represents the upper right, the square below the left represents the lower left, and the square below the right represents the lower right.

The orientation is specified as follows: and taking the observation descriptor as a reference, and enabling the observer to be located at the center of the nine-grid, wherein all the squares on the upper part represent the outer side, and all the squares on the lower part represent the inner side. The square directly above indicates the front side, and the square directly below indicates the rear side.

In general, as shown in fig. 16, with the observer as the reference, the observer is centered in the nine squares, the square right above represents the front, upper, outer, upper outer, and upper middle, the square right below represents the rear, lower, inner, lower inner, and lower middle, the square right left represents the left and middle left, the square right represents the right and middle right, the square left upper represents the upper left and outer left, the square right upper represents the upper right and outer right, the square left lower represents the left lower and inner left, and the square right lower represents the right lower and inner right. When describing the marking direction of a certain sub-part, determining the marking content of each grid according to the specific direction, and if the sub-part does not have the marking direction of a certain grid, not marking the direction of the grid in a third-order human-shaped graph corresponding to the sub-part.

Thus, the human figure can display the thinnest part of the human body intuitively. The third step figure with the sub-part as the chest will be described as an example.

If the target is in the lower middle position of the chest, first click the "chest" in the first step anthropomorphic graph shown in the graphical area in FIG. 2, and then proceed to the second step anthropomorphic graph shown in the graphical area in FIG. 17: showing the thorax, the left clavicle, the right clavicle, the left breast, the right breast, the left nipple and the more specific human body parts of the right nipple. The right clavicle is selected continuously in fig. 17, which shows that the puncture drainage is performed at this position, the right clavicle is the thinnest part of the human body, and a recording display interface is generated and displayed in the recording display interface directly when a determination instruction is received: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

Step S400, when receiving an orientation instruction generated after triggering any optional orientation and receiving a determination instruction, generating a record display interface and displaying in the record display interface: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

The generated record presentation interface is shown in fig. 18.

As shown in fig. 18, the catheter condition description information displayed on the recording and displaying interface includes various combinations of intubation date, intubation time, intubation disease area, intubation department, recorded personnel information, and catheter usage day information.

Specifically, the medical staff writes the cannula and the like, clicks and stores after writing, and the SBAR system can automatically summarize to generate the diagram 18.

In this embodiment, the method further includes: displaying a whole body mark frame, an uncertain mark frame and other mark frames in the graphic area; and generating corresponding marked characters when any one of the whole body marked frame, the uncertain marked frame and other marked frames is selected.

In this embodiment, the method further includes: and displaying the record display interface when a display request is received. From fig. 18, it can be seen that the position of the catheter of the patient has been graphically indicated in the anthropomorphic diagram. When medical personnel who attends a shift carry out the operation of attending a shift, because the catheter position with this patient has been marked out with the pattern, so medical personnel who attends a shift can grasp patient's catheter comprehensive condition more directly perceivedly accurately, also can carry out unanimous care to the patient better.

The catheter is recorded through the three-order human-shaped graph of the embodiment, so that various catheter conditions of a patient can be intuitively and clearly known by a clinical nurse, and the care quality of the patient is improved. With respect to catheters, a clinical nurse records catheters as accurate as a specific location by clicking on a three-step chart, and then a nurse on duty can clearly understand the various conditions of the patient.

This embodiment passes through three-order anthropomorphic graphs, needs three steps at most, alright point to select the thinnest health position to can record the pipe more high-efficiently, also make clinical nurse more directly perceived clearly understand patient's various pipe conditions, promoted the quality of care to patient.

Therefore, the patient body catheter clinical recording method based on the human body diagram breaks through the difficulty that the original part can only be recorded in a text description mode, different positions of the human body part can be recorded in a visual angle during recording, the finest part of the human body can be recorded without more than three steps in the operation process, and the conditions of various catheters of a patient presented in different parts of the body can be more clearly known through visual management of the appearance of the patient during the patient nursing process of a clinical nurse. The quality of patient care can be improved, and errors in the care process can be avoided.

As shown in fig. 19, a schematic structural diagram of an electronic terminal in the embodiment of the present application is shown.

The electronic terminal includes:

at least one display 1001 for displaying the newly added catheter interface and the record display interface.

In one embodiment, the display may be an OLED, LED, LCD display, or the like.

At least one memory 1002 for storing computer programs;

at least one processor 1003, coupled to the display 1001 and the memory 1002, is configured to run the computer program to implement the steps of the above method embodiments.

The memory 1102 is connected with the processor 1101 through a system bus to complete mutual communication, the memory 1102 is used for storing computer programs, and the processor 1101 is used for operating the computer programs so as to enable the electronic terminal to execute the body diagram based patient body duct clinical recording method. The method for recording the patient body catheter clinical record based on the human body diagram has been described in detail above, and will not be described in detail herein.

It should be noted that the above-mentioned system bus may be a Peripheral Component Interconnect (PCI) bus, an Extended Industry Standard Architecture (EISA) bus, or the like. The system bus may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown, but this does not mean that there is only one bus or one type of bus. The communication interface is used for realizing communication between the database access device and other equipment (such as a client, a read-write library and a read-only library). The Memory may include a Random Access Memory (RAM), and may further include a non-volatile Memory (non-volatile Memory), such as at least one disk Memory.

