CN112201338A - Medical monitoring method and computer-readable storage medium - Google Patents

Abstract

The invention discloses a medical monitoring method and a computer-readable storage medium. The medical monitoring method can acquire the human health characteristic parameters of the user in real time, plays a role in monitoring the physical state of the user in real time, intelligently judges the diseases of the user based on the received human health characteristic parameters, gives out medication guide suggestions according to the diseases of the user, acquires the position information of the user, recommends nearby drugstores to the user based on the position information of the user, informs the nearby drugstores to send the medication according to the medication guide suggestions after the user allows the user to go to the home, can provide medication service for the user, does not need to go out to buy the medicine, avoids the risk of accidents caused by the sick and going out of the user, and particularly plays an effective monitoring role for the old.

Description

Medical monitoring method and computer-readable storage medium

Technical Field

The present invention relates to the field of medical monitoring technologies, and in particular, to a medical monitoring method and a computer-readable storage medium.

Background

The purpose of medical monitoring is to achieve a third level of prevention to society through health management: the health condition of people is improved through health education and health promotion, and the disease incidence is reduced; the early diagnosis and the early treatment are adopted to promote the recovery of patients and reduce the fatality rate; the occurrence of various complications is prevented through standard treatment and rehabilitation measures, the disability rate of patients is reduced, and the chronic patients can achieve the goals of one schooling, two changes, three reductions and four reductions, namely a set of self-management and daily health care method is learned; change unreasonable dietary habits, change bad lifestyle; the dosage, medical expense and hospitalization frequency are reduced; blood sugar, blood pressure, blood lipid, and body weight.

At present, health monitoring of the old is particularly important, especially for the old who live alone and children cannot take care of the body of the old at any time and any place due to work, and once the body of the old is abnormal and needs to go out to buy medicines, the old is inconvenient to move and easy to get ill and go out to cause accidents. Therefore, how to monitor the physical state of the elderly in real time and provide the elderly with a medicine delivery service when the elderly get ill becomes an important problem to be solved urgently in the society at present.

Disclosure of Invention

The invention provides a medical monitoring method and a computer readable storage medium, which can realize real-time monitoring of the body state of the old, and can automatically provide medicine delivery and home-giving services for the old once the disease of the old is monitored.

According to one aspect of the present invention, there is provided a medical monitoring method comprising the steps of:

step S1: acquiring human health characteristic parameters of a user in real time;

step S2: judging the disease of the user based on the received human health characteristic parameters;

step S3: giving medication guidance suggestions based on the user's condition;

step S4: acquiring the position information of a user, and recommending nearby drugstores to the user based on the position information of the user;

step S5: after the permission of the user is obtained, nearby drugstores are informed to deliver the medicine to the department according to the medication guide suggestion.

Further, in step S2, warning thresholds are stored in advance for different parameters of the human health, the received parameters of the human health are compared with corresponding warning thresholds, and the user' S disease is determined based on the parameters of the human health exceeding the warning thresholds.

Further, at least one medication prescription is stored in step S3 for each disease, and one of the medication prescriptions is selected as a medication guidance suggestion according to the disease of the user and fed back to the user.

Further, the step S3 further includes the following steps:

step S31: and acquiring historical medical records and allergy medicine information of the user, and optimally adjusting the medication prescription based on the historical medical records and the allergy medicine information.

Further, the following steps are also included after the step S3:

step S3: 2: and storing the optimized and adjusted medication prescription in association with the relevant information of the user.

Further, the method also comprises the following steps:

step S6: and sending a medication reminding to the user according to the medication information in the medication guide suggestion.

Further, the method also comprises the following steps:

step S7: counting the frequency of disease occurrence of the user within a period of time, if the frequency of disease occurrence within the period of time exceeds a threshold value, reminding the user to take more medicine, and if the frequency of disease occurrence within the period of time is not more than the threshold value, reminding the user to take less medicine.

Further, the method also comprises the following steps:

step S8: the treatment effect of the medication guide recommendation is fed back and stored in association with the medication guide recommendation.

Further, in step S2, an alarm threshold is also stored in advance for different human health characteristic parameters, and if the received human health characteristic parameter exceeds the alarm threshold, the method further includes the following steps:

and searching a hospital in the peripheral area according to the position information of the user, informing the hospital to go to the position of the user for first aid, and informing the family members of the user.

The invention also provides a computer-readable storage medium for storing a computer program for medical monitoring, which computer program, when run on a computer, performs the steps of the method as described above.

