CN113588933A - Test card compensation method, system and device based on biochemical analyzer - Google Patents

Abstract

The application relates to the technical field of medical equipment, and particularly discloses a test card compensation method, system and device based on a biochemical analyzer, and provides a test card compensation method based on a biochemical analyzer, wherein the method comprises the following steps: acquiring card supplementing data, wherein the card supplementing data comprises abnormal information during testing of the biochemical analyzer and equipment information of the biochemical analyzer, and the abnormal information is associated with a test card used by the biochemical analyzer; inputting a plurality of card supplementing data in batch according to the equipment information; and analyzing the plurality of card supplementing data to determine the compensation number of the test cards of the current user, and sending a use suggestion to the current user. By means of the mode, compensation efficiency and accuracy can be improved.

Description

Test card compensation method, system and device based on biochemical analyzer

Technical Field

The application relates to the technical field of medical equipment, in particular to a test card compensation method, system and device based on a biochemical analyzer.

Background

In the medical field, when a sample is tested, a test object (for example, a test card used in a blood and blood gas analysis device) is inserted into a test instrument for testing and analysis, and such a test format is widely used in the current medical devices.

The inventor of the application finds that the test is inaccurate or fails in the long-term research and development process, and a large amount of manual analysis and manual calculation are needed for the compensation process related to the abnormity of the test card, so that the consumed time is long, and the manpower is wasted.

Disclosure of Invention

Based on the above, aiming at solving the problem of long consumed time in the test card compensation process, the test card compensation method, system and device based on the biochemical analyzer are provided, and the compensation efficiency and accuracy can be improved.

In one aspect, the present application provides a test card compensation method based on a biochemical analyzer, including: acquiring card supplementing data, wherein the card supplementing data comprises abnormal information during testing of the biochemical analyzer and equipment information of the biochemical analyzer, and the abnormal information is associated with a test card used by the biochemical analyzer; inputting a plurality of card supplementing data in batch according to the equipment information; and analyzing the plurality of card supplementing data to determine the compensation number of the test cards of the current user, and sending a use suggestion to the current user.

In another aspect, the present application provides a test card compensation system, comprising: the system comprises a biochemical analyzer, an acquisition module, a recording module, an analysis module and a human-computer interaction interface, wherein the acquisition module is in communication connection with the biochemical analyzer, the recording module is in communication connection with the acquisition module and the human-computer interaction interface respectively, the analysis module is in communication connection with the recording module, and the system is used for executing the steps in the method.

In yet another aspect, the present application provides an apparatus having a storage function, storing program data, which can be executed to implement the steps in the method as described above.

Compared with the prior art, the method has the following beneficial effects: the method comprises the steps of inputting data of a plurality of supplementary cards in batches; the card supplementing data of the plurality of cards are analyzed, the compensation number of the test cards of the current user is automatically determined, the compensation efficiency and accuracy are improved, and the manpower waste is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic flow chart diagram illustrating an embodiment of a biochemical analyzer-based test card compensation method according to the present application;

FIG. 2 is a schematic flow chart of step S10 in FIG. 1;

FIG. 3 is a schematic flow chart diagram illustrating another embodiment of a biochemical analyzer-based test card compensation method according to the present application;

FIG. 4 is a schematic flow chart of step S30 in FIG. 1;

FIG. 5 is a schematic flow chart diagram illustrating a method for compensating a test card based on a biochemical analyzer according to another embodiment of the present disclosure;

FIG. 6 is a schematic flow chart diagram illustrating a method for compensating a test card based on a biochemical analyzer according to still another embodiment of the present disclosure;

FIG. 7 is a schematic diagram of an embodiment of a test card compensation system according to the present application;

FIG. 8 is a schematic structural diagram of another embodiment of the test card compensation system of the present application.

Detailed Description

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

The test card of this application, including but not limited to the blood gas test card that is used for detecting blood gas indexes such as blood acid-base balance imbalance, oxygen deficiency and oxygen deficiency degree, also can be used to other projects except that the blood gas index detect, and any has the medical test consumptive material that supplies the liquid way passageway and the liquid way passageway of test sample and/or test reagent circulation to be provided with the on-off valve all belongs to the test card's of this application scope.

