WO2010083766A1

WO2010083766A1 - Health information system, method and corresponding apparatus, device and reagent carrier

Info

Publication number: WO2010083766A1
Application number: PCT/CN2010/070312
Authority: WO
Inventors: 张晓峰
Original assignee: 理康互联科技(北京)有限公司
Priority date: 2009-01-23
Filing date: 2010-01-21
Publication date: 2010-07-29

Abstract

A health information system is disclosed, which includes: a health information acquiring module (101), for acquiring health information, and a storage control module (102), for locally or non-locally storing health information. A corresponding health information management method, and a communication apparatus comprising the health information system, a drug infusion apparatus, a testing device and its corollary reagent carrier are also disclosed. The present application enhances the digitalization, standardization and automatic acquisition of the health information, so as to help the user to analyze a patient's disease conveniently, quickly and accurately.

Description

TECHNICAL FIELD The present invention relates to the field of health information management technologies, and in particular, to a health information system and method, a corresponding communication device, a drug infusion device, a test device, and an auxiliary device. Reagent carrier. Background Art Currently, for patients with chronic diseases, such as diabetic patients, hypertensive patients, hyperlipidemia patients, and the like, it is necessary to periodically measure the patient's health information indicating his or her health status as a reference for the doctor's treatment plan. For example, in diabetic patients, it is necessary to regularly check the blood glucose level. For example, for patients with type 2 diabetes, at least 3 to 5 times of blood glucose should be detected every week. For patients with type 1 diabetes with good glycemic control, at least two tests are needed every day. The secondary blood glucose level, for patients with type 1 diabetes who have poor glycemic control, need to test at least 7 blood glucose values every day.

Currently, the usual method for health management of chronic diseases is to manually record health information on a record, and the doctor makes health guidance for the patient based on the data recorded in the record at the time of the visit. For example, in a diabetic patient, the patient is generally provided with a blood glucose meter that can be carried around for detecting the glucose concentration value in the blood sample, and the patient or his or her caregiver detects the blood sugar level of the patient, and manually records the test result on the record book. When the medical institution visits the clinic at regular intervals, the manually recorded blood glucose value is provided to the medical staff, and the medical staff makes health guidance according to the recorded situation, or adjusts and determines the corresponding treatment plan.

The manual recording method described above is very inconvenient to use, and the patient and his or her caregiver need to manually record each time after the health information is detected, and the format of the manual recording varies from person to person, and the degree of standardization is very low, which is inconvenient for the medical staff to read. At the same time, because the recorded data is mostly and discrete data, there is no digitization and automatic acquisition. In the current difficult situation, the time allocated by the medical staff to each patient is usually only a few minutes, even if the medical staff spends a lot. At the time, it is difficult to find out the patient's blood sugar changes from these discrete data, it is difficult to accurately give patients health guidance, so as to delay the treatment of patients, and aggravate the patient's condition. Therefore, there is an urgent need for a standardized, digital, and automated health information management program to help medical staff analyze patients (especially those with chronic diseases) easily, quickly, and accurately.

SUMMARY OF THE INVENTION In view of this, the main object of the present invention is to provide a health information system and method, which can improve the digitization and standardization and automatic acquisition of health information, so as to help the user to analyze the patient's condition conveniently, quickly and accurately. Another object of the present invention is to provide a communication device including the health information system, so that a user can collect and manage health messages by using a portable communication device. Interest, more convenient for users to analyze and manage health information anytime, anywhere. Another object of the present invention is to provide a medicine infusion device including the health information system, which is convenient for a user to record infusion information when injecting a medicine, and is more convenient for managing health information including medication information. Another object of the present invention is to provide a test device including the health information system and a reagent carrier matched therewith, which is convenient for the user to test the physiological parameters by using the test device at any time, and automatically record and manage the test result, and is more convenient. Manage health information including test results.

In order to achieve the above object, the main technical solution of the present invention is: a health information system, the system comprising: a health information acquisition module, configured to obtain health information; and a storage control module, configured to store the obtained health information in Local or non-local.

In an embodiment, the health information system further includes: a storage module, configured to store the acquired health information; and a processing module, configured to analyze and manage the stored health information; (including query history, processing Generating an analysis report, triggering a prompt message) an output module, configured to output an analysis management result of the processing module. (monitor, speaker or other output interface)

In one embodiment, the health information acquisition module includes any one of the following acquisition interfaces, or any combination of the following types of acquisition interfaces: an analyte sugar level information acquisition interface for acquiring information on sugar content of the analyte; The information acquisition interface is configured to obtain the eating information; the motion information acquiring interface is configured to obtain the motion information; the medication information obtaining interface is configured to obtain the medication information; and the physical condition information obtaining interface is configured to obtain the physical condition information.

In one embodiment, the analyte sugar level information acquisition interface is any one of the following or a combination of any of the following: a sugar level test module for testing the sugar level of the analyte, obtaining test results; An input interface for receiving the sugar content of the analyte input by the manual operation; a communication interface for communicating with the analyte sugar level tester for accepting the analyte sugar level test result transmitted by the analyte sugar level tester.

In one embodiment, the analyte sugar level information acquisition interface includes: a time information acquisition interface, configured to acquire collection time information for collecting the sugar content of the analyte; and further comprising an analyte sugar content level The obtaining interface is configured to obtain the specific content of the sugar content of the analyte; the eating information obtaining interface includes: a time information obtaining interface, configured to acquire eating time information corresponding to the eating information; and an eating content obtaining interface, configured to obtain The specific information of the eating; the motion information acquiring interface includes: a time information acquiring interface, configured to acquire motion time information corresponding to the motion information; and a motion content acquiring interface, configured to acquire specific content of the motion; The interface includes: a time information acquisition interface, configured to obtain time information corresponding to the medication information; and a medication content acquisition interface, configured to acquire specific content of the medication; the physical condition information acquisition interface includes: a time information acquisition interface, For obtaining physical condition information Collection time information; also includes a physical condition content acquisition interface for obtaining specific content of the physical condition.

In one embodiment, the analyte sugar content information acquisition interface, the food information acquisition interface, and the time information acquisition interface in the medication information acquisition interface are further used to acquire a time period letter. Interest. For example, for blood sugar, the time period information may be before, after, before, after, before, after, before, during, and at night; or, of course, breakfast, lunch, dinner, night, or otherwise Time slot

In one embodiment, the analyte sugar content information acquisition interface, the eating information acquisition interface, the motion information acquisition interface, the medication information acquisition interface, and the physical condition information acquisition interface further include: a remark information acquisition interface, configured to acquire Corresponding comment information.

In one embodiment, the system further includes any one of the following units, or a combination of any of the following units: a food ingredient amount calculation unit, configured to calculate the food eaten by the user according to the food information obtained by the user and the pre-stored food ingredient information. a component of sugar content calculation unit for calculating the influence of the user on the blood sugar after eating according to the food information obtained by the user and the pre-stored food glycemic index information; the motion information calculation unit is configured to calculate the user according to the motion information input by the user The total amount of carbohydrate or calories consumed by exercise.

In an embodiment, the processing module specifically includes at least one of the following analysis engines, or any combination of the following: a monitoring diary analysis engine, configured to classify the stored health information according to a period and a time period, The specific content of the health information is respectively displayed in the corresponding period and time column; the time period includes breakfast, lunch, dinner, and night; the health information includes at least blood sugar information; and the data list analysis engine is used to store the All health information is displayed one by one in chronological order, each piece of information includes at least time, health information type and health information content; blood glucose trend analysis engine is used to draw blood sugar charts by using blood glucose values in the stored health information and their corresponding collection time The blood glucose statistical analysis engine is configured to analyze the blood glucose value in the stored health information, compare all the blood glucose values in the specified time with the predetermined parameter range, and perform statistics on the comparison result to generate a statistical report; Daily distribution analysis engine for storing health The blood glucose value in the Kang information is analyzed, and all the blood glucose values in the specified time are plotted on the blood glucose chart of the single ;; the average blood glucose analysis engine is used to analyze the blood sugar value in the stored health information, and calculate at the specified time. The average value of blood glucose in the same period of time; the medication diet analysis engine is used to analyze the medication information and/or the feeding information in the stored health information, and calculate the dosage and/or food consumption in the same time period within the specified time range. The average value of the quantity; the physical examination record analysis engine is used to analyze the medical examination information in the stored health information, and display the display report of the medical examination record in time order.

