CN110755044A - Intelligent medicine effect monitoring system and method - Google Patents

Abstract

The invention discloses a system and a method for intelligently monitoring the effect of a medicine, which comprises the following steps: the system comprises a physiological monitoring device, an intelligent terminal, a physiological monitoring platform and a medicine information database; the physiological data of the human body before and after the medicine is taken are collected through the physiological monitoring equipment, the collected physiological data are sent to the physiological monitoring platform for monitoring and analysis in a wireless communication mode, the relevant data of the medicine which reacts to the body can be accurately recorded, meanwhile, the monitoring report is generated through the physiological monitoring platform and is returned to the intelligent terminal for displaying, the effect of the medicine on a user can be effectively reminded, and the consequence of side effect caused by inapplicable taking is avoided.

Description

Intelligent medicine effect monitoring system and method

Technical Field

The invention relates to the technical field of medicine effect monitoring, in particular to a system and a method for intelligently monitoring medicine effect.

Background

After the medicine is taken orally, injected and used in other ways, the self-monitoring is needed, because through the monitoring, whether the medicine is effective to the patient, how high the effect of the medicine is and whether the medicine is taken to generate toxic and side effect can be known, so that whether the medicine is continuously taken or other medicines are changed is determined, the monitoring of the effect of the medicine is very important, and the healing speed of the disease and the body rehabilitation can be directly related.

To know the effect of the medicine, careful self-observation must be carried out from the beginning of taking the medicine to stopping taking the medicine so as not to bring greater harm to the body, but the monitoring of the effect of the medicine in the prior art is realized only through self physical feeling, so that the data of the reaction of the medicine to the body cannot be accurately recorded, and the harm cannot be found in time.

Disclosure of Invention

In view of this, the invention provides an intelligent drug effect monitoring system and method, which can accurately record data of drug reaction to a body and can also generate early warning information in time.

The technical scheme of the invention is realized as follows:

an intelligent drug effect monitoring system comprising: physiology monitoring facilities, intelligent terminal, physiology monitoring platform and medicine information database, physiology monitoring facilities includes:

the acquisition module is used for acquiring physiological data before and after medication;

the communication module is used for communicating the physiological monitoring equipment with the intelligent terminal or the physiological monitoring platform;

the physiological monitoring platform includes:

the first receiving module is used for receiving the physiological data before and after medication;

the monitoring module is used for monitoring the effect of the medicine and generating a monitoring report;

the monitoring report sending module is used for sending the monitoring report to the intelligent terminal;

the intelligent terminal comprises:

the forwarding module is used for forwarding the physiological data before and after the medicine is taken, which are sent by the physiological monitoring equipment, to the physiological monitoring platform;

the monitoring report receiving module is used for receiving a monitoring report sent by the physiological monitoring platform;

the display module is used for displaying a monitoring report sent by the physiological monitoring system;

the drug information database comprises:

a storage module: used for storing the physiological response information of the medicine and all the related information.

As a further alternative of the intelligent drug effect monitoring system, the intelligent terminal further includes:

the personal information input module is used for inputting personal information by a user;

the medication information input module is used for inputting medication information by a user;

the information sending module is used for sending the personal information and the medication information to the physiological monitoring platform;

the physiological monitoring platform further comprises:

the acquisition module is used for acquiring the physiological response information of the medicine and all related information from the medicine information database;

and the second receiving module is used for receiving the personal information and the medication information sent by the intelligent terminal.

As a further alternative of the intelligent drug effect monitoring system, the communication module of the physiological monitoring device comprises:

a connecting module: the physiological monitoring equipment is connected with the intelligent terminal or the physiological monitoring platform;

the judgment module is used for judging the connection state of the physiological monitoring equipment;

and the first sending module is used for sending the physiological data before and after the medicine is taken to the intelligent terminal or the physiological monitoring platform according to the connection state.

