CN117594178A - Method, system, storage medium and equipment for processing vital sign information - Google Patents

Abstract

The invention provides a vital sign information processing method, a system, a storage medium and equipment, wherein the method comprises the steps of constructing a vital sign integration interface by combining a child height development comparison table, sequentially generating a body temperature input frame, a blood pressure input frame, a height weight input frame, a respiratory pulse input frame and other multiple vital sign frames in the vital sign integration interface, then importing patient basic vital sign information such as gender and age into the vital sign integration interface, so that the system searches all standard interval values corresponding to the age in the child height development comparison table and takes the standard interval values as interval ranges in the vital sign frames, then activating a control cursor in the vital sign frame according to vital sign information of a patient by acquiring the vital sign information of the patient, enabling the control cursor to slide to corresponding interval scales according to coordinate positions, and enabling medical staff to intuitively observe all vital sign information of the patient through the interval scales identified by the control cursor.

Description

Method, system, storage medium and equipment for processing vital sign information

Technical Field

The invention relates to the technical field of medical software design, in particular to a method, a system, a storage medium and equipment for processing vital sign information.

Background

Medical software, namely a hospital information management system (Hospital Information System is abbreviated as HIS), is an edge science integrating multiple subjects of medicine, information, management, computers and the like. Medical software is a necessary technical support and infrastructure for modern hospital operation, and the aim of realizing the medical software is to strengthen the management of hospitals by means of more modernization, scientization and standardization, improve the working efficiency of the hospitals and improve the medical quality, thereby setting up new images of modern hospitals, and being the necessary direction of future hospital development.

The existing medical software for recording vital sign information lacks of overall design and medical software thinking, more is solved by filling and recording, and has little attention to the integrality and intuitiveness of data, but the medical software just needs intuitionistic medical data to be displayed, and vital sign recording is more scattered, the recorded body temperature is put in one place, the body height is put in one place, the diastolic pressure and the systolic pressure are put in another place, the data are recorded at a plurality of places, vital sign data of a patient cannot be intuitively reflected, and the practical degree is lower.

Disclosure of Invention

Based on the above, the invention aims to provide a vital sign information processing method, a system, a storage medium and a device, which are used for solving the problems that in the prior art, the existing medical software for inputting the vital sign information lacks of integral design and medical software thinking, more is solved by filling and inputting, has no much attention points in the aspects of data integration and intuition, and has lower practical degree.

The vital sign information processing method is applied to a vital sign integration system and used for inputting and displaying vital sign information of a patient, and the method comprises the following steps:

acquiring a child height development comparison table, and importing the vital sign integration system to construct the vital sign integration interface;

generating a vital sign frame in the vital sign integration interface, wherein the vital sign frame at least comprises a body temperature input frame, a blood pressure input frame, a height and weight input frame and a respiratory pulse input frame;

acquiring basic physical sign information of a patient, wherein the basic physical sign information at least comprises age information and sex information, searching physical sign interval values matched with the basic physical sign information in the child height development comparison table, determining an interval range in the physical sign frame according to the physical sign interval values, multiplying the physical sign interval values by a preset system representing distance, determining the length information of the interval range, determining each interval scale of the interval range according to each preset system representing distance, and recording the coordinate position of each group of interval scales;

determining the sign interval value as a standard interval in the sign frame, and expanding the standard interval to two sides by a preset interval to respectively obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval;

and acquiring vital sign information of the patient, and activating a control cursor in the vital sign frame according to the vital sign information of the patient, so that the control cursor slides to the corresponding interval scale according to the coordinate position.

Further, after determining the sign interval value in the sign frame as a standard interval and expanding the standard interval to two sides by a preset interval to obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval, the method further includes:

and marking the standard section, the first abnormal section and the section scale in the second abnormal section by a character pattern, so as to respectively obtain the standard section with the section scale marked by a green character pattern, the first abnormal section with the section scale marked by a red character pattern and the second abnormal section with the section scale marked by a blue character pattern.