In an embodiment, the processing module further includes any one of the following analysis and determination modules or a combination of any of the following: a first analysis and determination module, configured to determine whether the acquired health information is in a preset range The interval is a trigger operation corresponding to the range of the range, and is output by the output module. The second analysis and determination module is configured to: after the health information acquisition module obtains the current health information, query the stored health information to determine whether there is The historical health information that matches the content of the currently obtained health information, the trigger output module outputs the matched historical health information; the third analysis and determination module is configured to query, from the stored health information, whether the input and the input are If the query condition matches the historical health information, the trigger output module outputs the matched historical health information. In an embodiment, the processing module further includes: a report/alarm triggering module, configured to analyze and process the stored health information according to a preset processing condition, and generate corresponding report/alarm information when the trigger condition is met. Output by the output module in a corresponding manner. The output mode of the output module includes: displaying by a web browser, displaying through a client interface (the client includes a client of a computer client, a mobile phone client, and other smart devices), sending by email, and using a mobile communication network SMS sending and more.

In an embodiment, the system further includes: a user information module, configured to store or obtain user information, and the storage control module stores the user information and the corresponding health information correspondingly. In one embodiment, the user information module is a medium storing user information; the system further includes a first reading device, configured to read user information in the medium; the storage control module The user information and the corresponding health information are stored correspondingly. In an embodiment, at least one user information is stored in the user information module; the system further includes a user selection module, configured to select one user information from the user information module; the storage control module to the user Information and corresponding health information are stored in correspondence. In one embodiment, the storage control module stores the information in a non-local situation, the system further comprising a communication module for storing the non-local storage space to which the information is transmitted.

In an embodiment, the apparatus further includes: a selection module, configured to provide the user with prompt information for transmitting health information, and select whether to send the health information to the non-local storage space according to an instruction input by the user. . In an embodiment, the selecting module specifically includes: a first prompting module, configured to provide a prompt information for sending a blood glucose value to the user before collecting the health information; and an instruction recording module, configured to record an instruction input by the user; a determining module, configured to determine, according to the recorded user instruction, whether the health information needs to be sent to the non-local storage space after collecting the health information, and triggering, by the communication module, the health information when the sending needs to be sent. In another embodiment, the selecting module specifically includes: a second prompting module, configured to provide the user with prompt information for sending a blood sugar value after collecting the health information; and a second determining module, configured to: according to the instruction input by the user Determining whether the health information needs to be sent to the non-local storage space, and notifying the communication module to send the health information when it needs to be sent.

In an embodiment, the communication module is further configured to receive information of an external server, and output the received information by using the output module. In an embodiment, the communication module is a communication module that can wirelessly access a communication network.

The present invention also discloses a communication device comprising the health information system of the various embodiments described above. The present invention also discloses a drug infusion device comprising the health information system of the various embodiments described above. The drug infusion device includes an infusion drug amount calculation module, configured to calculate the amount of the infused drug, and send the infused drug volume to the health information acquiring module, and the health information acquiring module uses the drug amount information as a kind Get the health information.

The present invention also discloses a test device, including the health information system of the above embodiments, wherein the test module in the test device belongs to the health information acquisition module, and the health information acquisition module uses the test result of the test module as a Kind of health information obtained. Preferably, said The test module is an analyte sugar level tester.

The invention also discloses a reagent carrier used in combination with the above test device, the reagent carrier cooperates with the test device when in use, and the test module in the test device tests the parameters of the analyte sample on the reagent carrier, The health information acquisition module uses the test result of the analyte sample on the reagent carrier as an acquired health information. Preferably, the reagent carrier has user information for reading by the reading device, and the testing device reads the user information on the reagent carrier and stores it by the storage control module. Preferably, the reagent carrier is a reagent strip for testing the sugar level of the analyte, and the test result is the sugar level of the analyte.

The invention also discloses a health information management method, the method comprising: A: obtaining health information; B, storing the obtained health information locally or storing it in a non-local state.

In an embodiment, the method further includes: C. performing analysis and management on the stored health information; D. outputting the analysis management result.

In one embodiment, the step A includes any one of the following steps or a combination of any of the following: Al, obtaining analyte sugar level information; A2, obtaining eating information; A3, obtaining motion information; A4, obtaining medication Information; A5, get physical status information.

In one embodiment, the A1 includes: acquiring acquisition time information of collecting the sugar content of the analyte and specific content of the sugar content of the analyte; and the A2 includes: obtaining food corresponding to the eating information The time information and the specific content of the eating; the A3 includes: acquiring the motion time information corresponding to the motion information and the specific content of the motion; the A4 includes: acquiring time information corresponding to the medication information, and acquiring specific content of the medication; The A5 includes: acquiring the collection time information corresponding to the physical condition information and the specific content of the physical condition.

In an embodiment, the time period information is further acquired in the Al, A2, and A4. In an embodiment, the corresponding remark information is further obtained in the Al, A2, A3, A4, and A5.

In one embodiment, the A1 specifically includes at least one of the following A11~A13 or a combination of any of the following: All, testing the sugar content of the analyte by using the sugar level test module to obtain the test result; A12, Accepting the sugar content of the analyte manually input using a manual input interface; A13, accepting the sugar level of the analyte using a communication interface with the analyte sugar level tester. In one embodiment, the method further includes the following E1 Any one of ~E3, or any item: El, calculating the amount of food ingredients eaten by the user according to the food information obtained by the user and the pre-stored food ingredient information; E2, according to the eating information obtained by the user and the pre-stored food glycemic index information Calculate the effect of the user on blood sugar after eating; E3. Calculate the total amount of carbohydrate or calories consumed by the user's exercise based on the motion information input by the user.

In an embodiment, the C specifically includes at least one of the following C1~C12, or a combination of any items: Cl, classifying the stored health information according to a date and a time period, and determining the specificity of the health information The content is displayed in the corresponding date and time interval respectively; the time period includes breakfast, lunch, dinner, and nighttime; the health information includes at least blood sugar information; C2, and all stored health information is displayed one by one in chronological order, each Information includes at least time, health Information type and health information content; C3, using the blood glucose value stored in the stored health information and its corresponding collection time to draw a blood glucose chart; C4, analyzing the blood glucose value in the stored health information, using all of the specified time The blood glucose level is compared with a predetermined parameter range, and the comparison result is counted to generate a statistical report; C5. The blood glucose value in the stored health information is analyzed, and all blood glucose values in the specified time are plotted on the blood glucose coordinate of the single day. C6, analyzing the blood glucose value in the stored health information, calculating the average value of blood glucose in the same time period within the specified time range; C7, analyzing the medication information and/or eating information in the stored health information, Calculate the average of the drug dosage and/or food intake in the same time period within the specified time range; C8. Analyze the medical examination information in the stored health information, and display the display report of the medical examination record in chronological order. C9. determining whether the acquired health information is in a preset range, and triggering a prompt operation corresponding to the range of the range; C10, after obtaining the current health information, querying from the stored health information to determine whether There is historical health information that matches the content of the currently obtained health information, and some outputs the matched historical health information; C11. Query from the stored health information to determine whether there is historical health information that matches the input query condition. The triggering output module outputs the matched historical health information; C12, analyzing and processing the stored health information according to the preset processing condition, generating corresponding report/alarm information when the trigger condition is met, and outputting through corresponding manner .