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of a biochemical analyzer-based test card compensation method according to the present application, the method including:

s10: and acquiring supplementary card data.

The card supplementing data comprises abnormal information of each time of testing of the biochemical analyzer and equipment information of the biochemical analyzer, and each card supplementing data corresponds to each test card one to one.

Specifically, in the use process of the biochemical analyzer, the test card needs to be installed in the biochemical analyzer, and due to the reason of the biochemical analyzer itself or the abnormality of the test card, a measurement result may be wrong or no measurement result may be generated.

Wherein the device information includes: at least one of a device number, a device type, a master control version, and a model control version.

Wherein, the integrated biochemical test electrode of blood gas test card, through the calibration of calibration fluid, later test solution (blood) test carries out, consequently, unusual information includes: the calibration liquid is abnormal in liquid level, calibration fails, the current is out of range and wrong, the monitoring point of the warning position is at least one of liquid, the HCT impedance value is out of range, the reagent is pumped out of the warning position of the test card, the sample is coagulated, the sample bubbles are abnormal, and the test card is abnormally popped up.

Furthermore, when the card supplementing data stored locally in the biochemical analyzer is accumulated to a preset threshold, or the test result of a certain biochemical analyzer is frequently abnormal, and the abnormal frequency reaches the preset threshold, the biochemical analyzer prompts to lead out the card supplementing data.

S20: and inputting a plurality of card supplementing data in batch according to the equipment information.

Specifically, the test card compensation system pre-stores the association relationship between the device information and the user information of the biochemical analyzers, and one user may correspond to one or more biochemical analyzers.

According to the device information and the association relationship between the device information and the user information, a plurality of card supplementing data associated with the current user are input in batch, and then test cards of a plurality of biochemical analyzers can be compensated at one time, but the user information of the plurality of biochemical analyzers is required to be consistent, namely the plurality of biochemical analyzers belong to the same medical institution, agency unit or distributor.

S30: and analyzing the plurality of supplementary card data associated with the current user to determine the compensation number of the test card of the current user, and sending a use suggestion to the current user.

Specifically, the keywords are read, and N card complementing data associated with the current user are decompressed to obtain N abnormal information. And comparing the keywords with the N abnormal information one by one, wherein if the abnormal information contains the keywords, determining the test card corresponding to the card supplementing data as an abnormal test card, and counting the abnormal test card into the compensation quantity of the test card.

Further, the test card compensation amount of the current user, the user information of the current user, and the transmission use suggestion may be output to the relevant person in text form.

By the mode, the card supplementing method and the card supplementing device have the advantages that data of a plurality of card supplementing cards are input in batches; the card supplementing data of the plurality of cards are analyzed, the compensation number of the test cards of the current user is automatically determined, the compensation efficiency and accuracy are improved, and the manpower waste is reduced.

Referring to fig. 2, fig. 2 is a schematic flowchart of step S10 in fig. 1, where step S10 specifically includes:

s11: and sending a data calling instruction to the biochemical analyzer.

Specifically, the acquisition module in the test card compensation system may generate a data call instruction, and the biochemical analyzer is configured to receive the data call instruction and upload or export data in response to the data call instruction.

S12: and acquiring supplementary card data locally exported from the biochemical analyzer after the biochemical analyzer responds to the data calling instruction.

In this way, this application is through sending a data call instruction to biochemical analyzer, and the supplementary card data of the local derivation of biochemical analyzer is obtained automatically, and it is extravagant to reduce the manpower.

Referring to fig. 3, fig. 3 is a schematic flowchart of another embodiment of the biochemical analyzer-based test card compensation method according to the present application, before step S20, the compensation method further includes:

s40: and establishing an incidence relation between the user information and at least one piece of equipment information.

Specifically, the device information of its existing biochemical analyzer can be acquired from the sales record list of the dealer or the purchase record list of the medical institution. The user information at least comprises contacts, contact addresses and contact addresses of the dealers or medical institutions.

