CN113990475A - Remote management system suitable for patient leaving hospital - Google Patents

Abstract

The invention provides a remote management system suitable for a patient leaving a hospital, which comprises: the low-risk patient end is used for acquiring physiological indexes of the patients with medium and low risks; the acquisition terminal is used for acquiring physiological indexes and real-time coordinates of the high-risk patient; remote management end, includes: the first management module is used for importing the physiological indexes of the patients with low or medium risk into an index summary sheet and analyzing the physiological indexes, and when the analysis result shows that the abnormality occurs, alarm information is formed; the second management module is used for processing the physiological indexes of the high-risk patients to obtain vital sign indexes, outputting emergency processing voice segments when the vital sign indexes represent dangerous states, and generating treatment signals; and the doctor end is used for sending the treatment suggestion to the low-risk patient end. The system has the advantages that the system can be used for carrying out distinguishing management on physiological indexes of middle-low risk patients and high risk patients, providing processing suggestions for alarm information of the middle-low risk patients in time and carrying out emergency treatment on emergency events of the high risk patients.

Description

Remote management system suitable for patient leaving hospital

Technical Field

The invention relates to the technical field of patient management, in particular to a remote management system suitable for a patient leaving a hospital.

Background

In the daily management of a hospital, a patient often needs to leave the hospital temporarily, and the hospital cannot know the physical condition and the treatment progress of the patient within the time period when the patient leaves the hospital, so that the hospital needs to establish a corresponding system to notify and manage the patient who leaves the hospital temporarily.

At present, the management of the patient leaving the hospital is only limited to the collection of daily indexes and the notification of important examination items, and the daily index data of the patient needs to be checked and analyzed manually, so that the pressure of doctors is greatly increased, and the hospital can not process emergency events timely for part of high-risk patients.

Disclosure of Invention

In view of the problems in the prior art, the present invention provides a remote management system suitable for a patient leaving a hospital, which has been labeled as a low risk patient and a high risk patient before leaving the hospital, comprising:

the system comprises at least one middle-low risk patient end, a central processing unit and a central processing unit, wherein the middle-low risk patient end is used for correspondingly acquiring and outputting a plurality of externally input physiological indexes of middle-low risk patients;

the acquisition terminal is worn by the corresponding high-risk patient and is used for acquiring and outputting a plurality of physiological indexes and real-time coordinates of the corresponding high-risk patient;

a remote management end, which is respectively connected with each of the low-risk and medium-risk patient ends and each of the acquisition terminals, wherein the remote management end comprises:

the first management module is used for respectively importing the physiological indexes of the middle-low risk patients into an index summary sheet and analyzing the physiological indexes, and when the analysis result shows that at least one physiological index is abnormal, corresponding alarm information is formed and output;

the second management module is used for respectively processing each physiological index of each high-risk patient in real time to obtain a corresponding vital sign index, correspondingly outputting a pre-stored emergency processing voice segment when the vital sign index indicates that the corresponding high-risk patient is in a dangerous state, and simultaneously generating a treatment signal containing the real-time coordinate;

the corresponding acquisition terminal receives and plays the emergency processing voice clip;

and the doctor end is connected with the remote management end and used for receiving the alarm information, providing corresponding processing suggestions according to the alarm information for a doctor to send the alarm information and the corresponding processing suggestions to the middle-low risk patient end through the remote management end and receiving the treatment signals so as to take corresponding rescue measures.

Preferably, the mid-low risk patient side comprises:

the first acquisition unit is used for acquiring each physiological index of the low-risk and medium-risk patients;

and the first display unit is used for receiving and displaying the alarm information and the corresponding processing suggestion.

Preferably, the collection terminal includes:

the second acquisition unit is used for acquiring each physiological index of the corresponding high-risk patient in real time;

the second display unit is used for receiving and displaying the corresponding vital sign indexes of the high-risk patients;

and the voice broadcasting unit is used for receiving the emergency processing voice segments and playing the emergency processing voice segments.

Preferably, the acquisition terminal further includes a reminding unit, configured to receive a control signal obtained by processing the remote management terminal according to the vital sign index, and perform vibration with a preset frequency according to the control signal.

Preferably, the second management module includes:

the second storage unit is used for storing each physiological index of the high-risk patient and storing a first interval and a second interval which are configured in advance;

the second analysis unit is connected with the second storage unit and used for analyzing each physiological index of the high-risk patient in real time and processing the physiological index to obtain the corresponding vital sign index, comparing the vital sign index with the first interval and the second interval respectively, and when the vital sign index is judged to be in the first interval, the vital sign index indicates that the corresponding high-risk patient is in a dangerous state and outputting the emergency processing voice segment;

and when the vital sign index is judged to be in the second interval, outputting the control signal to control the reminding unit to carry out vibration reminding.