Further, the step of obtaining vital sign information of the patient, activating a control cursor in the vital sign frame according to the vital sign information of the patient, and sliding the control cursor to the corresponding interval scale according to the coordinate position includes:

acquiring the coordinate position of the control cursor, and judging the section of the control cursor according to the coordinate position;

if the control cursor is positioned in the second abnormal interval, filling the control cursor with a first color from the starting point interval of the second abnormal interval;

if the control cursor is positioned in the standard interval, filling the control cursor with a second color from the starting point interval of the second abnormal interval;

and if the control cursor is positioned in the first abnormal section, filling the control cursor with a third color from the starting point section of the second abnormal section.

Further, after the step of obtaining the coordinate position of the control cursor and judging the section of the control cursor according to the coordinate position, the method further includes:

determining the number of control cursors respectively located in the first abnormal section and the second abnormal section in each sign frame;

judging whether the number of the control cursors meets a preset value or not;

if yes, obtaining boundary coordinates of the vital sign integration interface, and expanding the boundary coordinates by a preset range to obtain an expanded frame.

Further, after the step of obtaining the boundary coordinates of the vital sign integration interface and expanding the boundary coordinates by a preset range to obtain an expanded frame, the method further includes:

and picking up the area between the vital sign integration interface and the expanding frame, determining the area as a filling area, and determining the color in the filling area according to the number of the control cursors.

Further, the step of determining the color in the filling area according to the number of the control cursors includes:

when the number of the control cursors is greater than or equal to a first threshold value, filling a fourth color into the filling area;

and filling a fifth color in the filling area when the number of the control cursors is smaller than a second threshold value.

Further, the first color is blue, the second color is green, the third color is red, the fourth color is orange, and the fifth color is purple.

A vital sign information processing system according to an embodiment of the present invention, the system comprising:

the first construction module is used for acquiring a child height development comparison table, importing the vital sign integration system and constructing the vital sign integration interface;

the second construction module is used for generating a vital sign frame in the vital sign integration interface, and the vital sign frame at least comprises a body temperature input frame, a blood pressure input frame, a height weight input frame and a respiratory pulse input frame;

the coordinate calibration module is used for acquiring basic sign information of a patient, wherein the basic sign information at least comprises age information and sex information, searching a sign interval value matched with the basic sign information in the child height development comparison table, determining an interval range in the sign frame according to the sign interval value, determining length information of the interval range, equally dividing interval scales of the interval range according to the interval range and the length information, and recording coordinate positions of each group of interval scales;

the interval definition module is used for determining the sign interval value in the sign frame as a standard interval, and expanding the standard interval to two sides by a preset interval to respectively obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval;

the information input module is used for acquiring vital sign information of a patient, activating a control cursor in the vital sign frame according to the vital sign information of the patient, and enabling the control cursor to slide to the corresponding interval scale according to the coordinate position.

The present invention also proposes a computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, implements a method for processing vital sign information as described above.

The invention also provides a vital sign information processing device which comprises a memory, a processor and a computer program stored on the memory and running on the processor, and is used for processing the vital sign information processing method.

Compared with the prior art: the invention provides a vital sign information processing method, which comprises the steps of constructing a vital sign integration interface by combining a child height development comparison table, sequentially generating a plurality of vital sign frames such as a body temperature input frame, a blood pressure input frame, a height weight input frame, a respiratory pulse input frame and the like in the vital sign integration interface, then importing patient basic vital sign information such as gender and age into the vital sign integration interface, so that a system searches for each standard interval value of the corresponding age in the child height development comparison table and takes the standard interval value as an interval range in the vital sign frame, then activating a control cursor in the vital sign frame according to the vital sign information of a patient by acquiring the vital sign information of the patient, enabling the control cursor to slide to the corresponding interval scale according to the coordinate position, enabling medical staff to intuitively observe each vital sign information of the patient through the interval scale marked by the control cursor, solving the problems of medical software input by the existing vital sign information, lacking overall design and medical software thought, and more solving the problems of having no much attention points in terms of filling and intuitionism and low practical degree in terms.

Drawings

Fig. 1 is a flowchart of a vital sign information processing method in a first embodiment of the present invention;

fig. 2 is a flowchart of a vital sign information processing method in a second embodiment of the present invention;

fig. 3 is a block diagram showing the structure of a vital sign information processing system in a third embodiment of the present invention;

fig. 4 is a schematic diagram of a vital sign integration interface according to a first embodiment of the invention.

