CN110320374B - Reagent main curve scanning method and sample analyzer - Google Patents

Abstract

A method of reagent main curve scanning and a sample analyzer, the method comprising: acquiring the reagent information of which the main curve information is not scanned in the loaded reagent; generating a main curve scanning interface for displaying reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents; and when the main curve information of the reagent scanned by the user is acquired, updating the main curve scanning interface. The invention automatically selects and displays the reagent information of which the main curve information is not scanned to the user, so that the user does not need to manually select the reagents of the main curve information of the reagent to be scanned one by one according to the item state of the main curve scanning, thereby saving the time and energy of the user and being difficult to make mistakes.

Description

Reagent main curve scanning method and sample analyzer

Technical Field

The invention relates to a main reagent curve scanning method and a sample analyzer.

Background

When biochemical or immunological reagents leave the factory, a manufacturer can attach a card in the kit, and the card comprises a bar code (a one-dimensional bar code or a two-dimensional bar code and the like) with main curve information so as to be scanned by a bar code scanner held by a user; after the sample analyzer acquires the bar code containing the main curve information obtained by scanning by the bar code scanner, the main curve information in the bar code is analyzed, and the main curve information of the reagent is calibrated accordingly. The user scans the bar code of the main curve information of the reagent for the sample analyzer to analyze and acquire the main curve information contained in the bar code, which is generally complicated, and is a typical operation process of the user.

After the user puts the reagent into the reagent disk of the sample analyzer, the reagent is checked in a software operation interface of the sample analyzer. For example, as shown in fig. 1 (a), the user first checks whether all reagents are loaded correctly on the reagent list interface, and if the loading is successful, the reagent list interface displays corresponding reagent information; after confirming that all reagents are loaded correctly, the user switches to a calibration setting interface, as shown in fig. 1 (b), to check which batches of reagents need to be scanned for main curve information, and in the main curve scanning item, the main curve information marked as 'N' indicating that the sample analyzer does not have the main curve information of the reagents, that is, needs to be scanned to obtain the main curve information of the reagents, and the main curve information marked as 'Y' indicating that the sample analyzer already has the main curve information of the reagents, that is, does not need to be scanned; according to the main curve scanning item states of all reagents in the calibration setting interface, a user can know which main curve information of the reagents needs to be scanned, and then the corresponding reagent box takes cards of the main curve information of the reagents to the operation table so as to prepare for the information on the cards to be scanned subsequently. Then, the user clicks the "main curve information" button on the calibration setting interface, as shown in fig. 1 (c), and the calibration setting interface generates a popup window for scanning the main curve information in response to the operation of clicking the "main curve information" button by the user, where the user can scan the previously prepared cards, for example, the user holds the barcode scanner with one hand and holds one of the cards with the other hand for scanning; after analyzing the main curve information on the card, as shown in fig. 1 (d), the software operation interface of the sample analyzer displays some information (such as project and batch number, generally, the barcode containing the main curve information may contain not only the main curve information but also some information of the reagent) of the reagent contained in the barcode in the card in the popup window, which indicates that the main curve information on the card has been analyzed, and the user needs to and has to vacate one hand to click the "save" button in the popup window to save the main curve information analyzed, so that the next card can be scanned, for example, after clicking the "save" button in the popup window, the software operation interface saves the main curve information just scanned and analyzed, and returns the popup window to the state shown in fig. 1 (c) so as to receive the scanned information of the next card. When the user finishes scanning all the cards on the operation platform, clicking a closing button in the popup window, and updating the calibration setting interface to exit the card scanning state, as shown in fig. 1 (e), updating the state of the scanned main curve scanning item of the reagent with main curve information acquired by scanning to be Y.

It can be seen that the user operation experience of the entire scanned card is very unfriendly: firstly, a user needs to select the reagents of the main curve information of the reagents to be scanned one by one from a software operation interface according to the entry state of the main curve scanning, and then the corresponding reagent boxes are used for retrieving the corresponding cards, so that time and labor are wasted, and omission is possibly caused; after one card is scanned, the user also needs to make a hand to click on the software operation interface to save the scanned main curve information and make the software operation interface enter the scanning state of the next card, and then the user needs to pick up the next card to scan, so that all the cards are scanned; when the number of cards to be scanned is large, this bad user operation experience is further amplified and user time is wasted greatly.

Disclosure of Invention

In view of the above, the present application provides a method for scanning a main curve of a reagent and a sample analyzer.

According to a first aspect, in one embodiment, there is provided a method of main curve scanning of a reagent, comprising:

acquiring the reagent information of which the main curve information is not scanned in the loaded reagent;

Generating a main curve scanning interface for displaying reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents;

and when the main curve information of the reagent scanned by the user is acquired, updating the main curve scanning interface.

In one embodiment, the reagent information in the main curve scan interface includes a test item name and reagent lot number for the reagent.

In one embodiment, each reagent in the reagent information, in which the test item and the reagent lot number are the same, is combined and displayed as one piece of reagent information in the main curve scanning interface.