Once the association relationship between the user information and the device information is established, the biochemical analyzer a belongs to the user a, and the user a manages and/or uses the biochemical analyzer a. The staff can obtain the biochemical analyzer corresponding to each user a according to the association relationship.

If the association relationship between the user information and the device information is established, the association relationship is automatically called when the supplementary card data is input in batch at step S20.

Further, the test card compensation system may periodically update the association relationship between the user information and the device information. If the incidence relation is incorrect or the user information is wrong, the user can modify the incidence relation or the user information by himself through the man-machine interaction interface.

Step S20 specifically includes:

step S21: and determining the biochemical analyzer managed and/or used by the current user according to the user information and the association relation of the current user.

Step S22: and inputting abnormal information of the biochemical analyzer during testing and equipment information of the biochemical analyzer in batches.

In one embodiment, the supplementary card data is encrypted data after the abnormal information and the equipment information are packaged and encrypted.

Specifically, in order to prevent the user from modifying the card supplementing data by himself, the correctness of the card supplementing data is ensured. The supplementary card data locally stored in the biochemical analyzer can be encrypted data packaged and encrypted by abnormal information and equipment information.

Referring to fig. 4, fig. 4 is a schematic flowchart of step S30 in fig. 1, where step S30 specifically includes:

s31: and decrypting the plurality of card complementing data associated with the current user to obtain a plurality of abnormal information.

Specifically, the parsing module performs decryption operation on the N complementary card data associated with the current user to obtain N decrypted abnormal information.

S32: based on the keywords, the test card abnormal information containing the keywords is searched in a plurality of abnormal information.

Specifically, the analysis module compares the keywords with the N pieces of abnormal information one by one, and searches for abnormal information of the test card containing the keywords. Wherein, the test card exception information includes: the current over-range error, the warning position monitoring point has at least one of liquid, HCT impedance value over-range, reagent pumping over-test card warning position.

S33: and counting the total number of the abnormal test cards corresponding to the abnormal test card information to obtain the compensation number of the test cards of the current user.

Specifically, if some abnormal information includes abnormal information of the test card, the test card corresponding to the card complementing data including the abnormal information is determined to be an abnormal test card, and the abnormal test card is counted in the compensation quantity of the test card. And counting the total number of the abnormal test cards corresponding to the abnormal test card information to obtain the compensation number of the test cards of the current user.

Further, keywords can be added or deleted in the keyword library in advance, so that a worker can modify whether a certain fault needs to be compensated. The test card compensation system can intelligently calculate the number of the claim cards, so that errors caused by manual calculation are avoided, and the workload of workers is reduced.

Referring to fig. 5, fig. 5 is a schematic flow chart of a biochemical analyzer-based test card compensation method according to another embodiment of the present application, after step 33, the method further includes:

s34: and counting the occupation ratio of various abnormal test cards corresponding to the abnormal information of each test card.

S35: and obtaining a use suggestion according to the occupation ratio of various abnormal test cards.

Specifically, the occupation ratio of various abnormal test cards corresponding to the abnormal information of each test card is counted, and a use suggestion is obtained according to an abnormal statistical result. For example: 1. when the proportion of the calibration failure is large, the sending use suggestion is as follows: the humidity of the environment where the instrument is located is large, and the adjustment of the humidity of the environment is recommended; 2. when the proportion of the sample clot and the sample bubble is large, the sending and using suggestion is as follows: the measured sample is placed for too long time (for example, blood is placed for too long time to generate clots, and oxygen, carbon dioxide and the like in the air are dissolved into the blood), and the measurement is carried out in time; 3. when the proportion of abnormal popping of the test card is large, sending a use suggestion as follows: please not repeat the measurement with the same test card).

Referring to fig. 6, fig. 6 is a schematic flowchart of a biochemical analyzer-based test card compensation method according to another embodiment of the present application, and after step S30, the method further includes:

s60: and generating a delivery report based on the compensation quantity of the test cards of the current users so that the staff can finish the delivery service of the test cards according to the delivery report.

Specifically, the delivery report includes the amount of the compensation, the user information (for example, the delivery address of the user, the recipient, and the recipient phone) of the compensation, and the like. The staff can fill in the requisition number and express delivery number according to the information of delivery report form to carry out the shipment processing.