The following detailed description will further illustrate the invention with reference to the above-described drawings.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Several embodiments of the invention are presented in the figures. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Example 1

Referring to fig. 1 and fig. 4, a method for processing vital sign information according to a first embodiment of the present invention is shown, and the method specifically includes steps S01-S05.

And S01, acquiring a child height development comparison table, and importing a vital sign integration system to construct a vital sign integration interface.

Step S02, generating a vital sign frame in the vital sign integration interface, wherein the vital sign frame at least comprises a body temperature input frame, a blood pressure input frame, a height and weight input frame and a respiratory pulse input frame.

In the implementation, a vital sign integration interface is constructed by acquiring a child height development comparison table (as shown in fig. 4 in the specification and drawings), and it is to be noted that the application may be for the integration of vital sign information of a child, where a vital sign range value marked by a child with age 0 to 6 is recorded in the child height development comparison table, where the application includes at least that a height range section, a weight range section, a body temperature range section, a blood pressure range section, a respiratory frequency range section, a pulse range section and the like of a child developing at different ages are standard reference data, and then the data are sequentially sorted and formed into a sign frame corresponding to each vital sign, and an editable state is in the sign frame for the medical staff to fill out and upload and record patient detection data.

In addition, in order to improve the practical range and applicable crowd of the present application, in some optional embodiments of the present invention, the child height development comparison table and the adult height weight standard comparison table may be obtained simultaneously, where the child height development comparison table and the adult height weight standard comparison table are specific to domestic crowd, and the data are public common knowledge data in the field.

Step S03, basic sign information of a patient is obtained, the basic sign information at least comprises age information and sex information, sign interval values matched with the basic sign information are searched in a child height development comparison table, an interval range is determined in a sign frame according to the sign interval values, meanwhile, the sign interval values are multiplied by preset system representing distances to determine length information of the interval range, each interval scale of the interval range is determined according to each preset system representing distance, and the coordinate position of each group of interval scales is recorded.

Step S04, determining the sign interval value as a standard interval in the sign frame, and expanding the standard interval to two sides by a preset interval to respectively obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval.

In the implementation of step S03 and step S04, the basic sign information of the patient is acquired, in some alternative embodiments, the basic sign information of the patient may be imported by wireless transmission, a control cursor corresponding to a scale is generated in a sign frame, a medical staff may manually drag the control cursor to the corresponding scale or manually input the control cursor into a vital sign integration interface, the control cursor is displayed through the sign frame, wherein the basic sign information of the patient at least includes the age, the sex, etc. of the patient, then the vital sign integration system searches a standard sign data range of the patient at the corresponding age in a child height development comparison table imported in step S01, and sequentially imports the ranges into the vital sign frame in the vital sign integration interface, for example, if the standard height range of a child aged three years is 70-90 cm, and if the height range of a child aged 0-6 years is 40-120 cm, the height range of the child aged 0-6 years is regarded as a reference, and taking a section meeting the length of 20cm at the middle position of the section to serve as the standard height range of a three-year-old child, and in addition, displaying the length of 20cm in the system according to a preset system representation distance of 1.5 in a mode that one side of the physical sign frame extends to the other side, namely, 20 times 1.5, so as to obtain the standard height range of the three-year-old child in 70-90 cm, wherein the section is displayed in the system with the length of 30, medical staff can select and expand the corresponding section according to the consultation crowd to adapt to more patients, the original standard height range of 70-90 cm can be outwards expanded to 20cm at two sides respectively, coordinate information of a 70cm scale and coordinate information of 90cm can be obtained respectively correspondingly, and under the condition that the standard height range is unchanged at 70-90 cm, the distance of 20 x 1.5 is outwards expanded to one side of 70cm, and the distance of 20 x 1.5 is recorded to be 50cm, the distance of 20 x 1.5 is outwards expanded to one side of 90cm in the same way, and the distance is recorded to be 110cm, so that the first abnormal region of 90-110 cm and the second abnormal region of 50-70 cm are newly added, and the same applies to the regional adjustment in any of the above-mentioned physical sign frames.

Further, for implementation of step S05, the standard interval range and the length information thereof obtained in step S02 are obtained, if the standard interval range is 70-90 cm, the scale to be marked in the interval is 20cm, and the length of the interval corresponding to 20cm in the system is 30, and the actual display length of each cm in the system is 1.5, the length of 20cm is calibrated in sequence according to the display length of the system of each 1.5, and the coordinate position of each calibration point, namely, each scale on the system is obtained, so that the coordinate position of the corresponding scale can be accurately positioned when a follow-up medical staff drags a control cursor, and visual display of the follow-up numerical value is ensured.