The invention has the following effects:

the medical monitoring method can acquire the human health characteristic parameters of the user in real time, plays a role in monitoring the physical state of the user in real time, intelligently judges the diseases of the user based on the received human health characteristic parameters, gives out medication guide suggestions according to the diseases of the user, acquires the position information of the user, recommends nearby drugstores to the user based on the position information of the user, informs the nearby drugstores to send the medication according to the medication guide suggestions after the user allows the user to go to the home, can provide medication service for the user, does not need to go out to buy the medicine, avoids the risk of accidents caused by the sick and going out of the user, and particularly plays an effective monitoring role for the old.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic flow chart of a medical monitoring method according to a preferred embodiment of the present invention.

Fig. 2 is a sub-flowchart of step S3 in fig. 1.

Fig. 3 is a schematic flow chart of another implementation of a medical monitoring method according to a preferred embodiment of the invention.

Fig. 4 is a schematic flow chart of another implementation of a medical monitoring method according to a preferred embodiment of the invention.

Fig. 5 is a schematic block diagram of a medical monitoring system according to another embodiment of the present invention.

Fig. 6 is a schematic diagram of a unit structure of the intelligent diagnosis module in fig. 5.

Fig. 7 is a schematic diagram of the unit structure of the medication guidance module in fig. 5.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the accompanying drawings, but the invention can be embodied in many different forms, which are defined and covered by the following description.

As shown in fig. 1, a preferred embodiment of the present invention provides a medical monitoring method comprising the steps of:

step S1: acquiring human health characteristic parameters of a user in real time;

step S2: judging the disease of the user based on the received human health characteristic parameters;

step S3: giving medication guidance suggestions based on the user's condition;

step S4: acquiring the position information of a user, and recommending nearby drugstores to the user based on the position information of the user;

step S5: after the permission of the user is obtained, nearby drugstores are informed to deliver the medicine to the department according to the medication guide suggestion.

It can be understood that the medical monitoring method of this embodiment may obtain the human health characteristic parameters of the user in real time, and play a role in monitoring the physical state of the user in real time, then intelligently judge the medical symptoms of the user based on the received human health characteristic parameters, and give medication guidance suggestions according to the medical symptoms of the user, then obtain the location information of the user, and recommend a nearby pharmacy to the user based on the location information of the user, and after obtaining the permission of the user, notify the nearby pharmacy to deliver medication according to the medication guidance suggestions, and provide medication service for the user, and the user does not need to buy medication, thereby eliminating the risk of accidents caused by the illness and the going out of the user, and particularly playing an effective monitoring role for the elderly.

It is understood that in the step S1, the physical health characteristic parameter of the user may be acquired in real time by the wearable electronic device, wherein the physical health characteristic parameter includes at least one of heart rate, blood sugar, blood oxygen, blood pressure, and body temperature. Specifically, carry on at least one in heart rate sensor, blood oxygen sensor, blood glucose sensor, blood pressure sensor, the infrared ray temperature measurement module on wearable electronic equipment, utilize at least one above-mentioned sensor to obtain above-mentioned health characteristic parameter, as long as the user has used wearable electronic equipment, can carry out real time monitoring to user's health characteristic parameter. The wearable electronic equipment transmits the human health characteristic parameters of the user to a mobile terminal of the user in a near field communication mode after acquiring the human health characteristic parameters of the user, and then remotely transmits the human health characteristic parameters to a cloud server through the mobile terminal of the user.

It is understood that in step S2, warning thresholds are stored in advance for different parameters of human health, the received parameters of human health are compared with corresponding warning thresholds, and the user' S disease is determined based on the parameters of human health exceeding the warning thresholds. For example, the blood pressure measurement value of the user is compared with a blood pressure warning threshold value, and if the blood pressure exceeds a standard, the user is judged to have hypertension; or comparing the body temperature of the user with a warning threshold value, and if the body temperature of the user exceeds the warning threshold value, judging that the user has fever.

It is understood that in the step S3, at least one medication prescription is stored for each disease, and one of the medication prescriptions is selected as a medication guidance suggestion according to the disease of the user and fed back to the user. Wherein, the cloud server can acquire the disease and the corresponding medication prescription from a diagnosis system of a hospital and store the disease and the corresponding medication prescription in an associated manner.

Preferably, as shown in fig. 2, the step S3 further includes the steps of:

step S31: and acquiring historical medical records and allergy medicine information of the user, and optimally adjusting the medication prescription based on the historical medical records and the allergy medicine information.