Preferably, each of the physiological indexes of the high-risk patient includes a body temperature, a pulse, a respiratory rate, a systolic pressure and a diastolic pressure, the second analysis unit obtains corresponding index scores according to a mapping relationship and real-time values of the body temperature, the pulse, the respiratory rate, the systolic pressure and the diastolic pressure, and obtains the life index according to each of the index scores.

Preferably, the life indicator index is obtained by the following calculation formula:

wherein the content of the first and second substances,

m represents the life index;

X₁、X₂、X₃、X₄and X₅Respectively representing each index score;

n represents the number of each index score.

Preferably, the medium-low risk patient end obtains each physiological index of the medium-low risk patient multiple times in one day, and the first management module includes:

the first storage unit is used for storing each physiological index of the low-risk and medium-risk patients and respectively importing the physiological indexes into the index summary table according to preset index categories;

and the first analysis unit is connected with the first storage unit and used for drawing a map according to the numerical value of each physiological index of the middle-low risk patient in one day and analyzing each map according to each index type, and when an analysis result shows that the physiological index corresponding to at least one map reaches a preset danger threshold value for multiple times in one day, outputting alarm information corresponding to the middle-low risk patient to the doctor end.

Preferably, the remote management end further comprises an information sending module, connected to the first management module, and configured to send the processing suggestion output by the doctor end to the mid-low risk patient end in combination with the corresponding alarm information.

Preferably, the remote management terminal further includes:

the storage module is used for storing a doctor end corresponding to a main doctor and a doctor end corresponding to a plurality of auxiliary doctors which are related to the low-risk and medium-risk patients;

and the control module is respectively connected with the first management module, the storage module and the information sending module and is used for judging whether the doctor end corresponding to the main doctor outputs the processing suggestion to the information sending module within a preset processing time range, and when the information sending module does not receive the processing suggestion of the main doctor within the processing time range, a sending signal is output to the first management module so as to control the first management module to respectively send the alarm information to the doctor end corresponding to each auxiliary doctor.

The technical scheme has the following advantages or beneficial effects: the system distinguishes and manages the physiological indexes of the middle-low risk patients and the high risk patients, provides treatment suggestions for the alarm information of the middle-low risk patients in time, and reports and reminds emergency treatment modes of the emergency events of the high risk patients.

Drawings

FIG. 1 is a schematic diagram of the system according to the preferred embodiment of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In accordance with the above-mentioned problems in the prior art, there is provided a remote management system for a patient leaving a hospital, which is labeled as a low-risk patient and a high-risk patient before leaving the hospital, as shown in fig. 1, comprising:

the system comprises at least one middle-low risk patient end 1, a central processing unit and a central processing unit, wherein the middle-low risk patient end 1 is used for correspondingly acquiring and outputting a plurality of externally input physiological indexes of middle-low risk patients;

the acquisition terminal 2 is worn by the corresponding high-risk patient, and the acquisition terminal 2 is used for acquiring and outputting a plurality of physiological indexes and real-time coordinates of the corresponding high-risk patient;

a remote management end 3, which is respectively connected with each low-risk patient end 1 and each acquisition terminal 2, wherein the remote management end 3 comprises:

the first management module 31 is configured to import each physiological index of each low-and-medium-risk patient into an index summary table, analyze the physiological indexes, and form and output corresponding alarm information when an analysis result indicates that at least one of the physiological indexes is abnormal;

the second management module 32 is configured to respectively perform real-time processing on each physiological index of each high-risk patient to obtain a corresponding vital sign index, and when the vital sign index indicates that the corresponding high-risk patient is in a dangerous state, correspondingly output a pre-stored emergency processing voice segment, and generate a treatment signal including real-time coordinates;

the corresponding acquisition terminal 2 receives and plays the emergency processing voice clip;

and the at least one doctor end 4 is connected with the remote management end 3 and is used for receiving the alarm information so that a doctor can give out a corresponding processing suggestion according to the alarm information, send the alarm information and the corresponding processing suggestion to the middle-low risk patient end 1 through the remote management end 3 and receive a treatment signal so as to take corresponding rescue measures.