In an embodiment, the method further comprises: storing or acquiring user information, and storing the user information and the corresponding health information correspondingly. In one embodiment, the user information is stored on a medium, and the method of obtaining user information is to read user information in the medium by a corresponding reading device.

The health information system of the present invention belongs to an intelligent data processing device, which uses the health information acquisition module to obtain health information, and stores the health information locally or non-locally, and the health information system is compared with the existing manual record of health information. Improve the digitization, standardization and automated acquisition of health information, making the data format a unified basis, and very easy to intelligent system (such as computer) for analysis and management, can help medical staff to analyze patients conveniently, quickly and accurately (especially The condition of a chronically ill patient). The health information system of the invention uses the processing module to analyze and process the health information and output the same to the user by using the output module, which can help the medical staff to find out the health change law of the patient from the dense health information, thereby quickly, conveniently and accurately giving The diagnosis and treatment plan saves time and can give a treatment plan tailored to local conditions, thereby improving the health of patients. The present invention is particularly directed to chronic diseases such as diabetic patients, which can help patients to record complicated and multi-point health information, including blood sugar, diet, medication, exercise, physical condition, etc., which can be easily stored and analyzed and managed. The trend of the patient's health status and the interaction between various health information, so as to more accurately propose a health guidance program tailored to local conditions. The invention also discloses a communication device including the health information system, such as a mobile communication terminal such as a mobile phone. Since these communication devices have become portable devices that are inseparable from each other, users can use these portable communication devices to collect and manage health information, and more It is convenient for users to analyze and manage health information anytime and anywhere. The invention also provides a package The drug infusion device of the health information system, because the collection and management of drug information is very important and complicated in the management of chronic diseases, especially in the management of diabetes using an insulin pump, the drug infusion using the present invention is shown. The device can conveniently record the infusion information when injecting the drug, and it is more convenient to manage the health information including the medication information. The invention also provides a test device including the health information system and a reagent carrier matched therewith, which is convenient for the user to test physiological parameters such as blood sugar values by using the test equipment at any time, and automatically record and manage the test results, and the user does not have to Manually enter blood glucose values to make it easier to manage health information, including blood glucose and other test results. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1a is a schematic diagram of a health information system according to the present invention;

Figure lb is a diagram of an embodiment of storing the health information locally;

Figure lc is a diagram of an embodiment in which the health information is stored non-locally;

2 is a schematic diagram of an embodiment of an information acquisition module;

Figure 3a is a schematic diagram of an interface of a blood glucose information acquisition interface;

Figure 3b is a schematic diagram of an interface of a feeding information acquisition interface;

Figure 3c is a schematic diagram of an interface of a motion information acquisition interface;

Figure 3d is a schematic diagram of an interface of a medication information acquisition interface;

4a is a schematic diagram of the composition of another embodiment of the present invention;

FIG. 4b is a network architecture form of each functional module of the health information system; FIG. 5 is an interface diagram of the health information system of the present invention in a B/S architecture or a C/S architecture;

Figure 6a is a flow chart for determining the range of blood glucose and outputting corresponding prompt information;

6b is a flow chart for querying matching content and issuing prompt information after obtaining the diet information; FIG. 6c is a flow chart of the query prompt when the query information is obtained;

Figure 7a is a schematic diagram of a first embodiment of a communication device, a drug infusion device, and a test device; Figure 7b is a schematic view of a second embodiment of a communication device, a drug infusion device, a test device, etc.; Figure 7c is a communication device, A schematic diagram of a third embodiment of a drug infusion device, a test device, etc.; FIG. 7d is a schematic diagram of a fourth embodiment of a communication device, a drug infusion device, a test device, etc.; FIG. 7e is a communication device, a drug infusion device, and a test Figure 5f is a schematic diagram of a sixth embodiment of a communication device, a drug infusion device, a test device, etc.; Figure 8a is a main flow chart of the method of the present invention;

Figure 8b is a flow diagram of the method of the present invention including the step of analyzing the output. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be further described in detail by way of specific embodiments and the accompanying drawings.

Figure la is a schematic diagram of the health information system of the present invention. See Figure la, the health letter The information system includes: a health information obtaining module 101, configured to obtain health information. The storage control module 102 is configured to store the obtained health information locally or non-locally. The storage control module 102 performs storage control on the acquired health information, and the storage control may be performed in two ways. One way is to store the health information in a local storage module, as shown in FIG. The method is stored in a non-local manner, as shown in FIG. 1c. When the method is used, the health information system needs to have the communication module 104, and after obtaining the health information, for example, after receiving the information input by the user, The communication module 104 transmits the health information to the non-local storage space 105 for storage by wired or wireless communication. In this manner, the storage module may not be provided locally.

The health information acquisition module and the storage control module of FIG. 1a may constitute a simple health information collection device; the health information acquisition module, the storage control module and the storage module of FIG. 1b may also constitute a simple health information collection. The health information acquisition module, the storage control module, and the communication module of the figure lc may also constitute a health information collection device. Of course, the health information collection device may also include some other functional modules. The form or carrier of the health information collecting device may be various. For example, the special client software may be installed on a device having a software processing function such as a computer, or may be implemented on the Internet by using a browser, or simply made into a special device of.

The manner in which the health information acquisition module obtains the health information may be various. For example, FIG. 2 is a schematic diagram of an embodiment of an information acquisition module. Referring to FIG. 2, an embodiment of the health information acquisition module includes an analyte sugar level information acquisition interface (the blood sugar information acquisition interface is taken as an example in FIG. 2), a food information acquisition interface, a motion information acquisition interface, a medication information acquisition interface, and The physical condition information acquisition interface. Of course, the health information acquisition module may also include only one of the acquisition interfaces in FIG. 2, or a combination of any ones.

The analyte sugar level information acquisition interface is configured to obtain analyte sugar level information. The analyte sugar level refers to a sugar level in a substance such as blood, plasma, interstitial (ISF), urine, or the like of a living body (e.g., a human body), and the sugar mainly refers to glucose. The sugar level in this paper is illustrated by the sugar level in blood (referred to as blood glucose). The blood glucose information acquisition interface may be any one of a blood glucose test module, a manual input interface, and a communication interface for communicating with the blood glucose tester, or a combination of any of the items. Wherein: the blood glucose test module is configured to test a sugar level in a blood sample, and obtain a test result, that is, a blood sugar level; the manual input interface is configured to receive blood glucose information input by a manual operation; and the communication interface communicated with the blood glucose tester It is used to receive the blood glucose test result transmitted by the blood glucose tester, and the blood sugar test result is taken as the obtained blood sugar level.

The sample detected by the blood glucose test module may be a blood sample, and the blood glucose value is obtained by detecting the blood glucose sample, and the specific blood glucose detecting technology may be a commonly used technique for the blood sugar test product in the industry, such as electrochemical test and light reflection technology. Test or the like; or the blood glucose test module can also detect other physiological samples that can directly or indirectly reflect the blood sugar level, and calculate the blood sugar level, for example, a detector that calculates the blood sugar level by detecting body fluids, or The skin or eye is subjected to spectral analysis to calculate a blood glucose level detector or the like. The blood glucose detected by the blood glucose test module may be discrete at a single point or may be dynamically continuous. As for How to detect the sugar level in a living body is not the focus of the present invention, and can be referred to the prior art, and will not be repeated herein.

