CN111700601B - Heart failure management instrument and heart failure management system - Google Patents

Abstract

The invention relates to a heart failure management method and a heart failure management system, wherein data collected by an instrument and data analyzed by the instrument are packaged and then transmitted to a hospital expert system through a communication module by comparing the collected weight, blood pressure, heart rate, edema, respiratory state, sleep and energy data with standard data in a heart failure management instrument; the hospital expert system transmits the data to the patient's family doctor; more targeted suggestions are given by family doctors; the doctor suggestion is transmitted to the heart failure management instrument through a hospital expert system; the patient receives a family doctor recommendation. The heart failure management system saves medical resources, and the hospital expert system can receive patient data every day and actively participate in the self-rehabilitation and health-care process with the help of patients or families, so that the effectiveness of the evaluation treatment scheme is improved, the participation of individuals and families is enhanced, the hospitalization rate is reduced, and the life quality is improved.

Description

Heart failure management instrument and heart failure management system

Technical Field

The invention relates to a medical instrument, in particular to a heart failure management instrument and a heart failure management system.

Background

At present, about 1000 million chronic heart failure (hereinafter referred to as chronic heart failure) patients exist in China, the population of patients with high risk factors (including coronary heart disease, hypertension, diabetes and the like) is huge, and the incidence rate and the death rate of the heart failure are continuously increased along with the aging of the population which is severe day by day. Despite considerable advances in clinical treatment, how to provide effective management of patients, especially to guide patients with heart failure to effectively self-manage outside the hospital, remains a significant challenge.

The chronic heart failure patients need to be hospitalized for many times due to repeated clinical symptoms (such as shortness of breath after activities, incapability of lying down at night, edema of lower limbs and the like), and the main reasons are that the patients cannot comply with a specified treatment scheme and cannot timely seek early medical help. Whether the patient self-statement or objective compliance index shows that the regular treatment and self-management compliance of the heart failure patient is poor. Although medical staff have intensified education of diseases during hospitalization, a large proportion of patients with heart failure cannot recognize early worsening symptoms due to their education and insufficient availability of health counseling, and still adopt and continue unhealthy lifestyles.

The conventional heart failure management items roughly include: specialized heart failure clinics, home visits by nurses, structured telephone support or remote monitoring, etc. Despite the superiority of outpatient management of heart failure, only a few patients with heart failure benefit from these modalities; under the current actual conditions of China, the family visit of nurses is still immature; structured telephone follow-up and remote monitoring almost cannot solve the complex problems caused by various factors such as medicine, behavior, psychology, environment, economy and the like, and the factors are the key of the out-of-hospital management of heart failure patients. Since heart failure management occurs primarily in the home and community, it is critical to integrate self-care into the daily lives of heart failure patients.

Self-management means that patients actively participate in the processes of self-rehabilitation and health care under the help of family or community nursing staff, and the processes comprise compliance with prescription medicines, diet, exercise schemes, appointment follow-up visits and the like; self-management involves more complex skills including monitoring and assessing the severity of heart failure symptoms, determining the actions to be taken including when to visit a clinic, how to adjust the treatment regimen, and assessing the effectiveness of the treatment regimen, thereby enhancing individual and family participation in the hope of reducing their rate of re-hospitalization and improving their quality of life.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a heart failure management instrument and a heart failure management system for preventing sudden death of a heart failure patient, improving the life quality of the patient and reducing the hospitalization frequency.

The technical scheme adopted by the invention is as follows:

a method for managing heart failure, which comprises the following steps,

the data acquisition comprises the following steps: weight, blood pressure, heart rate, edema, respiratory state, sleep, energy;

the flow starts at step s 101;

in step s102, judging whether the weight changes;

if the variation is within the standard range, executing step s 103;

if the variation is within the allowable range, executing step s 103; simultaneously executing step 108, turning on a yellow alarm lamp;

if the variation is out of the allowable range, executing step s 103; step 109 is executed simultaneously, the red alarm lamp is lighted;

in step s103, it is judged whether or not edema has occurred;

without edema, go to step s 104;