An intelligent monitoring method for drug effect comprises the following steps:

step S1, the physiological monitoring device is connected with the intelligent terminal or the physiological monitoring platform,

step S2, the physiological monitoring equipment collects the physiological data before and after medication;

step S3, the physiological monitoring device judges the connection state, if the physiological monitoring device is connected with the intelligent terminal, the step S4 is executed, and if the physiological monitoring device is connected with the physiological monitoring platform, the step S5 is executed;

step S4, the physiological monitoring equipment sends the acquired physiological data before and after medication to the intelligent terminal, and the intelligent terminal sends the received physiological data before and after medication to the physiological monitoring platform;

step S5, the physiological monitoring equipment sends the collected physiological data before and after medication to a physiological monitoring platform;

and step S6, the physiological monitoring platform judges the effect of the medicine, generates a monitoring report and sends the monitoring report to the intelligent terminal for displaying.

As a further alternative of the intelligent drug effect monitoring method, the step S4 further includes the intelligent terminal inputting the personal information and the medication information and sending the personal information and the medication information to the physiological monitoring platform.

As a further alternative of the intelligent monitoring method for the drug effect, the step S6 of judging the drug effect includes:

step S61, the physiological monitoring platform judges whether the user is suitable for the medicine;

in step S62, the physiological monitoring platform determines whether the drug is valid and whether the drug is valid for the action period.

As a further alternative of the intelligent monitoring method for the effect of the drug, the step S61 includes the following steps:

step S611, the physiological monitoring platform receives the personal information and the medication information sent by the intelligent terminal;

step S612, the physiological monitoring platform acquires the drug physiological reaction information matched with the medication information and all related information from the drug information database according to the medication information;

step S613, the physiological monitoring platform determines whether the medicine is suitable for the user according to the personal information and the physiological response information of the medicine.

As a further alternative of the intelligent monitoring method for the effect of the drug, the step S62 includes the following steps:

step S621, the physiological monitoring platform establishes a standard physiological value range according to the physiological data before medication;

step S622, comparing the physiological data after medication with the standard physiological value range, so as to determine whether the medicine is valid, if so, generating a response time for the medicine to be valid, executing step S63, and if not, directly generating a monitoring report and sending the monitoring report to the intelligent terminal for display.

Step S623, the physiological monitoring platform receives the medication information sent by the intelligent terminal, and acquires the drug physiological reaction information matched with the medication information and all related information from a drug information database;

step S624, judging whether the medicine is effective in the medicine action period according to the effective reaction time of the medicine and the physiological reaction information of the medicine, generating a monitoring report and sending the monitoring report to the intelligent terminal for displaying.

The invention has the beneficial effects that: the physiological data of the human body before and after the medicine is taken are collected through the physiological monitoring equipment, the collected physiological data are sent to the physiological monitoring platform for monitoring and analysis in a wireless communication mode, the relevant data of the medicine which reacts to the body can be accurately recorded, meanwhile, the monitoring report is generated through the physiological monitoring platform and is returned to the intelligent terminal for displaying, the effect of the medicine on a user can be effectively reminded, and the consequence of side effect caused by inapplicable taking is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of the composition of an intelligent drug effect monitoring system according to the present invention;

fig. 2 is a flowchart of an intelligent drug effect monitoring method according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, an intelligent drug effect monitoring system comprises: physiology monitoring facilities, intelligent terminal, physiology monitoring platform and medicine information database, physiology monitoring facilities includes:

the acquisition module is used for acquiring physiological data before and after medication;

the communication module is used for communicating the physiological monitoring equipment with the intelligent terminal or the physiological monitoring platform;

the physiological monitoring platform includes:

the first receiving module is used for receiving the physiological data before and after medication;

the monitoring module is used for monitoring the effect of the medicine and generating a monitoring report;

the monitoring report sending module is used for sending the monitoring report to the intelligent terminal;

the intelligent terminal comprises:

the forwarding module is used for forwarding the physiological data before and after the medicine is taken, which are sent by the physiological monitoring equipment, to the physiological monitoring platform;

the monitoring report receiving module is used for receiving a monitoring report sent by the physiological monitoring platform;

the display module is used for displaying a monitoring report sent by the physiological monitoring system;

the drug information database comprises:

a storage module: used for storing the physiological response information of the medicine and all the related information.