In one embodiment, when the main curve information of the reagent scanned by the user is obtained, updating the main curve scanning interface includes: when the main curve information of one reagent scanned by a user is obtained, the main curve information of the reagent is automatically stored; if the main curve information of the reagent is not scanned, prompting and continuously acquiring the main curve information of the reagent scanned by the user.

In one embodiment, when the main curve information of the reagent scanned by the user is obtained, updating the main curve scanning interface includes: and when the main curve information of one reagent scanned by the user is obtained, the main curve scanning interface generates information of a prompt progress for explaining the progress of obtaining the main curve information of the reagent.

In an embodiment, the information of the prompt progress includes any one of the following ways: progress bar prompt box, prompt progress percentage and prompt progress text.

In one embodiment, when the main curve information of the reagent scanned by the user is obtained, updating the main curve scanning interface includes: when the main curve information of one reagent scanned by the user is acquired, the reagent information is changed.

In one embodiment, said varying the reagent information comprises any of the following:

in one aspect, the main curve scanning interface includes a first area for displaying reagent information for which the main curve information is not scanned, and a second area for displaying reagent information for which the main curve information has been scanned, and the changing the reagent information includes changing a display area of the reagent information from the first area to the second area;

marking the reagent information on the main curve scanning interface, including adding a deletion line, an underline, adding a symbol or a character representing that the reagent information is scanned, or adding a color of the reagent information which is different from the main curve information and is not scanned;

In a third aspect, the reagent information is disappeared from the main curve scanning interface.

In one embodiment, the main curve scanning interface comprises a closing button, and when click information of the closing button is captured, the main curve scanning interface is closed;

alternatively, for all the main curve information displayed on the main curve scanning interface, which is not scanned, the main curve scanning interface is automatically closed after the main curve information of the reagents is acquired.

In one embodiment, the method for scanning a main curve of a reagent further comprises:

acquiring reagent information loaded by a user;

generating a first interface for displaying user-loaded reagent information and main curve scanning state information of each loaded reagent according to the acquired user-loaded reagent information, wherein the main curve scanning state information of the reagent is used for indicating whether the main curve information of the reagent is scanned and acquired;

and when the main curve scanning interface is closed, updating main curve scanning state information of the reagent in the first interface according to the acquired main curve information of the reagent.

In an embodiment, the first interface further includes a main curve scanning button, and when clicking information of the main curve scanning button is captured, generating the main curve scanning interface includes generating the main curve scanning interface in a pop-up window form;

Or when detecting that the main curve scanning state information in the first interface is an unscanned reagent, automatically generating the main curve scanning interface, wherein the main curve scanning interface is automatically generated in a popup window mode.

According to a second aspect, there is provided in one embodiment a sample analyzer comprising:

a measurement unit for detecting the sample after reaction with the reagent to obtain a sample detection result;

a sampling part for sucking up a sample and supplying the sample to the measuring part;

a reagent component for carrying a reagent and acquiring reagent information, and supplying the reagent to the measurement component;

a storage unit for storing reagent information and main curve information of the reagent;

a processing unit configured to acquire reagent information in which main curve information is not scanned among the loaded reagents; generating a main curve scanning interface for displaying reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents; when main curve information of a reagent scanned by a user is obtained, updating the main curve scanning interface;

and the display component is used for displaying the main curve scanning interface.

In one embodiment, the reagent information in the main curve scan interface generated by the processing component includes the test item name and reagent lot number for which the reagent was used.

In one embodiment, the processing unit merges and displays each reagent with the same test item and reagent lot number in the reagent information as one piece of reagent information in the main curve scanning interface.

In one embodiment, the processing unit updates the main curve scanning interface when acquiring main curve information of the reagent scanned by the user, and the processing unit includes: and the processing part automatically stores the main curve information of one reagent scanned by the user after acquiring the main curve information of the reagent, and prompts and continuously acquires the main curve information of the reagent scanned by the user if the main curve information of the reagent is not scanned.

In one embodiment, the processing unit updates the main curve scanning interface when acquiring main curve information of the reagent scanned by the user, and the processing unit includes: and in the process that the processing component acquires the main curve information of one reagent scanned by a user, generating information of a prompt progress on the main curve scanning interface, wherein the information is used for describing the progress of acquiring the main curve information of the reagent.

In an embodiment, the information of the prompt progress generated by the processing component at the main curve scanning interface includes any one of the following modes: progress bar prompt box, prompt progress percentage and prompt progress text.

In one embodiment, when the processing component obtains the main curve information of the reagent scanned by the user, updating the main curve scanning interface comprises: the processing unit, upon acquiring main curve information of a reagent scanned by a user, changes the reagent information at the main curve scanning interface.

In one embodiment, the processing means alters the reagent information at the main curve scanning interface, including any of:

in one mode, the main curve scanning interface generated by the processing component comprises a first area for displaying reagent information of which the main curve information is not scanned and a second area for displaying reagent information of which the main curve information is scanned; the processing means changes the reagent information, including changing a display area of the reagent information from a first area to a second area;

in a second aspect, the processing unit marks the reagent information on the main curve scanning interface, and includes adding a deletion line, an underline, a symbol or a character indicating that the reagent information has been scanned, or a color of the reagent information that is different from the main curve information and has not been scanned to the side of the reagent information;

In a third aspect, the processing unit removes the reagent information from the main curve scanning interface.