Figure 3a is a schematic diagram of an interface of a blood glucose information acquisition interface. Referring to FIG. 3a, the blood glucose information acquisition interface includes a time information acquisition interface, configured to acquire collection time information of the analyte sugar level, including date 311 and time 312, and further includes time period information 313. The information 313 may include, for example, before breakfast, after breakfast, before lunch, after lunch, before dinner, after dinner, before bedtime, and at midnight, the user may select one of the above-mentioned time periods; the blood sugar information acquisition interface further includes blood sugar content The interface is used to obtain the specific content of the blood sugar, that is, the blood sugar value 314, the blood sugar value can be manually input, or the blood glucose value tested by the blood glucose test module in the health information system can be automatically accepted, and the blood glucose tester can also be input. The blood glucose information acquisition interface further includes a remark information acquisition interface, configured to obtain remark information 315 corresponding to the blood glucose collection.

Figure 3b is a schematic diagram of an interface of a feeding information acquisition interface. Referring to FIG. 3b, the eating information obtaining interface includes a time information obtaining interface, configured to acquire eating time information corresponding to the eating information, including a date 321 and a time 322, and further includes time period information 323, which may include breakfast, The food information acquisition interface further includes a food content acquisition interface for obtaining the specific content 324 of the food, which specifically includes information such as the name, weight, and ingredient content of the food. The eating information obtaining interface further includes a memo information obtaining interface, configured to obtain the remark information 325 corresponding to the eating information.

The health information system of the present invention may further comprise a food component amount calculation unit, wherein the health information system may store the name and unit component information of various foods locally or non-locally, and the unit component information may be used for every 100 grams of food. Ingredient content, the content of the ingredients includes, in particular, carbohydrate content, protein content, fat content, calorie (calorie) content and the like. After the user inputs an instruction to record the food intake amount, the food ingredient amount calculation unit reads the food information and displays it to the user, and the user selects the name of the food that he or she eats from the displayed food information, and inputs the quantity or quality of the food. The food ingredient amount calculation unit further calculates the amount of food ingredients ingested by the user according to the pre-stored food name and unit composition information, the food name selected by the user, and the quantity or quality of the input food, and the calculation result, the corresponding food The name and quantity or weight are stored as non-local (eg, sent to the server) or stored locally.

The health information system of the present invention may further comprise a glycemic condition calculation unit, and further storing a blood glucose production index of various foods locally or non-locally, the blood sugar production index being a carbohydrate having a specified mass (for example, 50 grams) The percentage of blood glucose levels in the body with a certain amount of glucose or white bread over a certain period of time (usually within 2 hours). The glycemic index is a comparative index that reflects the rate and ability of food to increase blood glucose compared to glucose. The glucose production index of glucose is usually set at 100. After the user inputs the type of food intake and the intake amount, the glycemic condition calculation unit searches for the blood sugar production index of the food input by the user, and calculates the influence value of the food intake by the user on the blood sugar level of the user, and stores the value. The effect The value can also be displayed on the display unit, and the impact value can also be stored as part of the health information.

Figure 3c is a schematic diagram of an interface of a motion information acquisition interface. Referring to FIG. 3c, the motion information acquisition interface includes a time information acquisition interface, which is used to acquire motion time information corresponding to the motion information, including a date 331, a time 332, and a duration 333. The motion content acquisition interface further includes a motion content acquisition interface. Strength and content 334. Of course, the remark information obtaining interface may be further included to obtain the remark information corresponding to the motion.

The health information system of the present invention further includes a motion information calculation unit, and further pre-stores motion information of various sports, including the name of the exercise, the intensity, the amount of heat consumed per unit time, the amount of carbohydrate consumed per unit time, and the like. . When the user inputs an instruction to record the amount of exercise, the motion information calculation unit reads the motion information and displays it to the user. The user selects a specific motion name from the displayed motion information, and inputs the motion duration, and the motion information calculation unit automatically saves the information selected and input by the user, and the exercise intensity. Further, the amount of total carbohydrate or the amount of heat consumed by the amount of exercise input by the user may be further calculated based on the duration of the motion input by the user and the amount of carbohydrate consumed by the stored unit duration of the exercise, and the calculation result may be stored.

Figure 3d is a schematic diagram of an interface for obtaining a medication information interface. Referring to FIG. 3d, the medication information acquisition interface includes a time information acquisition interface, and the user obtains the medication time information corresponding to the medication information, including the date 341 and the time 342, and further includes the period information 343. The medication information acquisition interface further includes The medication content acquisition interface is configured to obtain specific medication content 344, including information such as the name and quantity of the medication; and the medication information acquisition interface further includes a remark information acquisition interface for obtaining the remark information 345 corresponding to the medication information.

The physical condition information acquisition interface is for prompting the user to input physical condition information and receive the input information. The physical condition information mainly includes time information, specific content of the physical condition, and may further include remark information. The specific content of the physical condition may be, for example, whether there is psychological stress, whether there is hypoglycemia reaction, whether it is sick, whether it is a female menstrual period, whether it is in a vacation state, or the like, or other medical examination information input by the user, for example: blood pressure Information, liver/kidney examination information, glycosylated hemoglobin (HbAlc) information, microalbumin information, cholesterol information, blood lipid information, fundus examination information, foot examination information, weight height information, and doctor's medical information .

The health information obtaining module may further include a personal setting information input interface for prompting the user to input the personal information of the patient and receiving the input information. The personal information includes: name, gender, age, course of illness, family history information, and the like. It can also be used to prompt the user to enter patient sympathy information and receive input information. The complication information is, for example, cardiovascular disease, cerebrovascular disease, foot infection, hypertension, hyperlipemia, high cholesterol, kidney disease, neuropathy, peripheral vascular disease, retinopathy, and the like.

The health information system of the present invention can collect health information of one or more patients and distinguish the health information of different patients with the user identification. When collecting health information, you need to determine the corresponding User information (such as a user identifier), and thus an embodiment of the present invention may further include a user information module for storing or acquiring user information. The user information is specifically patient information and/or medical staff information. The user information may be obtained by manual input, or may be acquired by other identification technologies, for example, using IC card reading technology to read user information from a user card, and using fingerprint identification technology to determine user information through a user's fingerprint, etc. . When the health information system stores the collected health information, the health information needs to include a corresponding user identifier, and the health information is stored in a user data file corresponding to the user identifier. In a preferred embodiment, the user identifier may be any combination of any one or any of the following: an ID number of the user, a device identifier of the health information collection device, a mobile station number, a SIM card number, and a mobile device identification. The code (MIN) or the electronic serial number (ESN) of the mobile device or the like can distinguish the information of the user identity. When more than one patient uses the health information system, the health information of different patients can be distinguished by user information, and the health information files corresponding to each patient are separately prepared.

In another embodiment, the user information module is a storage medium (such as a barcode, an IC card, a magnetic card, or the like) storing user information; the health information collection device further includes a first reading device, configured to read User information in the medium, and stored locally or non-locally.

In an embodiment, at least one user information is stored in the user information module; the system further includes a user selection module, configured to select one user information from the user information module; when storing control, the selected one is selected User information is stored.

The health information collecting device of the present invention needs to further determine the time period during which the occurrence time falls according to the time when the health information is input. For example, for the blood sugar level, the detection time is the occurrence time, and it can be determined that the detection time belongs to the meal. Before or after the meal. Accordingly, the present invention further includes a time period setting module and a time period processing module; wherein:

The time period setting module is configured to divide a day into a plurality of time segments according to an input instruction of the outside world, and set a name for the time period, for example: setting a time period of 6: 00 to 9: 00 as "before breakfast", 9: 00 to 11: 00 for "after breakfast", 11: 00 to 14: 00 for "before lunch", 14: 17: 00 for "after lunch", 17: 00 to 20: 00 for "before dinner", 20:00 to 23: 00 for "after dinner", 23: 00 to 6: 00 for "night".