Wherein the historical medical record and the allergy medicine information are obtained from at least one of a salivary enzyme detection result, a gene detection result and a hospital diagnosis result of the user. Considering that many people have allergy symptoms aiming at some medicines more or less at present, in order to improve the medication safety, the allergy medicine information of a user is acquired, then the allergy medicines are removed from the prescription automatically issued before, and other alternative medicines are selected. In addition, historical medical records of the user are obtained so as to be convenient for knowing the past medical history of the user, whether medicines exist in the medicine prescription or not is evaluated according to the past medical history, the past medical history of the user can be stimulated, and if the medicines exist, the medicines are removed and replaced by other alternative medicines. Alternatively, the user may be replaced with another prescription that does not contain the user's allergic medication or a medication that may be irritating to the user's past medical history.

It is understood that, as a preferable mode, the step S3 further includes the following steps:

step S32: and storing the optimized and adjusted medication prescription and the related information of the user in a correlated manner, so that the prior medication prescription can be automatically pushed when the same disease appears again by a subsequent user, and allergy medicine examination and past medical history examination do not need to be carried out again.

It is to be understood that, as shown in fig. 3, the medical monitoring method preferably further includes the steps of:

step S6: and sending a medication reminding to the user according to the medication information in the medication guide suggestion.

And sending a medication reminding to the user according to the medication information of the medicines in the medication guidance suggestion, such as reminding a certain medicine to take several times a day, taking before or after a meal, and the like.

It will be appreciated that as a further preference, the medical monitoring method further comprises the steps of:

step S7: counting the frequency of disease occurrence of the user within a period of time, if the frequency of disease occurrence within the period of time exceeds a threshold value, reminding the user to take more medicine, and if the frequency of disease occurrence within the period of time is not more than the threshold value, reminding the user to take less medicine. For example, counting the number of times of the disease attack of the user within one month, if the number of times of the disease attack within one month exceeds a threshold value, for example, exceeds three times, it means that the user has a relatively frequent disease attack, in order to avoid the aggravation of the disease condition of the user, the user is reminded to take medicines more frequently to expect to control the disease condition, if the number of times of the disease attack within one month is not greater than the threshold value, for example, less than three times, it means that the disease condition of the user is relatively stable recently, and in order to prevent the body of the user from.

It is to be understood that, as shown in fig. 4, the medical monitoring method preferably further includes the steps of:

step S8: the treatment effect of the medication guide recommendation is fed back and stored in association with the medication guide recommendation.

After the user takes the medicine according to the medication guidance suggestion, the treatment effect can be fed back to the cloud server, for example, the healing information can be fed back to the cloud server after the user heals, the cloud server stores the healing information and the medication guidance suggestion in an associated mode so as to conveniently count the cure rate of the medication guidance suggestion, and then automatic recommendation of the medication guidance suggestion can be carried out according to the cure rate, and the medication guidance suggestion with the highest cure rate is preferably pushed.

It is to be understood that, preferably, in step S2, an alarm threshold value is also stored in advance for different human health characteristic parameters, and if the received human health characteristic parameter exceeds the alarm threshold value, the method further includes the following steps:

and searching a hospital in the peripheral area according to the position information of the user, informing the hospital to go to the position of the user for first aid, and informing the family members of the user.

After step S5, the family of the user may be notified.

In addition, as shown in fig. 5, another embodiment of the present invention further provides a medical monitoring system, which preferably adopts the medical monitoring method as described above, and the system comprises

The data acquisition module is used for acquiring human health characteristic parameters of a user in real time;

the intelligent diagnosis module is used for judging the disease of the user based on the received human health characteristic parameters;

the medication guide module is used for giving medication guide suggestions based on the symptoms of the user;

the pushing module is used for acquiring the position information of the user and recommending nearby drugstores to the user based on the position information of the user;

and the notification module is used for notifying a nearby pharmacy to deliver the medicine to a door according to the medication guide suggestion after the permission of the user is obtained.

It can be understood that, the medical monitoring system of this embodiment can acquire the human health characteristic parameters of the user in real time, and play a role in real-time monitoring on the physical state of the user, then intelligently judge the medical symptoms of the user based on the received human health characteristic parameters, and give medication guidance suggestions according to the medical symptoms of the user, then acquire the location information of the user, and recommend nearby drugstores to the user based on the location information of the user, and after obtaining the permission of the user, notify the nearby drugstores to deliver medication according to the medication guidance suggestions, and can provide medication service for the user, and the user does not need to buy medication, thereby eliminating the risk of accidents caused by the illness and the outing of the user, and especially for the elderly, and playing an effective monitoring role.