In the embodiment, physiological data of a human body before and after medication is collected through physiological monitoring equipment, the collected physiological data is sent to a physiological monitoring platform for monitoring and analysis in a wireless communication mode, the effect of a medicine is judged through the physiological monitoring platform, relevant data of the medicine on the body can be accurately recorded, meanwhile, a monitoring report is generated through the physiological monitoring platform and returned to an intelligent terminal for displaying, the effect of the medicine on a user can be effectively reminded, and the consequence of side effect caused by inapplicable administration is avoided; it should be noted that the physiological monitoring device includes, but is not limited to, a bracelet, and the physiological data that the physiological monitoring device can collect includes, but is not limited to, blood pressure, heart rate, blood oxygen content, and body temperature, and is not limited to this.

Preferably, the intelligent terminal further includes:

the personal information input module is used for inputting personal information by a user;

the medication information input module is used for inputting medication information by a user;

the information sending module is used for sending the personal information and the medication information to the physiological monitoring platform;

the physiological monitoring platform further comprises:

the acquisition module is used for acquiring the physiological response information of the medicine and all related information from the medicine information database;

and the second receiving module is used for receiving the personal information and the medication information sent by the intelligent terminal.

In the embodiment, a user inputs personal information and medication information through an intelligent terminal, medicine physiological response information is acquired from a medicine information database through a physiological monitoring platform, the personal information and the medication information are compared with the medicine physiological response information, the user can be reminded whether to be suitable for taking the medicine or not, and whether the medicine is effective in an action period of the medicine or not can be known, so that the user can conveniently select whether to continue taking the medicine or not; it should be noted that the personal information includes, but is not limited to, weight, height, sex, pathophysiological data and allergy history, and the medication information includes, but is not limited to, drug name and medication time, and is not limited herein.

Preferably, the communication module of the physiological monitoring device comprises:

a connecting module: the physiological monitoring equipment is connected with the intelligent terminal or the physiological monitoring platform;

the judgment module is used for judging the connection state of the physiological monitoring equipment;

and the first sending module is used for sending the physiological data before and after the medicine is taken to the intelligent terminal or the physiological monitoring platform according to the connection state.

In this embodiment, the physiological monitoring device can be connected with the intelligent terminal or the physiological monitoring platform through the connection module, and if the physiological monitoring device is connected with the intelligent terminal, the acquired physiological data is sent to the intelligent terminal, and if the physiological monitoring device is connected with the physiological monitoring platform, the acquired physiological data is sent to the physiological monitoring platform; it should be noted that, the physiological monitoring device is preferentially connected with the physiological monitoring platform, and is directly connected with the physiological monitoring platform through a 2G network, a 3G network, a 4G network, a 5G network or an NBIOT module, if the physiological monitoring device cannot be directly connected with the physiological monitoring platform, the physiological monitoring device is firstly connected with the intelligent terminal through bluetooth, and the intelligent terminal is then connected with the physiological monitoring platform; when the physiological monitoring equipment is directly connected with the physiological monitoring platform, the physiological monitoring equipment directly sends acquired data to the physiological monitoring platform, when the physiological monitoring platform is connected with the intelligent terminal, the physiological monitoring equipment sends the acquired physiological data to the intelligent terminal, and the intelligent terminal sends the physiological data to the physiological monitoring platform through a mobile data network, so that specific limitation is not required.

Preferably, the intelligent monitoring method for the drug effect comprises the following steps:

step S1, the physiological monitoring device is connected with the intelligent terminal or the physiological monitoring platform,

step S2, the physiological monitoring equipment collects the physiological data before and after medication;

step S3, the physiological monitoring device judges the connection state, if the physiological monitoring device is connected with the intelligent terminal, the step S4 is executed, and if the physiological monitoring device is connected with the physiological monitoring platform, the step S5 is executed;

step S4, the physiological monitoring equipment sends the acquired physiological data before and after medication to the intelligent terminal, and the intelligent terminal sends the received physiological data before and after medication to the physiological monitoring platform;

step S5, the physiological monitoring equipment sends the collected physiological data before and after medication to a physiological monitoring platform;

and step S6, the physiological monitoring platform judges the effect of the medicine, generates a monitoring report and sends the monitoring report to the intelligent terminal for displaying.