The time period processing module is configured to identify the detection time of the blood glucose, determine a time period during which the detection time falls, and establish a correspondence relationship between the detection time of the blood glucose and the time period in which the blood glucose falls. That is, it is judged which time period the detection time falls into, for example, if the detection time is 10: 00, the corresponding time period is "after breakfast". Since the blood sugar level of the human body varies greatly with time, the detection time of the blood glucose level is very important for determining the physical condition (signal condition) of the patient, especially the blood glucose value before and after the meal is the most important physical condition. The reference value, so that the time period setting module and the time period processing module can automatically convert the detection time into a time period corresponding to the meal time, so that the correspondence between the blood sugar level and the meal time can be more conveniently understood, thereby Allows the user to more accurately determine the patient's physical condition. The time period information is stored locally or transmitted by the communication module to the server.

In FIG. 1c, the storage control module stores the information in a non-local situation, where The health information system includes a communication module for storing the non-local storage space to which the information is transmitted. The communication module can communicate with a non-local storage space or a server by wired communication, or communicate with a non-local storage space or a server by wireless communication. The information of the external server may also be accepted. For example, the external server may analyze and process the health information in the storage space, and send the analysis processing result to the health information system, and the output module of the health information system outputs the received information.

Since not all patients are willing to send their health information to a non-local storage space, the present invention may further include a selection module for the user in order to respect the patient's wishes. Providing prompt information for transmitting health information (such as input blood sugar, diet, exercise, medication, and physical condition information, etc.), and selecting whether to send the health information to the non-local storage space according to an instruction input by the user Or in the server. There are two options for this:

The first selection mode, the selection module specifically includes: a first prompting module, configured to provide a prompt information for sending a blood glucose value to the user before collecting the health information; and an instruction recording module, configured to record an instruction input by the user; a determining module, configured to: after collecting the health information, determine, according to the recorded user input instruction, whether the health information needs to be sent to the non-local storage space, and when the sending needs to be sent, triggering the communication module to send the Describe health information.

The second selection mode, the selection module specifically includes: a second prompting module, configured to provide a prompt information for sending a blood glucose value to the user after collecting the health information; and a second determining module, configured to determine, according to an instruction input by the user The health information needs to be sent to the non-local storage space, and the communication module is notified to send the health information when it needs to be sent.

In addition, the manner in which the health information system transmits the health information to the non-local storage space may be a real-time mode, and the health information system immediately sends the collected health information to the non-sense every time one or a group of health information is collected. Local storage space. The set of health information refers to: a current or recently entered blood glucose value, and information that can affect the blood glucose value. For example, if a blood sugar value is currently input, the information that can affect the blood sugar level may be food intake, exercise amount, and medication dosage. The user can input the information into the health information system through the health information input module, and then press the send key to receive the health information. The communication module of the collection device sends the set of health information to the non-local storage space.

The manner in which the health information system transmits the information to the non-local storage space may also be a timed manner. The health information system stores the collected health information locally, and transmits the locally stored health information to the non-local after reaching the predetermined trigger time. Local storage space.

There are at least two modes for the opening of the communication module: 1. When the health information collecting device starts to obtain the input information, the communication module is opened and the connection with the network is established, and after the connection is successfully established, the health information is transmitted; When the health information collection device is turned on, the communication module is automatically turned on to establish a connection with the network, and after the input information is received, the health information is transmitted.

4a is a schematic view showing the composition of another embodiment of the present invention. Referring to FIG. 4a, the health information system includes a processing module 401 and an output module in addition to the health information acquiring module and the storage control module. Block 402. The processing module 401 is configured to perform analysis and management on the stored health information, for example, including a query history record, a process generation report, and a trigger message. The output module 402 is configured to output an analysis management result of the processing module. The output module can be, for example, a display, a speaker or other output interface, for example, sent to a remote client or browser through a communication module for output display.

The human-computer interaction end of the health information system of the present invention can be implemented by a special client (Client) or by a web browser (Board), and a very small part of the transaction logic is implemented at the front end (ie, Browser), but mainly The transaction logic is implemented on the server side (Server). Therefore, the information collection management system of the present invention can adopt a browser/server (B/S) structure or a client/server (C/S) structure.

In particular, the health information system described in FIG. 4a can be set to be a C/S architecture or a B/S architecture. In the era of rapid development of network information, the system architecture may also evolve and change, but regardless of the architecture, the present invention The core idea and the core functional modules are the same, except that the modules that perform the specific functions are located differently.

For example, in the C/S architecture, the client can be installed on a PC, a mobile phone, a PDA, a smart blood glucose meter, or other device with intelligent processing capability, and the health information acquiring module can be set on the client, and the output module is also Can be set on the client, and even a part of the processing module is also set on the client. In the B/S architecture, only a small part of the functions are implemented by the front-end browser. Most of the functional modules are placed in the back-end server, or scattered in a large network node, or placed in a cloud computing network.

FIG. 4b is a network architecture form of the functional modules of the health information system of the present invention. Referring to FIG. 4b, the method includes: a health information collection device, a server, and an information management terminal, where: the health information acquisition module and the storage control The module is located in the health information collection device, and the collection device can perform wired or wireless communication with the server; the processing module and the storage space are located in the server; the output module is located in the information management terminal, and the information management terminal It can communicate with the server. Alternatively, the health information collection device and the information management terminal may be integrated and implemented by one client terminal. The number of the health information collecting devices may be one or more, and is carried by a patient or a medical staff. Generally, one user configures one, but one user may share one, and the user information (usually a user identifier) is input. To distinguish between different users. The number of the information management terminals may be one or more, and is disposed at a patient or a medical staff. The server is generally one. If the coverage of the health information collection device is large, the server may have more than one.

This document focuses on the core idea and technical solution of the present invention. As to what kind of architecture, what kind of calculation mode, and even which programming language is used to implement the technical solution, those skilled in the art can flexibly select, and the present invention is not specifically limited.

The processing module of the present invention may include at least one analysis engine, including any one of the following analysis engines, or a combination of any ones: a monitoring diary analysis engine, a data list analysis engine, a blood glucose trend analysis engine, a blood glucose statistical analysis engine, Blood glucose single-day distribution analysis engine, The average blood glucose analysis engine, the medication diet analysis engine, the medical record analysis engine, and the like.

The monitoring diary analysis engine is configured to classify the stored health information according to a date and a time period, and display specific content of the health information in a corresponding date and time column; the time period includes breakfast, lunch, dinner, and nighttime. The health information includes at least blood glucose information.

The data list analysis engine is configured to display all the stored health information one by one in a time sequence, and each piece of information includes at least a time, a health information type, and a health information content;

The blood glucose trend analysis engine is configured to draw a blood glucose chart by using the blood glucose value in the stored health information and the corresponding collection time;

The blood glucose statistical analysis engine is configured to analyze the blood glucose value in the stored health information, compare all the blood glucose values in the specified time with the predetermined parameter range, and perform statistics on the comparison result to generate a statistical report;

The blood glucose single-day distribution analysis engine is configured to analyze blood glucose values in the stored health information, and draw all blood glucose values in a specified time on a single-day blood glucose coordinate chart;

The average blood glucose analysis engine is configured to analyze blood glucose values in the stored health information, and calculate an average value of blood glucose in the same time period within a specified time range;

The medication diet analysis engine is configured to analyze the medication information and/or the feeding information in the stored health information, and calculate an average value of the medication amount and/or the food intake amount in the same time period in the specified time range;

The medical examination record analysis engine is configured to analyze the medical examination information in the stored health information, and display the display report of the medical examination record in time order.

Figure 5 is an interface diagram of the health information system of the present invention in a B/S architecture or a C/S architecture. Referring to FIG. 5, the left side of the interface includes an operation part 521 of the health information acquisition module, an analysis engine operation part 522 of the processing module, and an input operation part 523 of the information acquisition module; after clicking the operation button on the left side, The right side of the interface displays the corresponding operation interface. For example, the operation interface of the blood glucose information acquisition interface is displayed in this figure.