Specifically, in this embodiment, the middle-low risk patient end 1 of the middle-low risk patient may be an intelligent mobile terminal, the middle-low risk patient detects physiological indexes through an external detection device (a blood glucose meter, a thermometer, a heart rate belt, a sphygmomanometer, etc.), the intelligent mobile terminal sends the detected physiological indexes to the remote management end 3, and the collection terminal 2 of the high risk patient may adopt an electronic bracelet to ensure that various physiological indexes of the high risk patient can be detected in real time.

Preferably, the middle-low risk patient can manually send the physiological indexes, and the intelligent mobile terminal can be connected with each detection device and automatically send the physiological indexes when the physiological indexes are detected.

In a preferred embodiment of the present invention, the low risk patient terminal 1 comprises:

the first acquisition unit 11 is used for acquiring various physiological indexes of the patients with low or medium risk;

and the first display unit 12 is used for receiving and displaying the alarm information and the corresponding processing suggestion.

In a preferred embodiment of the present invention, the acquisition terminal 2 includes:

the second acquisition unit 21 is used for acquiring various physiological indexes of the corresponding high-risk patient in real time;

a second display unit 22, configured to receive and display the vital sign index of the corresponding high-risk patient;

and the voice broadcasting unit 23 is used for receiving the emergency processing voice segments and playing the emergency processing voice segments.

Specifically, in this embodiment, the voice broadcast unit 23 receives the emergency processing voice segment and plays the emergency processing voice segment, so that the high-risk patient or the surrounding people of the high-risk patient perform corresponding emergency measures according to the emergency processing voice segment.

In a preferred embodiment of the present invention, the acquisition terminal 2 further includes a reminding unit 24, configured to receive a control signal obtained by the remote management terminal according to the vital sign index processing, and perform vibration with a preset frequency according to the control signal.

Specifically, in this embodiment, while the collecting terminal 2 generates vibration, the second display unit 22 displays the vital sign index and the abnormal physiological index, and the high-risk patient can check the abnormal physiological index and perform corresponding body adjustment, so that the abnormal physiological index returns to normal.

In a preferred embodiment of the present invention, the second management module 32 includes:

a second storage unit 321, configured to store physiological indexes of the high-risk patient and store a first interval and a second interval configured in advance;

the second analysis unit 322 is connected to the second storage unit 321, and is configured to analyze and process each physiological index of the high-risk patient in real time to obtain a corresponding vital sign index, compare the vital sign index with the first interval and the second interval, when the vital sign index obtained by the judgment is in the first interval, the vital sign index indicates that the corresponding high-risk patient is in a dangerous state, and output an emergency processing voice segment;

and when the vital sign index is judged to be in the second interval, outputting a control signal to control the reminding unit 24 to carry out vibration reminding.

Specifically, in this embodiment, when the vital sign index of the high-risk patient is in the second interval, it is determined as the mild risk state, and only the high-risk patient needs to be prompted by the prompting unit 24 through vibration, and when the vital sign index of the high-risk patient is in the first interval, it is determined as the high risk state, and at this time, the emergency processing voice clip needs to be played and the doctor is notified to go to the coordinate position of the high-risk patient for treatment according to the treatment signal.

In a preferred embodiment of the present invention, the physiological indexes of the high risk patient include body temperature, pulse, respiratory rate, systolic pressure and diastolic pressure, and the second analysis unit 322 obtains corresponding index scores according to the real-time values of body temperature, pulse, respiratory rate, systolic pressure and diastolic pressure and a mapping relationship, and obtains the life index according to the index scores.

In a preferred embodiment of the present invention, the life index is obtained by the following calculation formula:

wherein the content of the first and second substances,

m represents a life index;

X₁、X₂、X₃、X₄and X₅Respectively representing each index score;

n represents the number of index points.

Specifically, in this embodiment, for a physiological indicator of body temperature, 36 degrees and 37 degrees are defined as 6 points, a section is set for every 0.5 degree decrease below 36 degrees and the fractions of the sections are sequentially decreased by 1 point from high to low, a section is set for every 0.5 degree increase above 37 degrees and the sections are sequentially decreased by 1 point from low to high, a section is set for every 0.125 degree increase between 36 degrees and 36.5 degrees and the sections are sequentially increased by 1 point from low to high, and a section is set for every 0.125 degree decrease between 37 degrees and 36.5 degrees and the sections are sequentially increased by 1 point from high to low;

for the physiological index of respiratory rate, 12 times/min and 20 times/min are defined as 6 points, each 1 time/min reduction below 12 times/min is reduced by 1 point, each 1 time/min increase above 20 times/min is reduced by 1 point, each 1 time/min increase between 12 times/min and 16 times/min is increased by 1 point, and each 1 time/min increase between 16 times/min and 20 times/min is reduced by 1 point;