In the embodiment, physiological data of a human body before and after medication is collected through physiological monitoring equipment, the collected physiological data is sent to a physiological monitoring platform for monitoring and analysis in a wireless communication mode, the effect of a medicine is judged through the physiological monitoring platform, relevant data of the medicine on the body can be accurately recorded, meanwhile, a monitoring report is generated through the physiological monitoring platform and returned to an intelligent terminal for displaying, the effect of the medicine on a user can be effectively reminded, and the consequence of side effect caused by inapplicable administration is avoided; it should be noted that the physiological monitoring device includes, but is not limited to, a bracelet, and the physiological data that the physiological monitoring device can collect includes, but is not limited to, blood pressure, heart rate, blood oxygen content, and body temperature, and is not limited to this.

Preferably, the step S4 further includes the intelligent terminal inputting the personal information and the medication information and sending the information to the physiological monitoring platform.

In the embodiment, a user inputs personal information through the intelligent terminal, a personal file can be established on the physiological monitoring platform, and after the user takes a medicine, the physiological monitoring platform calls the established personal file by inputting medicine taking information so as to analyze whether the user is suitable for taking the medicine or not in the follow-up process; it should be noted that the personal information includes, but is not limited to, weight, height, sex, pathophysiological data and allergy history, and the medication information includes, but is not limited to, drug name and medication time, and is not limited herein.

Preferably, the step S6 of determining the effect of the medicine includes:

step S61, the physiological monitoring platform judges whether the user is suitable for the medicine;

in step S62, the physiological monitoring platform determines whether the drug is valid and whether the drug is valid for the action period.

In this embodiment, the medicine taken by the user can be evaluated in multiple ways by judging whether the user applies the medicine, judging whether the medicine is effective and judging whether the medicine is effective in the action period, so that the user can more fully know the medicinal effect of the medicine on the body.

Preferably, the step S61 includes the steps of:

step S611, the physiological monitoring platform receives the personal information and the medication information sent by the intelligent terminal;

step S612, the physiological monitoring platform acquires the drug physiological reaction information matched with the medication information and all related information from the drug information database according to the medication information;

step S613, the physiological monitoring platform determines whether the medicine is suitable for the user according to the personal information and the physiological response information of the medicine.

In this embodiment, when the physiological monitoring platform receives the personal information and the medication information sent by the intelligent terminal, a user personal file is established on the physiological monitoring platform according to the personal information, then the medicine physiological response information matched with the medication information is acquired from the medicine information database according to the medication information, and finally the personal information and the medicine physiological response information are called to judge whether the medicine is suitable for the user; it should be noted that the information includes, but is not limited to, weight, height, sex, pathophysiological data and allergy history, and the medication information includes, but is not limited to, drug name and medication time, and is not limited herein.

Preferably, the step S62 includes the steps of:

step S621, the physiological monitoring platform establishes a standard physiological value range according to the physiological data before medication;

step S622, comparing the physiological data after medication with the standard physiological value range, so as to determine whether the medicine is valid, if so, generating a response time for the medicine to be valid, executing step S63, and if not, directly generating a monitoring report and sending the monitoring report to the intelligent terminal for display.

Step S623, the physiological monitoring platform receives the medication information sent by the intelligent terminal, and acquires the drug physiological reaction information matched with the medication information and all related information from a drug information database;

step S624, judging whether the medicine is effective in the medicine action period according to the effective reaction time of the medicine and the physiological reaction information of the medicine, generating a monitoring report and sending the monitoring report to the intelligent terminal for displaying.

In the embodiment, a standard physiological value range is established according to the physiological data before medication, if the physiological data after medication is in the standard physiological value range, the medicine is judged to be effective, otherwise, the medicine has no effect, meanwhile, after the medicine is judged to be effective, the physiological monitoring platform counts the time from the medication to the effect generation and acquires the physiological response information of the medicine from the medicine information database, if the time from the medication to the effect generation is in the time recorded by the physiological response information, the medicine is judged to be effective in the medicine action period, otherwise, the medicine is not effective in the medicine action period; it should be noted that when the standard physiological value range is established, besides collecting multiple sets of physiological data before administration according to the physiological monitoring equipment, the standard physiological value range also needs to be established according to the drug information contained in the drug instruction, pharmacopoeia and literature.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. An intelligent drug effect monitoring system, comprising: physiology monitoring facilities, intelligent terminal, physiology monitoring platform and medicine information database, physiology monitoring facilities includes:

the acquisition module is used for acquiring physiological data before and after medication;

the communication module is used for communicating the physiological monitoring equipment with the intelligent terminal or the physiological monitoring platform;