In another embodiment, the processing module further includes any one of the following analysis and determination modules or a combination of any of the following:

The first analysis and judgment module is configured to determine whether the acquired health information is in a preset range, and triggers a prompt operation corresponding to the range, and is output by the output module. For example, FIG. 6a is a flowchart for determining a range of blood glucose and outputting corresponding prompt information, and the flow is used for determining whether the input blood glucose information falls within a preset blood glucose range interval, and if the falling into a certain interval, the output module is passed. Output the corresponding prompt information.

The second analysis and determination module is configured to: after the health information acquisition module obtains the current health information, query the stored health information to determine whether there is historical health information that matches the content of the currently obtained health information, and trigger The output module outputs the matched historical health information. For example, FIG. 6b is a flowchart for automatically querying matching content and issuing prompt information after obtaining the diet information, and the process first determines whether there is content in the history record that matches the currently obtained eating content, for example, the food name is the same, if There is output matching the eating record; in the first return The prompt message can only include a simple summary. If the user wants to further view the detailed eating record, he can click on one of the eating records to view the details.

The third analysis and judgment module is configured to query, from the stored health information, whether there is historical health information that matches the query condition of the appeal, and the trigger output module outputs the matched historical health information. For example, Figure 6c is a flow chart of the query prompt when the query information is obtained. Referring to Fig. 6c, when the processing module obtains the query information input by the user, for example, "dinner", the history records of all the time periods of "dinner" are queried from the history record, and the history records are combined into an interface output for viewing.

In addition, the processing module further includes: a report/alarm triggering module, configured to analyze and process the stored health information according to a preset processing condition, and generate corresponding report/alarm information by the output module when the trigger condition is met. Corresponding way to output. (The output mode of the output module includes: displaying by using a web browser, presenting through a client interface (the client includes a client of a computer client, a mobile phone client, and other smart devices), sending by email, and communicating by mobile Send SMS on the network and more.

The report/alarm triggering module. In a preferred embodiment, for a health inspection information with a long inspection period, for example, the inspection period of glycated hemoglobin is 3 to 4 months, the present invention can set a reminding unit for each patient, The user sets the period of each inspection item, and the specific inspection date. When the inspection date arrives within the set time (for example, one week in advance), the user sends a reminder message to the output module in a specified manner (for example, mobile phone text message, email, etc.). , including inspection items and inspection time information, and may also include the normal range of values for the inspection. The present invention can also set a date for seeing a doctor for each patient in the reminding unit, and issue a reminder message within a set time before the doctor sees the deadline.

As a preferred solution, the server further includes a synchronization unit, configured to acquire the time of the server, and send the time of the server to the health information collection device for time synchronization of the health information collection device.

As a preferred solution, the server further includes a reminding unit, configured to set a blood glucose check time for each patient, and send a reminder message to the health information collecting device within a set time before the check time arrives.

In addition, the health information collection device part of the health information system of the present invention, or the entire health information system or other various embodiments may be set in the communication device, the drug infusion device, the test device, etc., related to the collection and management of health information. In the device, to achieve comprehensive and intelligent management of health information. FIG. 7a is a schematic diagram of a first embodiment of the communication device, the drug infusion device, and the testing device, including only the health information acquiring module and the storage control module. Figure 7b is a schematic diagram of a second embodiment of the communication device, drug infusion device, test device, etc., including a health information acquisition module and a storage control module and storing health information locally. Figure 7c is a schematic diagram of a third embodiment of the communication device, drug infusion device, test device, etc., including a health information acquisition module, a storage control module, and a communication module, and storing health information in a non-local state. Figure 7d is a fourth example of the communication device, the drug infusion device, the test device, and the like. A schematic diagram of an embodiment includes a health information acquisition module, a storage control module, a communication module, and an output module. The health information is stored in a storage space of a non-local server, and the processing module is also executed by the server, and the processing module is analyzed. The result is processed to the output module for output to the user. FIG. 7e is a schematic diagram of a fifth embodiment of the communication device, the drug infusion device, the testing device, and the like, including a health information acquiring module, a storage control module, a communication module, a processing module, and an output module, wherein the health information is stored in Non-local storage space, the local processing module reads the health information from the non-local storage space through the communication module for analysis and processing, and outputs the analysis processing result to the user by the output module. FIG. 7f is a schematic diagram of a sixth embodiment of a communication device, a drug infusion device, a test device, and the like, including a health information acquisition module, a storage control module, a storage module, a processing module, and an output module, where the health information is stored locally. The processing module is also analyzed locally and output to the user by the output module. Of course, in addition to the above six embodiments, other embodiments of the health information system of the present invention may also be disposed on related devices such as the communication device, the drug infusion device or the test device, to complete more intelligent and convenient health data collection. And management features.

The communication device is, for example, a mobile communication terminal (mobile phone), in which the communication module of the health information system can be executed by the communication module of the mobile communication terminal.

The drug infusion device is, for example, an insulin injection pen, an insulin injection pump, or the like, wherein the health information acquisition module acquires a drug amount infused by the drug infusion device, and uses the drug amount information as an acquired health information. Stored locally or non-locally. Specifically, the infusion device includes an infusion dose calculation module, configured to calculate the dose of the infusion, and send the infused dose to the health information acquisition module, and the health information acquisition module uses the dose information as a Kind of health information obtained.

The test device can be, for example, an analyte sugar level test device, the most commonly used being a blood glucose test device. The test module in the test device belongs to the health information acquisition module, and the health information acquisition module uses the test result of the test module as a kind of acquired health information.

However, if the test device, such as the analyte sugar level test device, is used alone, the corresponding test result cannot be tested, and the corresponding reagent carrier must be used in combination to test the result and store it as part of the health information. It is usually a reagent strip or a kit with a test reagent, for example, a blood glucose test paper, a glycated hemoglobin kit, etc., and of course, other forms, such as a reagent bottle, a reagent sheet, etc., and a corresponding cooperation method may also be used, for example, The blood glucose test strip can be inserted into the unique interface of the blood glucose test device, and the kit or the reagent bottle can be placed in a matching position in the test device. In some cases, the reagent carrier can also be in physical contact, and the test device can be The analyte sample in the reagent carrier is tested by optical or other means, and the specific manner of cooperation can be freely selected by those skilled in the art.

Therefore, the present invention also discloses a reagent carrier for use with a test device having the health information system, the reagent carrier is used in cooperation with the test device, and the test module in the test device is tested on the reagent carrier. The parameter of the analyte sample (for example, the blood sugar test module tests the reagent carrier, that is, the sugar level of the blood sample on the blood glucose test paper), and the health information acquisition module uses the test result of the analyte sample on the reagent carrier as an acquired health information. In addition, in an embodiment, since the user information corresponding to the health information needs to be input, the reagent strip has user information that can be read by the reading device, and it can be said that the reagent strip has a user information module. User information is stored in the user information module, and the user information may be, for example, magnetic information or IC information, and the test device has a corresponding reading device for reading user information on the reagent strip and is described by The storage control module is stored.

The invention also discloses a method for performing health information management by using the above health information system. Figure

8a is the main flow chart of the method of the present invention. Referring to Figure 8a, the method includes:

801, obtaining health information;

802. Store the obtained health information locally or store it locally.

Figure 8b is a flow diagram of the method of the present invention including an analysis of the output steps. Referring to Figure 8b, the process includes after step 802:

803. Perform analysis and management on the stored health information;

804. Output the analysis management result.

In step 801, any one of the following 811 to 815, or a combination of any of the following:

811. Obtain information on the sugar content of the analyte. The method includes: obtaining the collection time information of the sugar content of the analyte and the specific content of the sugar content of the analyte, and further obtaining the time period information, and further obtaining related remark information.