And S05, acquiring vital sign information of the patient, and activating a control cursor in the vital sign frame according to the vital sign information of the patient, so that the control cursor slides to a corresponding interval scale according to the coordinate position.

In the specific implementation, the vital sign information of the patient is obtained, which is the same as the basic vital sign information of the patient obtained in the step S02, in some optional embodiments, a control cursor corresponding to a scale is generated in a vital sign frame, and a medical staff can manually drag the control cursor to the corresponding scale, or manually input all vital sign information of the patient into a vital sign integration interface in a unified manner, and it is required to explain that the information is the actual information obtained by the patient after medical detection, such as the current height information, weight information, body temperature information, blood pressure information, respiratory rate information, pulse information and the like of the patient, then the medical staff can drag the vital sign integration interface generated in the steps through operating the vital sign integration interface in the corresponding vital sign frame, so that the control cursor correspondingly slides to the indicated scale position in the vital sign frame, in some optional embodiments, or sequentially introduce vital sign information of the patient into the corresponding scale according to an introduced value, then obtain the coordinate position of the scale, and control cursor is the coordinate position of the corresponding scale in the vital sign frame, and observe that the vital sign information of the patient is in the corresponding scale frame in a certain visual manner when the vital sign information exceeds the corresponding scale, and the vital sign information of the patient is in the corresponding scale frame, and if the value is in the range of the vital sign information is visible in the corresponding to the vital sign frame.

In summary, the vital sign information processing method in the above embodiment constructs a vital sign integration interface by combining with a child height development comparison table, sequentially generates a body temperature input frame, a blood pressure input frame, a height weight input frame, a respiratory pulse input frame and other multiple vital sign frames in the vital sign integration interface, then, introduces patient basic vital sign information such as gender and age into the vital sign integration interface, so that the system searches for each standard interval value of the corresponding age in the child height development comparison table and takes the standard interval value as an interval range in the vital sign frame, then activates a control cursor in the vital sign frame according to the vital sign information of the patient by acquiring the vital sign information of the patient, enables the control cursor to slide to the corresponding interval scale according to the coordinate position, enables medical staff to intuitively observe each vital sign information of the patient through the interval scale marked by the control cursor, solves the problems of the existing vital sign information, lacks of integral design and medical software thought, and solves the problems of filling, inputting, has no visual integration of data, and has a low practical degree.

Example two

Referring to fig. 2, a method for processing vital sign information according to a second embodiment of the present invention is shown, and the method specifically includes steps S11 to S26.

Step S11, a child height development comparison table and an adult height standard comparison table are obtained, the child height development comparison table and the adult height standard comparison table are imported into a vital sign integration system, a vital sign integration interface is constructed, and a vital sign frame is generated in the vital sign integration interface and at least comprises a body temperature input frame, a blood pressure input frame, a height weight input frame and a respiratory pulse input frame.

Step S12, basic sign information of a patient is obtained, the basic sign information at least comprises age information and sex information, sign interval values matched with the basic sign information are searched in a child height development comparison table and an adult height standard comparison table, an interval range is determined in a sign frame according to the sign interval values, and meanwhile, length information of the interval range is determined.

Step S13, according to the interval scale of the interval range, such as the interval range and the length information, and the coordinate position of each group of interval scale is recorded.

Step S14, determining the sign interval value as a standard interval in the sign frame, and expanding the standard interval to two sides by a preset interval to respectively obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval.

And S15, respectively marking the standard section, the first abnormal section and the section scale in the second abnormal section by a typeface, and respectively obtaining the standard section marked with the section scale by a green typeface, the first abnormal section marked with the section scale by a red typeface and the second abnormal section marked with the section scale by a blue typeface.

In the implementation, in order to further improve visual presentation of the vital sign integration interface, standard intervals, first abnormal intervals and interval scales in second abnormal intervals can be respectively marked by words, so that standard intervals with interval scales marked by green words, first abnormal intervals with interval scales marked by red words and second abnormal intervals with interval scales marked by blue words are respectively obtained.