The data acquisition module can be in communication connection with the mobile terminal of the user, and after the wearable electronic device of the user acquires the human health characteristic parameters of the user in real time, the human health characteristic parameters of the user are transmitted to the data acquisition module through the mobile terminal of the user. Wherein the characteristic parameters of the human health comprise at least one of heart rate, blood sugar, blood oxygen, blood pressure and body temperature. Specifically, carry on at least one in heart rate sensor, blood oxygen sensor, blood glucose sensor, blood pressure sensor, the infrared ray temperature measurement module on wearable electronic equipment, utilize at least one above-mentioned sensor to obtain above-mentioned health characteristic parameter, as long as the user has used wearable electronic equipment, can carry out real time monitoring to user's health characteristic parameter.

It can be understood that, as shown in fig. 6, the intelligent diagnosis module includes a health database in which warning thresholds are stored in advance for different human health characteristic parameters, and a diagnosis unit that compares the human health characteristic parameters received by the data acquisition module with corresponding warning thresholds and automatically determines the user's disease based on the human health characteristic parameters exceeding the warning thresholds. For example, the blood pressure measurement value of the user is compared with a blood pressure warning threshold value, and if the blood pressure exceeds a standard, the user is judged to have hypertension; or comparing the body temperature of the user with a warning threshold value, and if the body temperature of the user exceeds the warning threshold value, judging that the user has fever.

It is understood that, as shown in fig. 7, the medication guidance module includes a pathology database in which at least one medication prescription is stored for each disease, and an automatic prescription unit, and one of the medication prescriptions is selected from the pathology database according to the disease of the user and fed back to the user as a medication guidance suggestion. Wherein, the pathology database can obtain the disease and the corresponding medication prescription from the diagnosis system of the hospital and store the disease and the corresponding medication prescription in a related way.

In addition, preferably, the medication guidance module further comprises a medication checking unit, and the medication checking unit is used for acquiring historical medical records and allergy medicine information of the user and optimally adjusting the medication prescription based on the historical medical records and the allergy medicine information.

Wherein the historical medical record and the allergy medicine information are obtained from at least one of a salivary enzyme detection result, a gene detection result and a hospital diagnosis result of the user. Considering that many people have allergy symptoms aiming at some medicines more or less at present, in order to improve the medication safety, the allergy medicine information of a user is acquired, then the allergy medicines are removed from the prescription automatically issued before, and other alternative medicines are selected. In addition, historical medical records of the user are obtained so as to be convenient for knowing the past medical history of the user, whether medicines exist in the medicine prescription or not is evaluated according to the past medical history, the past medical history of the user can be stimulated, and if the medicines exist, the medicines are removed and replaced by other alternative medicines. Alternatively, the user may be replaced with another prescription that does not contain the user's allergic medication or a medication that may be irritating to the user's past medical history.

It is understood that, as a preferred mode, the medical monitoring system further comprises a storage module for storing the optimized and adjusted medication prescription in association with the relevant information of the user, so that the previous medication prescription can be automatically pushed when the same disease appears again in the subsequent user, and allergy medicament investigation and past medical history investigation do not need to be carried out again.

It can be understood that, as an optimization, the medical monitoring system further includes a medication reminding module for sending medication reminding to the user according to the medication information in the medication guide suggestion. For example, a certain medicine is reminded to be taken several times a day, before or after a meal, and the like.

It can be understood that, as a further preferred option, the medical monitoring system further includes a statistical analysis module for counting the number of times of occurrence of a disease state of the user within a period of time, if the number of times of occurrence of the disease state exceeds a threshold value within the period of time, the medication reminding module reminds the user of taking more medication, and if the number of times of occurrence of the disease state is not greater than the threshold value within the period of time, the medication reminding module reminds the user of taking less medication. For example, counting the number of times of the disease attack of the user within one month, if the number of times of the disease attack within one month exceeds a threshold value, for example, exceeds three times, it means that the user has a relatively frequent disease attack, in order to avoid the aggravation of the disease condition of the user, the user is reminded to take medicines more frequently to expect to control the disease condition, if the number of times of the disease attack within one month is not greater than the threshold value, for example, less than three times, it means that the disease condition of the user is relatively stable recently, and in order to prevent the body of the user from.