The Processor 1101 may be a general-purpose Processor, and includes a Central Processing Unit (CPU), a Network Processor (NP), and the like; the device can also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, a discrete Gate or transistor logic device, or a discrete hardware component.

Furthermore, the present embodiment also provides a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the method for clinical recording of a catheter of a patient based on a body map. The method for recording the patient body catheter clinical record based on the human body diagram has been described in detail above, and will not be described in detail herein.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the above-described method embodiments may be performed by hardware associated with a computer program. The aforementioned computer program may be stored in a computer readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

In conclusion, the catheters are efficiently recorded through the three-order three-dimensional human body diagram, and the human body parts corresponding to the catheters are respectively arranged visually in a direction and a side-by-side manner, so that a clinical nurse can intuitively and clearly understand the conditions of various catheters of a patient on different parts of the body, the quality of care of the patient can be improved, errors in the process of care can be avoided, and the quality of care of the patient is improved; through the invention, a user can directly click the finest body part content in the simple and quick clinical recording operation process. Therefore, the application effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and utilities of the present application and are not intended to limit the application. Any person skilled in the art can modify or change the above-described embodiments without departing from the spirit and scope of the present application. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical concepts disclosed in the present application shall be covered by the claims of the present application.

Claims (10)

1. A patient body catheter clinical recording method based on a human body diagram is characterized in that: the method comprises the following steps:

when a catheter recording request is received, displaying all catheters available for selection in a catheter selection area of a newly added catheter interface, displaying a three-dimensional human body image in a graphic area of the newly added catheter interface, displaying labels of maximum category parts at all maximum category parts of a human body, and displaying menu bar options for recording catheter conditions in a menu bar area of the newly added catheter interface;

when a first trigger instruction generated after triggering the labeling of any maximum category part is received, displaying the sub-part of the maximum category part in the graphic area and displaying the labeling of the sub-part;

when a second trigger instruction generated after any sub-part is triggered is received, displaying a plurality of selectable directions of the sub-part in the graphic area;

generating a record display interface and displaying in the record display interface when receiving a position instruction generated after triggering any optional position and receiving a determination instruction: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

2. The method of figure-based clinical recording of a catheter in a patient's body according to claim 1, wherein: further comprising:

providing a turning trigger interface;

when a catheter recording request is received, displaying the front side of the three-dimensional human body diagram and displaying labels of various maximum category parts on the front side of the human body;

and when a turn-over instruction formed by clicking the turn-over trigger interface is received, displaying the reverse side of the three-dimensional human body figure and displaying the labels of the maximum category parts of the reverse side of the human body.

3. The method of figure-based clinical recording of a catheter in a patient's body according to claim 1, wherein: when the labels of the maximum category parts of the human body are displayed, if the maximum category parts do not contain the sub-parts, a marking frame is configured beside the maximum category parts, and the second trigger instruction is generated when the marking frame is selected so as to display a plurality of selectable directions of the sub-parts.

4. The method of figure-based clinical recording of a catheter in a patient's body according to claim 1, wherein: one implementation of generating the second trigger instruction after triggering any sub-bit includes:

arranging a mark frame beside each sub part;

and generating the second trigger instruction when the mark frame is selected so as to show a plurality of selectable positions of the sub-part.

5. The method for clinical recording of a catheter of a patient's body based on anthropometry according to claim 3 or 4, wherein: if the sub-part with the mark frame does not contain the selectable orientation, generating a record display interface and displaying in the record display interface when receiving a determination instruction: and establishing and displaying a catheter mark pattern and catheter condition description information corresponding to the sub-part and the selected position on the stereoscopic human body diagram and the selected position corresponding to the sub-part and the selected position.

6. The method of figure-based clinical recording of a catheter in a patient's body according to claim 1, wherein: further comprising:

displaying a whole-body mark frame, an uncertain mark frame and other mark frames in the graphic area;

and generating corresponding marked characters when any one of the whole body marked frame, the uncertain marked frame and other marked frames is selected.

7. The method of figure-based clinical recording of a catheter in a patient's body according to claim 1, wherein:

the graphic area displays a plurality of selectable directions of the sub-part in a nine-square grid or ten-square grid form; one grid contains 0 selectable positions, 1 selectable position or a plurality of selectable positions.

8. The method of figure-based clinical recording of a catheter in a patient's body according to claim 1, wherein: the catheter selection area displays each catheter which can be selected and comprises the name of each catheter and the available days of each catheter; the menu bar region displaying menu bar options for recording catheter conditions, comprising: the intubation date, the intubation time, the intubation disease area, the intubation department, the recorded personnel information and the catheter use day information are combined; the catheter condition description information displayed on the recording and displaying interface comprises intubation tube current situation information, intubation tube background information, intubation tube risk assessment information and suggestion information.

9. An electronic terminal, characterized by: the method comprises the following steps:

the display is used for displaying the newly added catheter interface and the record display interface;

at least one memory for storing a computer program;

at least one processor, coupled to the display and the memory, for executing the computer program to implement the body diagram based patient body catheter clinical recording method according to any one of claims 1 to 8.

10. A computer-readable storage medium having stored thereon a computer program, characterized in that: the computer program, when executed by a processor, implements the method of anthropometric clinical recording of a patient's body duct based on a body map of any one of claims 1 to 8.

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