And S16, acquiring vital sign information of the patient, and activating a control cursor in the vital sign frame according to the vital sign information of the patient, so that the control cursor slides to a corresponding interval scale according to the coordinate position.

Step S17, the coordinate position of the control cursor is obtained, the section where the control cursor is located is judged according to the coordinate position, if the control cursor is located in the second abnormal section, step S18 is executed, if the control cursor is located in the standard section, step S19 is executed, and if the control cursor is located in the first abnormal section, step S20 is executed.

And S18, filling the control cursor distance second abnormal interval starting point interval with blue.

And S19, filling the control cursor distance second abnormal interval starting point interval with green.

Step S20, filling the control cursor distance second abnormal section starting point section with red.

For the implementation of step S17 to step S20, based on the implementation of step S16, after the control cursor slides onto the corresponding interval scale according to the coordinate position, the interval where the current control cursor is located is determined according to the coordinate position of the control cursor after sliding, when the control cursor is located in the second abnormal interval, the starting point coordinate of the second abnormal interval is obtained, and the interval between the starting point coordinate of the second abnormal interval and the control cursor located in the second abnormal interval is filled with blue, and similarly, when the control cursor is located in the standard interval, the starting point coordinate of the second abnormal interval is obtained, and the interval between the starting point coordinate of the second abnormal interval and the control cursor located in the standard interval is filled with green, and similarly, when the control cursor is located in the first abnormal interval, the starting point coordinate of the second abnormal interval is obtained, and the interval between the starting point coordinate of the second abnormal interval and the control cursor located in the first abnormal interval is filled with red, so that the visual display of the vital sign integration interface in front of a person is further improved through color.

And S21, determining the number of control cursors respectively positioned in the first abnormal section and the second abnormal section in each sign frame.

Step S22, judging whether the number of the control cursors meets a preset value, if yes, executing step S23.

Step S23, obtaining boundary coordinates of the vital sign integration interface, and expanding the boundary coordinates by a preset range to obtain an expanded frame.

For the implementation of step S21 to step S23, the number of spatial cursors in the first abnormal section and the second abnormal section in all the sign frames is counted, it can be understood that the abnormal data exist in the display data such as the height range section, the weight range section, the body temperature range section, the blood pressure range section, the respiratory frequency range section, the pulse range section and the like, then whether the number of abnormal cursors is greater than one is judged, if the number of abnormal cursors is greater than one, the abnormal data exist in the vital sign information of the current patient, the boundary coordinates of the vital sign integration interface constructed at present are obtained, the boundary coordinates are expanded by 3-5 system display lengths, and if the system display lengths are the same as those of the first embodiment, an external expansion frame is obtained at the peripheral edge of the vital sign integration interface, and if the number of abnormal cursors is less than one, the vital sign information of the patient is displayed normally through the vital sign integration interface.

And step S24, picking up the area between the vital sign integration interface and the external expansion frame, determining the area as a filling area, and determining the color in the filling area according to the number of the control cursors.

In step S25, when the number of control cursors is greater than or equal to the first threshold, the filling area is filled with orange color.

In step S26, when the number of control cursors is smaller than the second threshold, the filling area is filled with gray.

For the implementation of step S24 to step S26, the area between the vital sign integration interface and the external expansion frame is picked up and is determined as a filling area, the filling area is determined to be filled with color according to the number of abnormal space cursors, orange is filled in the filling area when the number of control cursors is greater than or equal to three, gray is filled in the filling area when the number of control cursors is less than three, and through the operation, the display of abnormal data of a patient can be further improved, so that when a medical staff turns over and collates the vital sign data of the patient, whether the patient is a focus attention object or not can be primarily determined through the filling color of the peripheral edge of the vital sign integration interface, and then the patient condition can be known by matching with the visual data displayed in the vital sign frame.

In summary, the vital sign information processing method in the above embodiment is different from the embodiment in that the application scope of the present invention is improved by expanding the range of the vital sign frame interval, which is suitable for vital sign information input of different people, in order to further improve visual display of the vital sign integration interface in front of medical staff, the interval in each vital sign frame can be defined, and three different colors of blue, green and red are displayed, so that the medical staff can intuitively judge that some data of the patient are abnormal according to the colors, and further observe and analyze, and in addition, statistics is performed on abnormal data, and color filling is performed on the peripheral edge of the vital sign integration interface based on the abnormal data, so that the medical staff can directly screen the patient with abnormal data, and the screened patient is determined as a focus attention object.