It will be appreciated that the medical monitoring system preferably further comprises a feedback module for feeding back the treatment effect of the medication guide recommendation, the storage module storing it in association with the medication guide recommendation.

After the user takes the medicine according to the medication guidance suggestion, the treatment effect can be fed back, for example, the healing information can be fed back to the cloud server after the user heals, the storage module stores the healing information and the medication guidance suggestion in an associated manner, so that the cure rate of the medication guidance suggestion can be counted, the medication guidance suggestion can be automatically recommended according to the cure rate, and the medication guidance suggestion with the highest cure rate is preferably pushed.

It can be understood that, as an optimization, an alarm threshold is also stored in the health database in advance for different human health characteristic parameters, and if the received human health characteristic parameter exceeds the alarm threshold, the medical monitoring system further includes an emergency rescue module for searching a hospital in the peripheral area according to the position information of the user, notifying the hospital to go to the position of the user for emergency treatment, and notifying the family members of the user.

The invention also provides a computer-readable storage medium for a computer program for medical monitoring, which computer program, when running on a computer, performs the steps of the method as described above.

The general form of computer readable media includes: floppy disk (floppy disk), flexible disk (flexible disk), hard disk, magnetic tape, any of its magnetic media, CD-ROM, any of the other optical media, punch cards (punch cards), paper tape (paper tape), any of the other physical media with patterns of holes, Random Access Memory (RAM), Programmable Read Only Memory (PROM), Erasable Programmable Read Only Memory (EPROM), FLASH erasable programmable read only memory (FLASH-EPROM), any of the other memory chips or cartridges, or any of the other media from which a computer can read. The instructions may further be transmitted or received by a transmission medium. The term transmission medium may include any tangible or intangible medium that is operable to store, encode, or carry instructions for execution by the machine, and includes digital or analog communications signals or intangible medium that facilitates communication of the instructions. Transmission media include coaxial cables, copper wire and fiber optics, including the wires that comprise a bus for transmitting a computer data signal.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A medical monitoring method is characterized in that,

the method comprises the following steps:

step S1: acquiring human health characteristic parameters of a user in real time;

step S2: judging the disease of the user based on the received human health characteristic parameters;

step S3: giving medication guidance suggestions based on the user's condition;

step S4: acquiring the position information of a user, and recommending nearby drugstores to the user based on the position information of the user;

step S5: after the permission of the user is obtained, nearby drugstores are informed to deliver the medicine to the department according to the medication guide suggestion.

2. The medical monitoring method of claim 1,

in step S2, warning thresholds are stored in advance for different parameters of human health, the received parameters of human health are compared with corresponding warning thresholds, and the user' S disease is determined based on the parameters of human health that exceed the warning thresholds.

3. The medical monitoring method of claim 1,

at least one medication prescription is correspondingly stored in the step S3 for each disease, and one medication prescription is selected from the disease of the user and fed back to the user as a medication guidance suggestion.

4. The medical monitoring method of claim 3,

the step S3 further includes the steps of:

step S31: and acquiring historical medical records and allergy medicine information of the user, and optimally adjusting the medication prescription based on the historical medical records and the allergy medicine information.

5. The medical monitoring method of claim 4,

the following steps are also included after the step S3:

step S32: and storing the optimized and adjusted medication prescription in association with the relevant information of the user.

6. The medical monitoring method of claim 1,

further comprising the steps of:

step S6: and sending a medication reminding to the user according to the medication information in the medication guide suggestion.

7. The medical monitoring method of claim 6,

further comprising the steps of:

step S7: counting the frequency of disease occurrence of the user within a period of time, if the frequency of disease occurrence within the period of time exceeds a threshold value, reminding the user to take more medicine, and if the frequency of disease occurrence within the period of time is not more than the threshold value, reminding the user to take less medicine.

8. The medical monitoring method of claim 7,

further comprising the steps of:

step S8: the treatment effect of the medication guide recommendation is fed back and stored in association with the medication guide recommendation.

9. The medical monitoring method of claim 2,

in step S2, an alarm threshold is also stored in advance for different human health characteristic parameters, and if the received human health characteristic parameter exceeds the alarm threshold, the method further includes the following steps:

and searching a hospital in the peripheral area according to the position information of the user, informing the hospital to go to the position of the user for first aid, and informing the family members of the user.

10. A computer-readable storage medium for storing a computer program for medical monitoring, wherein the computer program performs the steps of the method according to any one of claims 1 to 9 when the computer program runs on a computer.

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