812. Obtain eating information. The method includes: obtaining the eating time information corresponding to the eating information and the specific content of the eating; and further obtaining the time period information, and further obtaining the related remark information.

813. Obtain motion information. The method includes: obtaining motion time information corresponding to the motion information and specific content of the motion; and further comprising obtaining related remark information.

814. Obtain medication information. Specifically, the method includes: obtaining time information corresponding to the medication information and obtaining specific content of the medication; and further including acquiring the time period information, and further obtaining related remark information.

815. Obtain physical condition information. Specifically, the method includes: acquiring the collected time information corresponding to the physical condition information and the specific content of the physical condition, and further obtaining related remark information.

In 811, specifically comprising at least one of the following A11~A13 or a combination of any of the following: All, using the sugar level test module to test the sugar content of the analyte, and obtaining the test result; A12, accepting the artificial using the manual input interface Operating the input analyte sugar level; A13, using the communication interface with the analyte sugar level tester, accepting the analyte sugar level test results transmitted by the analyte sugar level tester.

The method of the present invention may further include any one of the following E1 to E3, or any item: El, calculating the amount of the food component eaten by the user according to the eating information obtained by the user and the pre-stored food component information; The obtained eating information and the pre-stored food glycemic index information calculate the influence of the user on the blood sugar after eating; E3. Calculate the total amount of carbohydrate or calories consumed by the user's exercise according to the motion information input by the user.

In addition, the present invention may further include: storing or acquiring user information, and the user Information and corresponding health information are stored in correspondence. The user information is stored on a medium, and the method for acquiring user information is to read user information in the medium by a corresponding reading device.

The 803 specifically includes at least one of the following 831 to 8312, or a combination of any of the following:

831. Sort the stored health information according to a period and a time period, and display specific content of the health information in a corresponding date and time column; the time period includes breakfast, lunch, dinner, and night; At least include blood sugar information;

832. Display all stored health information one by one in chronological order, and each piece of information includes at least time, health information type, and health information content;

833. Draw a blood glucose trend map by using the blood glucose value in the stored health information and the corresponding collection time;

834. Analyze the blood glucose value in the stored health information, compare all the blood glucose values in the specified time with the predetermined parameter range, and perform statistics on the comparison result to generate a statistical report;

835. Analyze the blood glucose value in the stored health information, and plot all the blood sugar values in the specified time on the blood glucose coordinate chart of the single day;

836. Analyze blood glucose values in the stored health information, and calculate an average value of blood glucose in the same time period within a specified time range;

837. Analyze the medication information and/or the eating information in the stored health information, and calculate an average value of the medication amount and/or the food intake in the same time period in the specified time range;

838. Analyze the medical examination information in the stored health information, and display the display report of the physical examination record in time order.

839. Determine whether the obtained health information is in a preset range interval, and trigger a prompt operation corresponding to the range interval;

8310. After obtaining the current health information, querying, by the stored health information, whether there is historical health information that matches the content of the currently obtained health information, and outputting the matched historical health information;

8311. Query from the stored health information to determine whether there is historical health information matching the input query condition, and the trigger output module outputs the matched historical health information.

8312. Analyze and process the stored health information according to preset processing conditions, and generate corresponding report/alarm information when the trigger condition is met, and output the corresponding manner.

The above is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or replacements within the technical scope of the present invention. All should be covered by the scope of the present invention.

Claims

Claim

A health information system, characterized in that the system comprises:

a health information acquisition module, configured to obtain health information;

The storage control module is configured to store the obtained health information locally or non-locally.

2. The system according to claim 1, wherein the system further comprises: a storage module, configured to store the acquired health information;

a processing module, configured to analyze and manage the stored health information;

And an output module, configured to output an analysis management result of the processing module.

3. The system according to claim 1, wherein the health information acquisition module comprises any one of the following acquisition interfaces, or a combination of any of the following acquisition interfaces:

The analyte sugar level information obtaining interface is configured to obtain the sugar content level information of the analyte; the eating information obtaining interface is configured to obtain the feeding information;

a motion information acquisition interface, configured to acquire motion information;

Medication information acquisition interface for obtaining medication information;

A physical condition information acquisition interface for obtaining physical condition information.

4. The system according to claim 3, wherein the analyte sugar level information acquisition interface is any one of the following or a combination of any of the following:

a sugar level test module for testing the sugar level of the analyte to obtain test results; a manual input interface for accepting the sugar content of the analyte input by the manual operation;

A communication interface for communicating with the analyte sugar level tester for accepting the analyte sugar level test results transmitted by the analyte sugar level tester.

5. The system of claim 3, wherein

The analyte sugar level information acquisition interface includes: a time information acquisition interface, configured to acquire a collection time information of the analyte sugar content level; and an analyte sugar content acquisition interface for obtaining The specific content of the sugar content of the analyte;

The eating information obtaining interface includes: a time information obtaining interface, configured to acquire eating time information corresponding to the eating information; and a feeding content obtaining interface, configured to obtain the specific content of the eating;

The motion information acquisition interface includes: a time information acquisition interface, configured to acquire motion time information corresponding to the motion information; and a motion content acquisition interface, configured to acquire specific content of the motion;

The medication information acquisition interface includes: a time information acquisition interface, configured to acquire time information corresponding to the medication information; and a medication content acquisition interface, configured to acquire specific content of the medication; the physical condition information acquisition interface includes: The information acquisition interface is configured to obtain the collection time information corresponding to the physical condition information, and further includes a physical condition content acquisition interface, configured to acquire specific content of the physical condition.

6. The system according to claim 5, wherein the analyte has a sugar level letter The time information acquisition interface, the information acquisition interface, and the time information acquisition interface in the medication information acquisition interface are further used to acquire time period information.

The system according to claim 5, wherein the analyte sugar content information acquisition interface, the food information acquisition interface, the motion information acquisition interface, the medication information acquisition interface, and the physical condition information acquisition interface further include: Remarks information acquisition interface, used to obtain corresponding remark information.

8. The system of claim 3, wherein the system further comprises any one of the following units, or a combination of any of the units:

a food ingredient amount calculation unit, configured to calculate a food component amount eaten by the user according to the food information obtained by the user and the pre-stored food component information;

a glycemic condition calculation unit, configured to calculate a influence of a user on blood sugar after eating according to the eating information obtained by the user and the pre-stored food glycemic index information;

The motion information calculation unit is configured to calculate the total amount of carbohydrate or heat consumed by the user's exercise based on the motion information input by the user.

The system according to claim 2, wherein the processing module comprises at least one of the following analysis engines, or a combination of any ones:

The monitoring diary analysis engine is configured to classify the stored health information according to a date and a time period, and display specific content of the health information in a corresponding date and time column; the time period includes breakfast, lunch, dinner, and night; The health information includes at least blood sugar information;

a data list analysis engine, configured to display all the stored health information one by one in chronological order, each piece of information including at least time, health information type, and health information content;

The blood sugar trend analysis engine is configured to draw a blood sugar chart by using the blood sugar value in the stored health information and the corresponding collection time;

The blood glucose single-day distribution analysis engine is configured to analyze the blood sugar value in the stored health information, and draw all the blood glucose values in the specified time on the blood glucose coordinate chart of the single day;

An average blood glucose analysis engine for analyzing blood glucose values in stored health information, and calculating an average value of blood glucose in the same time period within a specified time range;

The medication diet analysis engine is configured to analyze the medication information and/or the feeding information in the stored health information, and calculate the average value of the medication amount and/or the food intake in the same time period in the specified time range;

The medical record analysis engine is configured to analyze the medical examination information in the stored health information, and display the display report of the medical examination record in time order.