Example III

In another aspect, the present invention further provides a vital sign information processing system, where the implementing vital integration system is configured to implement the steps of the method described in any of the first to second embodiments, please refer to fig. 3, and the system includes:

the first construction module 11 is used for acquiring a child height development comparison table, importing the vital sign integration system and constructing the vital sign integration interface;

a second building module 12, configured to generate a vital sign frame in the vital sign integration interface, where the vital sign frame includes at least a body temperature entry frame, a blood pressure entry frame, a height weight entry frame, and a respiratory pulse entry frame;

the coordinate calibration module 13 is configured to obtain basic sign information of a patient, where the basic sign information includes at least age information and gender information, search a sign interval value matched with the basic sign information in the child height development comparison table, determine an interval range in the sign frame according to the sign interval value, determine length information of the interval range, and equally divide interval scales of the interval range according to the interval range and the length information, and record coordinate positions of each group of interval scales;

the interval definition module 14 is configured to determine the sign interval value in the sign frame as a standard interval, and expand the standard interval to two sides by a preset interval to obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval;

the information input module 15 is configured to obtain vital sign information of a patient, activate a control cursor in the vital sign frame according to the vital sign information of the patient, and slide the control cursor to the corresponding interval scale according to the coordinate position.

Example IV

Another aspect of the present invention also provides a readable storage medium having stored thereon a computer program, the computer program

The program is executed by a processor to implement the steps of the method according to any one of the first to second embodiments.

Example five

In another aspect, the present invention also provides a vital sign information processing apparatus, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor implements the steps of the method according to any one of the first to second embodiments.

The technical features of the above embodiments may be arbitrarily combined, and for brevity, all of the possible combinations of the technical features of the above embodiments are not described, however, they should be considered as the scope of the description of the present specification as long as there is no contradiction between the combinations of the technical features.

Those of skill in the art will appreciate that the logic and/or steps represented in the flow diagrams or otherwise described herein, e.g., a ordered listing of executable instructions for implementing logical functions, can be embodied in any computer-readable medium for use by or in connection with an instruction execution system, apparatus, or device, such as a computer-based system, processor-containing system, or other system that can fetch the instructions from the instruction execution system, apparatus, or device and execute the instructions. For the purposes of this description, a "computer-readable medium" can be any means that can contain, store, communicate, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device.

More specific examples (a non-exhaustive list) of the computer-readable medium would include the following: an electrical connection (electronic device) having one or more wires, a portable computer diskette (magnetic device), a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber device, and a portable compact disc read-only memory (CDROM). In addition, the computer readable medium may even be paper or other suitable medium on which the program is printed, as the program may be electronically captured, via, for instance, optical scanning of the paper or other medium, then compiled, interpreted or otherwise processed in a suitable manner, if necessary, and then stored in a computer memory.

It is to be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof.

In the above-described embodiments, the various steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, may be implemented using any one or combination of the following techniques, as is well known in the art: discrete logic circuits having logic gates for implementing logic functions on data signals, application specific integrated circuits having suitable combinational logic gates, programmable Gate Arrays (PGAs), field Programmable Gate Arrays (FPGAs), and the like.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A vital sign information processing method applied to a vital sign integration system for inputting and displaying vital sign information of a patient, the method comprising:

acquiring a child height development comparison table, and importing the vital sign integration system to construct a vital sign integration interface;

generating a vital sign frame in the vital sign integration interface, wherein the vital sign frame at least comprises a body temperature input frame, a blood pressure input frame, a height and weight input frame and a respiratory pulse input frame;

acquiring basic physical sign information of a patient, wherein the basic physical sign information at least comprises age information and sex information, searching physical sign interval values matched with the basic physical sign information in the child height development comparison table, determining an interval range in the physical sign frame according to the physical sign interval values, multiplying the physical sign interval values by a preset system representing distance, determining the length information of the interval range, determining each interval scale of the interval range according to each preset system representing distance, and recording the coordinate position of each group of interval scales;

determining the sign interval value as a standard interval in the sign frame, and expanding the standard interval to two sides by a preset interval to respectively obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval;

and acquiring vital sign information of the patient, and activating a control cursor in the vital sign frame according to the vital sign information of the patient, so that the control cursor slides to the corresponding interval scale according to the coordinate position.