S70: and tracking and managing the delivery information of the test card.

By means of the mode, the delivery report is generated based on the compensation quantity of the test cards of the current users, delivery management is achieved, and query and tracking of delivery information of the test cards are achieved.

Referring to fig. 7, fig. 7 is a schematic structural diagram of an embodiment of a test card compensation system 100 according to the present application, including: a biochemical analyzer 101, an acquisition module 102, an entry module 103, an analysis module 104, and a human-computer interaction interface 105. The acquisition module 102 is in communication connection with the biochemical analyzer 101, the logging module 103 is in communication connection with the acquisition module 102 and the human-computer interaction interface 105, the analysis module 104 is in communication connection with the logging module 103, and the system 100 is configured to execute the steps in the above-described embodiment of the test card compensation method based on the biochemical analyzer 101.

The biochemical analyzer 101 is used for extracting the calibration solution from the reagent pack to the electrode position of the test card for calibration, and then extracting the test solution such as blood from the blood collector to the electrode position of the test card for testing. The biochemical analyzer 101 is also used to locally store abnormality information at each test and device information of the biochemical analyzer 101 in the biochemical analyzer 101.

The acquisition module 102 is configured to acquire card supplementing data, where the card supplementing data includes abnormal information of each time the biochemical analyzer 101 performs a test and equipment information of the biochemical analyzer 101, and the abnormal information is associated with a test card used by the biochemical analyzer;

the entry module 103 is used for entering a plurality of card supplementing data associated with the current user in batches according to the equipment information;

and the analysis module 104 is used for analyzing the plurality of complementary card data associated with the current user to determine the compensation number of the test card of the current user and sending a use suggestion to the current user.

In one embodiment, the obtaining module 102 is further configured to send a data retrieving instruction to the biochemical analyzer 101. Biochemical analyzer 101 is also configured to respond to data retrieval instructions and derive complementary data locally from biochemical analyzer 101. The obtaining module 102 is further configured to obtain supplementary card data locally exported from the biochemical analyzer 101 after the biochemical analyzer 101 responds to the data call instruction.

In an embodiment, the obtaining module 102 is further configured to obtain user information and at least one piece of device information corresponding to the user information, and the human-computer interaction interface 105 is configured to establish an association relationship between the user information and the device information.

The entry module 103 is further configured to determine the biochemical analyzers 101 managed and/or used by the current user according to the user information and the association relationship of the current user, and enter the abnormal information of the biochemical analyzers 101 during testing and the device information of the biochemical analyzers 101 in batch.

In one embodiment, the supplementary card data is encrypted data after the abnormal information and the equipment information are packaged and encrypted. The parsing module 104 is configured to decrypt the multiple supplementary card data associated with the current user to obtain multiple pieces of abnormal information, and search for the test card abnormal information including the keyword from the multiple pieces of abnormal information based on the keyword. The parsing module 104 is further configured to count a total number of the abnormal test cards corresponding to the abnormal test card information to obtain a compensation number of the test cards of the current user.

In an embodiment, the parsing module 104 is further configured to count the percentage of each abnormal test card corresponding to the abnormal information of each test card, and obtain a use suggestion according to the percentage of each abnormal test card.

Wherein the device information includes: at least one of a device number, a device type, a master control version and a model control version; the abnormality information includes: the calibration liquid is abnormal in liquid level, calibration fails, the current is out of range and wrong, the monitoring point of the warning position is at least one of liquid, the HCT impedance value is out of range, the reagent is pumped out of the warning position of the test card, the sample is coagulated, the sample bubbles are abnormal, and the test card is abnormally popped up.

Referring to fig. 8, fig. 8 is a schematic structural diagram of another embodiment of the test card compensation system of the present application, and the system 100 further includes: the shipment management module 106 is communicatively connected to the parsing module 104.

The delivery management module 106 is configured to generate a delivery report based on the compensation quantity of the test cards of the current user, so that a worker can complete the delivery service of the test cards according to the delivery report.