edema is within the allowable range, step s104 is performed; simultaneously executing step 108, turning on a yellow alarm lamp;

if the edema is beyond the allowable range, executing step s 104; step 109 is executed simultaneously, the red alarm lamp is lighted;

in step s104, judging whether the breathing is normal;

if the breathing is normal, executing step s 105;

if the breath is within the allowable range, executing step s 105; simultaneously executing step 108, turning on a yellow alarm lamp;

if the breath exceeds the allowable range, executing step s105 and step 109, and turning on a red alarm lamp;

in step s105, judging whether the sleep is normal;

if the sleep is normal, executing step s 106;

sleeping in the allowable range, and executing step s 106; simultaneously executing step 108, turning on a yellow alarm lamp;

if the sleep is beyond the allowable range, executing step s 106; step 109 is executed simultaneously, the red alarm lamp is lighted;

in step s106, judging whether the energy is normal;

if the energy is normal, executing step s 107;

insufficient effort, perform step s 100; simultaneously executing step 108, turning on a yellow alarm lamp;

severely deficient, performing step s 100; step 109 is executed simultaneously, the red alarm lamp is lighted;

in step s107, it is judged whether or not chest pain is present;

normally, step s108 is executed;

mild chest pain or relief after rest, step s100 is performed; simultaneously executing step 108, turning on a yellow alarm lamp;

if severe chest pain or failure to relieve by taking nitroglycerin, executing step s 100; step 109 is executed simultaneously, the red alarm lamp is lighted;

at step s110, the routine ends.

A heart failure management system, which is used for managing heart failure,

the system for collecting data comprises: weight, blood pressure, heart rate, edema, respiratory state, sleep, energy;

the wireless communication system comprises a central processing unit, a memory and a wireless communication module;

the management instrument is provided with a touch display screen;

popping up a dialog box on a display screen after starting, wherein the content of the dialog box is input weight data, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether edema occurs, there are three options:

A. no edema;

B. mild edema

C. Severe edema;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether breathing is normal, there are three options:

A. normal;

B. mild disorders;

C. dyspnea;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether sleep is normal, there are three options:

A. normal;

B. mild disorders;

C. the user can not fall asleep;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether energy is normal, there are three options:

A. normal;

B. lack of energy;

C. extracting without fine extraction;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether chest pain is present, there are three options:

A. normal;

B. slight chest pain or relief after rest;

C. severe chest pain or failure to relieve by taking nitroglycerin;

selecting a corresponding option, and then confirming;

completing data input;

the instrument determines the current state of the patient from the stored data;

option a displays a green heart pattern;

option B displays a yellow heart pattern;

option C displays a red heart pattern;

the display screen pops up a dialog box, and the dialog box comprises the following contents: the number of green heart patterns, the number of yellow heart patterns and the number of red heart patterns;

the number of yellow heart-shaped patterns exceeds a set value,

the display screen pops up a dialog box, and the dialog box comprises the following contents: the doctor can see the doctor as early as possible; according to the number and type of the yellow heart-shaped graphs and the parameter analysis result, medication, diet and exercise suggestions are given;

the number of red heart-shaped patterns exceeds a set value,

the display screen pops up a dialog box, and the dialog box comprises the following contents: visit or dial 120 immediately; according to the number and type of the red heart-shaped graphs and the parameter analysis result, medication, diet and exercise suggestions are given;

the data collected by the instrument and the data analyzed by the instrument are stored in a memory;

the data collected by the instrument and the data analyzed by the instrument are packaged and then transmitted to a hospital expert system through a communication module;

the hospital expert system transmits the data to the patient's family doctor;

more targeted suggestions are given by family doctors;

the doctor suggestion is transmitted to the heart failure management instrument through a hospital expert system;

the patient receives a family doctor recommendation.