for the physiological index of pulse, 60 times/min and 100 times/min are defined as 6 points, the decrease of 5 times/min is 1 point below 60 times/min, the decrease of 5 times/min is 1 point above 100 times/min, the increase of 5 times/min is 1 point between 60 times/min and 80 times/min, and the decrease of 1 point between 80 times/min and 100 times/min is 5 times/min;

for a physiological index of systolic blood pressure, 90mmHg and 140mmHg are set to 6 minutes, an interval is set for every 2mmHg reduction below 90mmHg and each interval is sequentially reduced by 1 minute from high to low, an interval is set for every 2mmHg increase above 140mmHg and each interval is sequentially reduced by 1 minute from low to high, an interval is set for every 12.5mmHg increase between 90mmHg and 115mmHg and each interval is sequentially increased by 1 minute from low to high, and an interval is set for every 12.5mmHg increase between 115mmHg and 140mmHg and each interval is sequentially reduced by 1 minute from low to high;

for a physiological index of diastolic pressure, 60mmHg and 90mmHg are set to 6 minutes, wherein an interval is set for every 2mmHg reduction below 60mmHg and each interval is sequentially reduced by 1 minute from high to low, an interval is set for every 2mmHg increase above 90mmHg and each interval is sequentially reduced by 1 minute from low to high, an interval is set for every 3.75mmHg increase between 60mmHg and 75mmHg and each interval is sequentially increased by 1 minute from low to high, and an interval is set for every 3.75mmHg increase between 75mmHg and 90mmHg and each interval is sequentially reduced by 1 minute from low to high;

in summary, score determination is performed based on the score rule of each physiological index, and after the score of each physiological index is obtained, the life index is calculated according to the calculation formula, and the problem of the high-risk patient can also be directly obtained according to the score of each index in the specific operation.

In a preferred embodiment of the present invention, the middle-low risk patient end 1 obtains each physiological index of the middle-low risk patient for a plurality of times in a day, and the first management module 31 includes:

the first storage unit 311 is used for storing each physiological index of the middle-low risk patients and respectively importing the physiological indexes into the index summary table according to preset index categories;

and the first analysis unit 312 is connected to the first storage unit 311, and is configured to draw a map according to the value of each physiological index of the low-risk and medium-low-risk patients in one day and analyze each map, and output the alarm information corresponding to the low-risk and medium-low-risk patients to the doctor end 4 when the analysis result indicates that the physiological index corresponding to at least one map reaches a preset risk threshold value multiple times in one day.

Specifically, in this embodiment, whether to output the alarm information is determined by comparing the physiological index with the risk threshold, and when the curve in the map fluctuates sharply for a period of time or reaches or even exceeds the risk threshold many times, the alarm information is output to the corresponding doctor terminal 4.

In a preferred embodiment of the present invention, the remote management terminal 3 further includes an information sending module 33, connected to the first management module 31, for sending the processing suggestion output by the doctor terminal 4 to the middle-low risk patient terminal 1 in combination with the corresponding alarm information.

In a preferred embodiment of the present invention, the remote management terminal 3 further includes:

a storage module 34, for storing a doctor end 4 corresponding to a main doctor and a doctor end 4 corresponding to a plurality of assistant doctors associated with the low-risk and medium-risk patients;

and the control module 35 is respectively connected to the first management module 31, the storage module 34 and the information sending module 33, and is configured to determine whether the doctor end 4 corresponding to the primary doctor outputs the processing suggestion to the information sending module 33 within a preset processing time range, and when the information sending module 33 does not receive the processing suggestion of the primary doctor within the processing time range, output a sending signal to the first management module 31 to control the first management module 31 to respectively send the alarm information to the doctor end 4 corresponding to each assistant doctor.

Specifically, in this embodiment, considering that the main doctor may not be able to view the alarm information in time, the processing time range is set to ensure that the main doctor can process the alarm information in time by other assistant doctors without processing the alarm information in the processing time range.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A remote management system adapted for use with a discharged patient who has been flagged as a low risk patient and a high risk patient prior to discharge from a hospital, comprising:

the system comprises at least one middle-low risk patient end, a central processing unit and a central processing unit, wherein the middle-low risk patient end is used for correspondingly acquiring and outputting a plurality of externally input physiological indexes of middle-low risk patients;

the acquisition terminal is worn by the corresponding high-risk patient and is used for acquiring and outputting a plurality of physiological indexes and real-time coordinates of the corresponding high-risk patient;

a remote management end, which is respectively connected with each of the low-risk and medium-risk patient ends and each of the acquisition terminals, wherein the remote management end comprises:

the first management module is used for respectively importing the physiological indexes of the middle-low risk patients into an index summary sheet and analyzing the physiological indexes, and when the analysis result shows that at least one physiological index is abnormal, corresponding alarm information is formed and output;

the second management module is used for respectively processing each physiological index of each high-risk patient in real time to obtain a corresponding vital sign index, correspondingly outputting a pre-stored emergency processing voice segment when the vital sign index indicates that the corresponding high-risk patient is in a dangerous state, and simultaneously generating a treatment signal containing the real-time coordinate;

the corresponding acquisition terminal receives and plays the emergency processing voice clip;

and the doctor end is connected with the remote management end and used for receiving the alarm information, providing corresponding processing suggestions according to the alarm information for a doctor to send the alarm information and the corresponding processing suggestions to the middle-low risk patient end through the remote management end and receiving the treatment signals so as to take corresponding rescue measures.

2. The remote management system according to claim 1, wherein the mid-low risk patient side comprises:

the first acquisition unit is used for acquiring each physiological index of the low-risk and medium-risk patients;

and the first display unit is used for receiving and displaying the alarm information and the corresponding processing suggestion.

3. The remote management system according to claim 1, wherein the collection terminal includes:

the second acquisition unit is used for acquiring each physiological index of the corresponding high-risk patient in real time;

the second display unit is used for receiving and displaying the corresponding vital sign indexes of the high-risk patients;

and the voice broadcasting unit is used for receiving the emergency processing voice segments and playing the emergency processing voice segments.

4. The remote management system according to claim 3, wherein the acquisition terminal further includes a reminding unit configured to receive a control signal obtained by the remote management terminal according to the vital sign index processing, and vibrate at a preset frequency according to the control signal.

5. The remote management system according to claim 4, wherein the second management module includes:

the second storage unit is used for storing each physiological index of the high-risk patient and storing a first interval and a second interval which are configured in advance;

the second analysis unit is connected with the second storage unit and used for analyzing each physiological index of the high-risk patient in real time and processing the physiological index to obtain the corresponding vital sign index, comparing the vital sign index with the first interval and the second interval respectively, and when the vital sign index is judged to be in the first interval, the vital sign index indicates that the corresponding high-risk patient is in a dangerous state and outputting the emergency processing voice segment;

and when the vital sign index is judged to be in the second interval, outputting the control signal to control the reminding unit to carry out vibration reminding.

6. The remote management system according to claim 5, wherein each of the physiological indexes of the high risk patient includes a body temperature, a pulse, a breathing rate, a systolic pressure and a diastolic pressure, and the second analysis unit obtains corresponding index scores according to a mapping relationship and real-time values of the body temperature, the pulse, the breathing rate, the systolic pressure and the diastolic pressure, and obtains the life index according to each of the index scores.

7. The remote management system according to claim 6, wherein the life index is obtained by the following calculation formula:

wherein the content of the first and second substances,

m represents the life index;

X₁、X₂、X₃、X₄and X₅Respectively representing each index score;

n represents the number of each index score.

8. The remote management system according to claim 1, wherein the low-risk patient end obtains each physiological index of the low-risk patient a plurality of times in a day, and the first management module comprises:

the first storage unit is used for storing each physiological index of the low-risk and medium-risk patients and respectively importing the physiological indexes into the index summary table according to preset index categories;

and the first analysis unit is connected with the first storage unit and used for drawing a map according to the numerical value of each physiological index of the middle-low risk patient in one day and analyzing each map according to each index type, and when an analysis result shows that the physiological index corresponding to at least one map reaches a preset danger threshold value for multiple times in one day, outputting alarm information corresponding to the middle-low risk patient to the doctor end.

9. The remote management system according to claim 1, wherein the remote management end further comprises an information sending module, connected to the first management module, for sending the processing suggestion output by the doctor end to the mid-low risk patient end in combination with the corresponding alarm information.

10. The remote management system according to claim 9, wherein the remote management terminal further comprises:

the storage module is used for storing a doctor end corresponding to a main doctor and a doctor end corresponding to a plurality of auxiliary doctors which are related to the low-risk and medium-risk patients;

and the control module is respectively connected with the first management module, the storage module and the information sending module and is used for judging whether the doctor end corresponding to the main doctor outputs the processing suggestion to the information sending module within a preset processing time range, and when the information sending module does not receive the processing suggestion of the main doctor within the processing time range, a sending signal is output to the first management module so as to control the first management module to respectively send the alarm information to the doctor end corresponding to each auxiliary doctor.

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