The shipping management module 106 is also used for tracking and managing the shipping information of the test cards.

An embodiment of the present application provides a device with a storage function, which stores program data that can be executed to implement the biochemical analyzer 101-based test card compensation system 100 of any of the above embodiments. That is, when the method is implemented in software and sold or used as a stand-alone product, the method can be stored in a device readable by an electronic device and having a storage function. The device with the storage function can be a U disk, an optical disk or a server.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A test card compensation method based on a biochemical analyzer is characterized by comprising the following steps:

acquiring card supplementing data, wherein the card supplementing data comprises abnormal information during testing of the biochemical analyzer and equipment information of the biochemical analyzer, and the abnormal information is associated with a test card used by the biochemical analyzer;

inputting a plurality of card supplementing data in batches according to the equipment information of the biochemical analyzer;

and analyzing the several supplementary card data to determine the compensation number of the test cards of the current user, and sending a use suggestion to the current user.

2. The method of claim 1, wherein the step of obtaining the patch data comprises:

sending a data calling instruction to the biochemical analyzer;

and acquiring the supplementary card data locally exported from the biochemical analyzer after the biochemical analyzer responds to the data calling instruction.

3. The method of claim 1,

before the step of inputting a plurality of the card supplementing data in batches according to the equipment information of the biochemical analyzer, the compensation method further comprises the following steps:

establishing an incidence relation between user information and at least one piece of equipment information;

the step of inputting a plurality of card supplementing data in batches according to the equipment information comprises the following steps:

determining the biochemical analyzer managed and/or used by the current user according to the user information of the current user and the incidence relation;

and inputting abnormal information of the biochemical analyzer during testing and equipment information of the biochemical analyzer in batches.

4. The method of claim 1, wherein the supplementary card data is encrypted data obtained by packaging and encrypting the abnormal information and the device information;

the step of analyzing the plurality of the supplementary card data associated with the current user to determine the compensation number of the test cards of the current user comprises:

decrypting a plurality of card supplementing data associated with the current user to obtain a plurality of abnormal information;

based on keywords, searching for abnormal information of the test card containing the keywords in a plurality of abnormal information;

and counting the total number of the abnormal test cards corresponding to the abnormal test card information to obtain the test card compensation number of the current user.

5. The method of claim 4, wherein after the step of counting the total number of abnormal test cards corresponding to the abnormal test card information, the method further comprises:

counting the occupation ratio of various abnormal test cards corresponding to the abnormal information of each test card;

and obtaining the use suggestion according to the occupation ratio of the various abnormal test cards.

6. The method of claim 1,

the device information includes: at least one of a device number, a device type, a master control version and a model control version;

the abnormality information includes: the calibration liquid is abnormal in liquid level, calibration fails, the current is out of range and wrong, the monitoring point of the warning position is at least one of liquid, the HCT impedance value is out of range, the reagent is pumped out of the warning position of the test card, the sample is coagulated, the sample bubbles are abnormal, and the test card is abnormally popped up.

7. The method of claim 1, wherein after the step of parsing the number of patch data associated with the current user to determine the number of test card offsets for the current user, the method further comprises:

generating a delivery report based on the compensation quantity of the test cards of the current user so that a worker can complete the delivery service of the test cards according to the delivery report;

and tracking and managing the delivery information of the test card.

8. A test card compensation system, the system comprising: the system comprises a biochemical analyzer, an acquisition module, a logging module, an analysis module and a human-computer interaction interface, wherein the acquisition module is in communication connection with the biochemical analyzer, the logging module is in communication connection with the acquisition module and the human-computer interaction interface respectively, the analysis module is in communication connection with the logging module, and the system is used for executing the steps in the method according to any one of claims 1 to 7.

9. The system of claim 8, further comprising:

and the delivery management module is in communication connection with the analysis module and is used for generating a delivery report based on the test card compensation quantity of the current user so that a worker can complete the test card delivery service according to the delivery report and perform tracking management on the delivery information of the test card.

10. An apparatus having a memory function, characterized in that program data are stored, which can be executed to implement the steps in the method according to any of claims 1 to 7.

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