the physiological monitoring platform includes:

the first receiving module is used for receiving the physiological data before and after medication;

the monitoring module is used for monitoring the effect of the medicine and generating a monitoring report;

the monitoring report sending module is used for sending the monitoring report to the intelligent terminal;

the intelligent terminal comprises:

the forwarding module is used for forwarding the physiological data before and after the medicine is taken, which are sent by the physiological monitoring equipment, to the physiological monitoring platform;

the monitoring report receiving module is used for receiving a monitoring report sent by the physiological monitoring platform;

the display module is used for displaying a monitoring report sent by the physiological monitoring system;

the drug information database comprises:

a storage module: used for storing the physiological response information of the medicine and all the related information.

2. The intelligent drug effect monitoring system of claim 1, wherein the intelligent terminal further comprises:

the personal information input module is used for inputting personal information by a user;

the medication information input module is used for inputting medication information by a user;

the information sending module is used for sending the personal information and the medication information to the physiological monitoring platform;

the physiological monitoring platform further comprises:

the acquisition module is used for acquiring the physiological response information of the medicine and all related information from the medicine information database;

and the second receiving module is used for receiving the personal information and the medication information sent by the intelligent terminal.

3. The intelligent drug effect monitoring system of claim 1, wherein the communication module of the physiological monitoring device comprises:

a connecting module: the physiological monitoring equipment is connected with the intelligent terminal or the physiological monitoring platform;

the judgment module is used for judging the connection state of the physiological monitoring equipment;

and the first sending module is used for sending the physiological data before and after the medicine is taken to the intelligent terminal or the physiological monitoring platform according to the connection state.

4. An intelligent medicine effect monitoring method is characterized by comprising the following steps:

step S1, the physiological monitoring device is connected with the intelligent terminal or the physiological monitoring platform,

step S2, the physiological monitoring equipment collects the physiological data before and after medication;

step S3, the physiological monitoring device judges the connection state, if the physiological monitoring device is connected with the intelligent terminal, the step S4 is executed, and if the physiological monitoring device is connected with the physiological monitoring platform, the step S5 is executed;

step S4, the physiological monitoring equipment sends the acquired physiological data before and after medication to the intelligent terminal, and the intelligent terminal sends the received physiological data before and after medication to the physiological monitoring platform;

step S5, the physiological monitoring equipment sends the collected physiological data before and after medication to a physiological monitoring platform;

and step S6, the physiological monitoring platform judges the effect of the medicine, generates a monitoring report and sends the monitoring report to the intelligent terminal for displaying.

5. The intelligent drug effect monitoring method according to claim 4, wherein the step S4 further comprises the intelligent terminal inputting personal information and medication information and sending the personal information and medication information to the physiological monitoring platform.

6. The intelligent drug effect monitoring method of claim 1, wherein the step S6 of determining drug effect comprises:

step S61, the physiological monitoring platform judges whether the user is suitable for the medicine;

in step S62, the physiological monitoring platform determines whether the drug is valid and whether the drug is valid for the action period.

7. The intelligent drug effect monitoring method according to claim 6, wherein the step S61 comprises the following steps:

step S611, the physiological monitoring platform receives the personal information and the medication information sent by the intelligent terminal;

step S612, the physiological monitoring platform acquires the drug physiological reaction information matched with the medication information and all related information from the drug information database according to the medication information;

step S613, the physiological monitoring platform determines whether the medicine is suitable for the user according to the personal information and the physiological response information of the medicine.

8. The express delivery information protection method according to claim 6, wherein the step S62 includes the steps of:

step S621, the physiological monitoring platform establishes a standard physiological value range according to the physiological data before medication;

step S622, comparing the physiological data after medication with the standard physiological value range, so as to determine whether the medicine is valid, if so, generating a response time for the medicine to be valid, executing step S63, and if not, directly generating a monitoring report and sending the monitoring report to the intelligent terminal for display.

Step S623, the physiological monitoring platform receives the medication information sent by the intelligent terminal, and acquires the drug physiological reaction information matched with the medication information and all related information from a drug information database;

step S624, judging whether the medicine is effective in the medicine action period according to the effective reaction time of the medicine and the physiological reaction information of the medicine, generating a monitoring report and sending the monitoring report to the intelligent terminal for displaying.

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