Compared with the prior art, the invention has the beneficial effects that:

the heart failure management system saves medical resources, a hospital expert system can receive patient data every day, and the heart failure management system actively participates in the self-rehabilitation and health-care processes including compliance with prescription medicines, diet, exercise schemes, appointment follow-up visits and the like under the help of patients or families; the heart failure management system assists in determining the actions to be taken, including when to visit a clinic, how to adjust the treatment regimen, and assessing the effectiveness of the treatment regimen, thereby enhancing the participation of individuals and families in the hope of reducing their rate of re-hospitalization and improving their quality of life.

Drawings

FIG. 1 is a schematic structural diagram of a heart failure management apparatus;

fig. 2 is a schematic structural view of the working state of the heart failure management instrument;

fig. 3 is a flowchart of the operation of the heart failure management system.

Detailed Description

The invention is described in detail below with reference to the figures and examples:

a method for managing heart failure, which comprises the following steps,

the data acquisition comprises the following steps: weight, blood pressure, heart rate, edema, respiratory state, sleep, energy;

the flow starts at step s 101;

in step s102, judging whether the weight changes;

if the variation is within the standard range, executing step s 103;

if the variation is within the allowable range, executing step s 103; simultaneously executing step 108, turning on a yellow alarm lamp;

if the variation is out of the allowable range, executing step s 103; simultaneously, step 109 is executed, and a red alarm lamp is lightened;

in step s103, it is judged whether or not edema has occurred;

without edema, go to step s 104;

edema is within the allowable range, step s104 is performed; simultaneously executing step 108, turning on a yellow alarm lamp;

if the edema is beyond the allowable range, executing step s 104; step 109 is executed simultaneously, the red alarm lamp is lighted;

in step s104, judging whether the breathing is normal;

if the breathing is normal, executing step s 105;

if the breath is within the allowable range, executing step s 105; simultaneously executing step 108, turning on a yellow alarm lamp;

if the breath exceeds the allowable range, executing step s105 and step 109, and turning on a red alarm lamp;

in step s105, judging whether the sleep is normal;

if the sleep is normal, executing step s 106;

sleeping in the allowable range, and executing step s 106; simultaneously executing step 108, turning on a yellow alarm lamp;

if the sleep is beyond the allowable range, executing step s 106; simultaneously, step 109 is executed, and a red alarm lamp is lightened;

in step s106, judging whether the energy is normal;

if the energy is normal, executing step s 107;

insufficient effort, perform step s 100; simultaneously executing step 108, turning on a yellow alarm lamp;

severely deficient, performing step s 100; step 109 is executed simultaneously, the red alarm lamp is lighted;

in step s107, it is judged whether or not chest pain is present;

normally, step s108 is executed;

mild chest pain or relief after rest, step s100 is performed; simultaneously executing step 108, turning on a yellow alarm lamp;

if severe chest pain or failure to relieve by taking nitroglycerin, executing step s 100; simultaneously, step 109 is executed, and a red alarm lamp is lightened;

at step s110, the routine ends.

A heart failure management system, which is used for managing heart failure,

the system for collecting data comprises: weight, blood pressure, heart rate, edema, respiratory state, sleep, energy;

the system comprises a central processing unit, a memory and a wireless communication module;

the management instrument is provided with a touch display screen;

popping up a dialog box on a display screen after starting up, wherein the content of the dialog box is input weight data, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether edema occurs, there are three options:

A. no edema;

B. mild edema;

C. severe edema;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether breathing is normal, there are three options:

A. normal;

B. mild disorders;

C. dyspnea;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether sleep is normal, there are three options:

A. normal;

B. mild disorders;

C. the user can not fall asleep;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether energy is normal, there are three options:

A. normal;

B. lack of energy;

C. extracting without fine extraction;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether chest pain is present, there are three options:

A. normal;

B. slight chest pain or relief after rest;

C. severe chest pain or failure to relieve by taking nitroglycerin;

selecting a corresponding option, and then confirming;

completing data input;

the instrument determines the current state of the patient from the stored data;

option a displays a green heart pattern;

option B displays a yellow heart pattern;

option C displays a red heart pattern;

the display screen pops up a dialog box, and the dialog box comprises the following contents: the number of green heart patterns, the number of yellow heart patterns and the number of red heart patterns;

the number of yellow heart-shaped patterns exceeds a set value,

the display screen pops up a dialog box, and the dialog box comprises the following contents: the doctor can see the doctor as early as possible; according to the number and type of the yellow heart-shaped graphs and the parameter analysis result, medication, diet and exercise suggestions are given;

the number of red heart-shaped patterns exceeds a set value,

the display screen pops up a dialog box, and the dialog box comprises the following contents: visit or dial 120 immediately; according to the number and type of the red heart-shaped graphs and the parameter analysis result, medication, diet and exercise suggestions are given;

the data collected by the instrument and the data analyzed by the instrument are stored in a memory;

the data collected by the instrument and the data analyzed by the instrument are packaged and then transmitted to a hospital expert system through a communication module;

the hospital expert system transmits the data to the patient's family doctor;

more targeted suggestions are given by family doctors;

the doctor suggestion is transmitted to the heart failure management instrument through a hospital expert system;

the patient receives a family doctor recommendation.

The monitoring range comprises:

monitoring the body weight: taking off shoes and wearing a single shirt (taking out a pocket and not putting sundries such as keys) after morning, emptying the stool and urine and before breakfast; the weighing scales are fixedly arranged at the same place (such as a bathroom); body weight values were recorded and compared to the previous day, three days, and one week.

Measuring blood pressure:

the upper arm type electronic sphygmomanometer is recommended to be used at home, and the same sphygmomanometer is used every day as much as possible;

resting quietly for 10 minutes before measuring blood pressure, and being incapable of moving or speaking, drinking strong tea, coffee and drinking wine;

one side of the arm is fixedly selected for measuring blood pressure, the sleeves of the upper arm cannot be too thick (about the thickness of a single shirt) or too tight (a plurality of clothes cannot be worn, all the sleeves are rolled up during measurement), and otherwise, the measured blood pressure is too high;

recommending sitting position or supine position measurement, keeping the center of the sleeve belt of the heart and the sphygmomanometer horizontal, and preferably putting 1-2 fingers between the sleeve belt and the arm;

overall objective: 140/90mmHg or less;

systolic blood pressure above 65 years of age of 150mmHg is also acceptable;

diabetes complications should be below 130/80 mmHg.

Heart rate is a risk factor of cardiovascular death, and good control of heart rate is beneficial to heart failure patients, so that the heart rate is not looked at!

The heart rate of a normal person is controlled to be 60-100 times per minute, and for a heart failure patient, the heart rate is preferably controlled to be 55-60 times per minute; the heart rate can be measured simultaneously with the blood pressure measurement (the electronic sphygmomanometer has a recorded heart rate), or the pulse can be counted by the user.

Whether or not edema is present;

heart failure and edema are usually seen in the lower limb prolapsed area, and are symmetrical (both feet appear) and sunken (the skin is pressed to cause a depression);

the medial malleolus, the earliest and most obvious edema, is seen first, so there is no swelling.

The following symptoms appear to require an immediate visit:

the weight is increased by 1 jin in 1 day or 2 kg in 3 days;

edema of the foot, ankle, calf, thigh and even abdomen develops gradually and progresses upward;

the difficulty in breathing is aggravated, for example, the head cushion needs to be higher, and even a person sits on the pillow and feels smooth breathing;

the physical strength is obviously reduced, and the feeling is more fatigued than before;

restlessness, irritability, palpitation;

newly developed headache or dizziness.

What are the cases to dial immediately 120?

Chest pain suddenly persists and cannot be relieved by the presence of glycerin hydrochloride;

severe and persistent dyspnea, which cannot be alleviated;

severe dizziness or fainting.

The symptom management is performed in the form of traffic lights.

Green light indicates that the work is done well, and continues to hold; the yellow light indicates warning and the patient needs to see the doctor as soon as possible;

the red light is to see a doctor or dial 120!