2. The vital sign information processing method according to claim 1, wherein after the steps of determining the value of the vital sign section as a standard section in the vital sign frame, and expanding the standard section to both sides by a preset section to obtain a first abnormal section exceeding the standard section and a second abnormal section lower than the standard section, respectively, further comprising:

and marking the standard section, the first abnormal section and the section scale in the second abnormal section by a character pattern, so as to respectively obtain the standard section with the section scale marked by a green character pattern, the first abnormal section with the section scale marked by a red character pattern and the second abnormal section with the section scale marked by a blue character pattern.

3. The vital sign information processing method according to claim 2, wherein the step of acquiring vital sign information of a patient, activating a control cursor in the vital sign frame according to the vital sign information of the patient, and sliding the control cursor to the corresponding interval scale according to the coordinate position comprises:

acquiring the coordinate position of the control cursor, and judging the section of the control cursor according to the coordinate position;

if the control cursor is positioned in the second abnormal interval, filling the control cursor with a first color from the starting point interval of the second abnormal interval;

if the control cursor is positioned in the standard interval, filling the control cursor with a second color from the starting point interval of the second abnormal interval;

and if the control cursor is positioned in the first abnormal section, filling the control cursor with a third color from the starting point section of the second abnormal section.

4. The vital sign information processing method according to claim 3, wherein after the step of acquiring the coordinate position of the control cursor and determining the section in which the control cursor is located according to the coordinate position, the method further comprises:

determining the number of control cursors respectively located in the first abnormal section and the second abnormal section in each sign frame;

judging whether the number of the control cursors meets a preset value or not;

if yes, obtaining boundary coordinates of the vital sign integration interface, and expanding the boundary coordinates by a preset range to obtain an expanded frame.

5. The vital sign information processing method according to claim 4, wherein after the step of obtaining the boundary coordinates of the vital sign integration interface and expanding the boundary coordinates by a preset range to obtain an expanded frame, further comprises:

and picking up the area between the vital sign integration interface and the expanding frame, determining the area as a filling area, and determining the color in the filling area according to the number of the control cursors.

6. The vital sign information processing method of claim 5, wherein the step of determining the color in the fill area according to the number of control cursors comprises:

when the number of the control cursors is greater than or equal to a first threshold value, filling a fourth color into the filling area;

and filling a fifth color in the filling area when the number of the control cursors is smaller than a second threshold value.

7. The vital sign information processing method according to claim 6, wherein the first color is blue, the second color is green, the third color is red, the fourth color is orange, and the fifth color is purple.

8. A vital sign information processing system for implementing the vital sign information processing method of any of claims 1-7, the system comprising:

the first construction module is used for acquiring a child height development comparison table, importing the vital sign integration system and constructing the vital sign integration interface;

the second construction module is used for generating a vital sign frame in the vital sign integration interface, and the vital sign frame at least comprises a body temperature input frame, a blood pressure input frame, a height weight input frame and a respiratory pulse input frame;

the coordinate calibration module is used for acquiring basic sign information of a patient, wherein the basic sign information at least comprises age information and sex information, searching a sign interval value matched with the basic sign information in the child height development comparison table, determining an interval range in the sign frame according to the sign interval value, multiplying the sign interval value by a preset system representation distance, determining the length information of the interval range, determining each interval scale of the interval range according to each preset system representation distance, and recording the coordinate position of each group of interval scales;

the interval definition module is used for determining the sign interval value in the sign frame as a standard interval, and expanding the standard interval to two sides by a preset interval to respectively obtain a first abnormal interval exceeding the standard interval and a second abnormal interval lower than the standard interval;

the information input module is used for acquiring vital sign information of a patient, activating a control cursor in the vital sign frame according to the vital sign information of the patient, and enabling the control cursor to slide to the corresponding interval scale according to the coordinate position.

9. A computer-readable storage medium, on which a computer program is stored, characterized in that the program, when being executed by a processor, implements the vital sign information processing method according to any of claims 1-7.

10. A vital sign information processing device comprising a memory, a processor and a computer program stored on the memory and running on the processor, the processor implementing the vital sign information processing method according to any of claims 1-7 when executing the program.