10. The system according to claim 2, wherein the processing module further comprises any one of the following analysis and determination modules or a combination of any of the following:

a first analysis and determination module, configured to determine whether the acquired health information is in a preset state The surrounding interval is a triggering operation corresponding to the range of the triggering, and is output by the output module. The second analyzing and determining module is configured to: after the health information acquiring module obtains the current health information, query from the stored health information to determine whether There is historical health information that matches the content of the currently obtained health information, and the trigger output module outputs the matched historical health information; the third analysis and determination module is configured to query whether the presence and the input are from the stored health information. The historical health information matched by the query condition, and the historical health information matched by the output module is triggered.

The system according to claim 2, wherein the processing module further comprises: a report/alarm triggering module, configured to analyze and process the stored health information according to a preset processing condition, and satisfy a trigger condition The corresponding report/alarm information generated by the output module is output by the output module.

The system according to claim 1, wherein the system further comprises: a user information module, configured to store or acquire user information, wherein the storage control module stores the user information and the corresponding health information correspondingly.

The system according to claim 12, wherein the user information module is a medium storing user information; the system further comprising first reading means for reading user information in the medium The storage control module stores the user information and the corresponding health information correspondingly.

The system according to claim 12, wherein at least one user information is stored in the user information module; the system further comprising a user selection module, configured to select a user information from the user information module; The storage control module stores the user information and the corresponding health information correspondingly.

15. The system according to claim 1, wherein the storage control module stores the information in a non-local situation, the system further comprising a communication module, configured to transmit the information to the non-local Storage space for storage.

The system according to claim 15, wherein the device further comprises: a selection module, configured to provide the user with prompt information for transmitting health information, and select whether to send the health information according to an instruction input by the user. Go to the non-local storage space.

The system according to claim 16, wherein the selection module specifically includes:

a first prompting module, configured to provide a prompt information for sending a blood glucose value to the user before collecting the health information;

An instruction recording module for recording an instruction input by a user;

The first determining module is configured to determine, according to the recorded user instruction, whether the health information needs to be sent to the non-local storage space after the health information is collected, and trigger the communication module to send the health information when the sending needs to be sent.

The system of claim 16, wherein the selecting module specifically includes: a second prompting module, configured to provide a prompt information for sending a blood glucose value to the user after collecting the health information;

And a second determining module, configured to determine, according to an instruction input by the user, whether the health information needs to be sent to the non-local storage space, and notify the communication module to send the health information when it is required to be sent.

The system according to claim 15, wherein the communication module is further configured to receive information of an external server, and output the received information through the output module.

20. The system according to claim 15, wherein the communication module is a communication module that can wirelessly access a communication network.

A communication device, comprising the health information system according to any one of claims 1 to 20.

22. A drug infusion device, comprising the health information system of any one of claims 1-20.

The drug infusion device according to claim 22, wherein the infusion device comprises an infusion drug amount calculation module for calculating the amount of the infused medicine, and transmitting the infused medicine amount to the health The information acquisition module, the health information acquisition module uses the medication quantity information as an acquired health information.

A test device, comprising: the health information system according to any one of claims 1 to 20, wherein the test module in the test device belongs to the health information acquisition module, and the health information acquisition module The test result of the test module is taken as a kind of health letter obtained

White,

The test apparatus according to claim 24, wherein the test module is an analyte sugar level tester.

26. A reagent carrier for use with a test device according to claim 24 or 25, wherein the reagent carrier is used in conjunction with the test device, and the test module in the test device is used to test the reagent carrier. The parameter of the analyte sample, the health information acquisition module uses the test result of the analyte sample on the reagent carrier as an acquired health information.

The reagent carrier according to claim 26, wherein the reagent carrier has user information for reading by a reading device, and the testing device reads user information on the reagent carrier and is The storage control module is stored.

28. The reagent carrier according to claim 26, wherein the reagent carrier is a reagent strip for testing the sugar level of the analyte, and the test result is an analyte sugar level.

29. A method of managing health information, the method comprising:

Α, get health information;

Β Store the obtained health information locally or store it locally.

30. The method of claim 29, wherein the method further comprises:

C. Analyze and manage the stored health information;

D. Output the analysis management result.

The method according to claim 29, wherein the step A comprises any one of the following steps or a combination of any of the following:

Al, obtaining information on the sugar content of the analyte;

A2, obtaining eating information;

A3, obtaining motion information;

A4, obtaining medication information;

A5. Obtain physical condition information.

32. The method of claim 31, wherein

The A1 includes: obtaining the collection time information of the glucose content of the analyte and the specific content of the sugar content of the analyte;

The A2 includes: obtaining eating time information corresponding to the eating information and specific content of the eating;

The A3 includes: acquiring motion time information corresponding to the motion information and specific content of the motion;

The A4 includes: obtaining time information corresponding to the medication information, and the specific content in the obtaining the medication, wherein the A5 includes: collecting the collection time information corresponding to the physical condition information and the specific content of the physical condition.

33. The method according to claim 32, wherein the time period information is further acquired in the Al, A2, and A4.

The method according to claim 32, wherein the corresponding remark information is further obtained in the Al, A2, A3, A4, and A5.

The method according to claim 32, wherein the A1 specifically includes at least one of the following A11 to A13 or a combination of any of the following:

All, use the sugar level test module to test the sugar content of the analyte to obtain the test result; A12, use the manual input interface to accept the input of the analyte sugar content; ,, A13, and the analyte sugar level test Communication interface of the instrument communication, accepting analytes containing sugar

36. The method of claim 31, wherein the method further comprises any one of the following E1 to E3, or any item:

E1. Calculating the amount of the food component eaten by the user according to the eating information obtained by the user and the pre-stored food component information;

E2, calculating the influence of the user on the blood sugar after eating according to the eating information obtained by the user and the pre-stored food glycemic index information;

E3. Calculate the total amount of carbohydrates or calories consumed by the user's exercise based on the motion information input by the user.

The method according to claim 30, wherein the C includes at least one of the following C1 to C12, or a combination of any of the following: Cl, sorting the stored health information according to a date and a time period, and displaying the specific content of the health information in a corresponding date and time column; the time period includes breakfast, lunch, dinner, and night; the health information is at least Including blood sugar information;

C2. Display all the stored health information one by one in chronological order, and each piece of information includes at least time, health information type and health information content;

C3, drawing a blood glucose trend map by using the blood glucose value in the stored health information and the corresponding collection time;

C4. Analyze the blood glucose value in the stored health information, compare all the blood glucose values in the specified time with the predetermined parameter range, and perform statistics on the comparison result to generate a statistical report.

C5. Analyze the blood glucose value in the stored health information, and plot all the blood sugar values in the specified time on the blood glucose coordinate chart of the single day;

C6, analyzing blood glucose values in the stored health information, and calculating an average value of blood glucose in the same time period within a specified time range;

C7. Analyze the medication information and/or the eating information in the stored health information, and calculate an average value of the medication amount and/or the food intake in the same time period in the specified time range;

C8. Analyze the medical examination information in the stored health information, and display the display report of the physical examination record in time order.

C9. determining whether the acquired health information is in a preset range interval, and triggering a prompt operation corresponding to the range interval;

C10. After obtaining the current health information, querying, by the stored health information, whether there is historical health information that matches the content of the currently obtained health information, and outputting the matched historical health information;

C11: Query from the stored health information to determine whether there is historical health information that matches the input query condition, and the trigger output module outputs the matched historical health information;

C12: Perform analysis and processing on the stored health information according to preset processing conditions, and generate corresponding report/alarm information when the trigger condition is met, and output the corresponding manner.

38. The method according to claim 29, wherein the method further comprises: storing or acquiring user information, and storing the user information and the corresponding health information correspondingly.

39. The method according to claim 38, wherein the user information is stored on a medium, and the method for acquiring user information is to read user information in the medium by a corresponding reading device.