The heart failure management system saves medical resources, a hospital expert system can receive patient data every day, and the heart failure management system actively participates in the self-rehabilitation and health-care processes including compliance with prescription medicines, diet, exercise schemes, appointment follow-up visits and the like under the help of patients or families; the heart failure management system assists in determining the actions to be taken, including when to visit a clinic, how to adjust the treatment regimen, and assessing the effectiveness of the treatment regimen, thereby enhancing the participation of individuals and families in the hope of reducing their rate of re-hospitalization and improving their quality of life.

The heart failure management system of the invention has the core that: the symptom management tool creatively uses the familiar traffic light form to self-evaluate the heart failure symptoms, and the symptoms are divided into green (safety), yellow (warning) and red (danger) according to the severity degree, and respectively correspond to three different-strength coping schemes of 'continuously keeping', 'seeing a doctor as soon as possible', 'seeing a doctor immediately or dialing 120'. The symptoms of self-monitoring mainly include: weight, edema, dyspnea, fatigue, energy, chest pain, etc., with various symptoms being indicated in green (safe), yellow (warning), and red (dangerous) according to different degrees of severity.

Starting a self-care mode: for the patient who is discharged and diagnosed to be in line with the heart failure, a responsibility nurse or a heart failure professional nurse sends a heart failure management instrument to the patient or the family members, the use purpose and the method of the symptom management tool are explained, and at least one person of the patient and the family members can fully understand the heart failure management instrument.

Maintenance of self-care mode: after the patient is discharged from the hospital, the standard follow-up visit scheme is executed in 1 week, 1 month, 3 months, 6 months and 12 months, and the medical staff can obtain more real and effective information in time, so that the management of the heart failure patient is promoted.

The self-nursing obviously improves the compliance of key indexes of self-recording, can more accurately guide doctors to adjust medicines, and is popular among doctors and patients.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the structure of the present invention in any way. Any simple modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (1)

1. A heart failure management system is characterized in that,

the system for collecting data comprises: weight, blood pressure, heart rate, edema, respiratory state, sleep, energy;

the wireless communication system comprises a central processing unit, a memory and a wireless communication module;

the management instrument is provided with a touch display screen;

popping up a dialog box on a display screen after starting up, wherein the content of the dialog box is input weight data, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether edema occurs, there are three options:

A. no edema;

B. mild edema

C. Severe edema;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether breathing is normal, there are three options:

A. normal;

B. mild disorders;

C. dyspnea;

selecting a corresponding option and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether sleep is normal, there are three options:

A. normal;

B. mild disorders;

C. the user can not fall asleep;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether energy is normal, there are three options:

A. normal;

B. lack of energy;

C. extracting without fine extraction;

selecting a corresponding option, and then confirming;

the display screen pops up a dialog box, and the dialog box comprises the following contents: whether chest pain is present, there are three options:

A. normal;

B. slight chest pain or relief after rest;

C. severe chest pain or failure to relieve by taking nitroglycerin;

selecting a corresponding option, and then confirming;

completing data input;

the instrument determines the current state of the patient from the stored data;

option a displays a green heart pattern;

option B displays a yellow heart pattern;

option C displays a red heart pattern;

the display screen pops up a dialog box, and the dialog box comprises the following contents: the number of green heart patterns, the number of yellow heart patterns and the number of red heart patterns;

the number of yellow heart-shaped patterns exceeds a set value,

the display screen pops up a dialog box, and the dialog box comprises the following contents: the doctor can see the doctor as early as possible; according to the number and type of the yellow heart-shaped graphs and the parameter analysis result, medication, diet and exercise suggestions are given;

the number of red heart-shaped patterns exceeds a set value,

the display screen pops up a dialog box, and the dialog box comprises the following contents: visit or dial 120 immediately; according to the number and type of the red heart-shaped graphs and the parameter analysis result, medication, diet and exercise suggestions are given;

the data collected by the instrument and the data analyzed by the instrument are stored in a memory;

the data collected by the instrument and the data analyzed by the instrument are packaged and then transmitted to a hospital expert system through a communication module;

the hospital expert system transmits the data to the patient's family doctor;

more targeted suggestions are given by family doctors;

the doctor suggestion is transmitted to the heart failure management instrument through a hospital expert system;

the patient receives a family doctor recommendation.

Images