In one embodiment, the main curve scanning interface generated by the processing component further comprises a closing button; closing the main curve scanning interface when the processing component captures click information of the closing button on the display component;

alternatively, the processing unit may automatically close the main curve scanning interface after acquiring the main curve information of the reagents for all the reagent information displayed on the main curve scanning interface that is not scanned.

In an embodiment, the processing component is further configured to generate a first interface according to the acquired user-loaded reagent information, where the first interface is configured to display the user-loaded reagent information and main curve scan status information of each loaded reagent, where the main curve scan status information of the reagent is configured to indicate whether the main curve information of the reagent has been scanned; when the main curve scanning interface is closed, updating main curve scanning state information of the reagent in the first interface according to the acquired main curve information of the reagent; the display component is also used for displaying the first interface.

In one embodiment, the first interface generated by the processing component further includes a main curve scanning button, and when the processing component captures click information of the main curve scanning button on the display component, the main curve scanning interface is generated, including generating the main curve scanning interface in a popup window mode;

or when detecting that the main curve scanning state information in the first interface is the reagent which is not scanned, the processing component automatically generates the main curve scanning interface, including automatically generating the main curve scanning interface in a popup window mode.

According to a third aspect, an embodiment provides a computer readable storage medium comprising a program executable by a processor to implement a method as described in any of the embodiments above.

According to the reagent main curve scanning method and the sample analysis and computer readable storage medium, as the reagent information of which the main curve information is not scanned is automatically selected and displayed to the user, the user does not need to manually select the reagents of the reagent main curve information needing to be scanned one by one according to the item state of the main curve scanning, so that the time and the energy of the user are saved, and the mistakes are difficult to make; in addition, the process of scanning the main curve information is optimized, the software operation interface gives corresponding prompts in the process of acquiring the main curve information of scanning, so that a user knows the scanning progress, the main curve information of scanning is automatically stored after being acquired, the corresponding prompts can be given, the user continues to scan the main curve information, the user does not need to make hands free to operate the software operation interface any more, the main curve information of each reagent can be scanned one by one in a very seamless way, the operation of the user is simplified and reduced, and the process of scanning the main curve information by the user becomes very coherent and friendly.

Drawings

FIG. 1 (a) is a schematic diagram of a reagent list interface in a software operator interface of a prior art sample analyzer; FIG. 1 (b) is a schematic diagram of a calibration setup interface in a software operation interface of a prior art sample analyzer; FIG. 1 (c) is a schematic diagram of a pop-up window of a main curve information scan that appears after a calibration setup interface clicks "main curve information" in a software operation interface of a conventional sample analyzer; FIG. 1 (d) is a schematic diagram showing a main curve information scanning popup window in a software operation interface of a conventional sample analyzer, after main curve information contained in a bar code in a card is obtained, the reagent information is displayed; FIG. 1 (e) is a schematic diagram of a software operation interface of a conventional sample analyzer, with updated calibration setup interface after obtaining the main curve information;

FIG. 2 is a flow chart of a method of main reagent curve scanning according to one embodiment;

FIG. 3 is a schematic diagram of a main curve scanning interface of an embodiment;

fig. 4 (a) is a schematic diagram of generating information of a prompt progress by the main curve scanning interface of one embodiment, and fig. 4 (b) is a schematic diagram of generating information of a prompt progress by the main curve scanning interface of another embodiment;

FIG. 5 (a) is a schematic diagram of a main curve scanning interface when the main curve information of a reagent scanned by a user is changed after the main curve information is obtained; FIG. 5 (b) is a schematic diagram of a main curve scanning interface when the main curve information of a reagent scanned by a user is changed after the main curve information is obtained; FIG. 5 (c) is a schematic diagram of a main curve scanning interface when the main curve information of a reagent scanned by a user is changed after the main curve information is obtained;

FIG. 6 is a schematic diagram of a main curve scan interface including a "close" button in one embodiment;

fig. 7 is a schematic structural diagram of a sample analyzer according to an embodiment.

Detailed Description

The invention will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, some operations associated with the present application have not been shown or described in the specification to avoid obscuring the core portions of the present application, and may not be necessary for a person skilled in the art to describe in detail the relevant operations based on the description herein and the general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "coupled" and "connected," as used herein, are intended to encompass both direct and indirect coupling (coupling), unless otherwise indicated.

The invention discloses a reagent main curve scanning method and a sample analyzer. Firstly, the invention automatically selects and displays the reagent information of which the main curve information is not scanned to a user, so that the user does not need to manually select the reagents of the main curve information of the reagent to be scanned one by one according to the item state of the main curve scanning, thereby saving the time and energy of the user and being difficult to make mistakes; and secondly, the invention optimizes the process of scanning the main curve information, and the software operation interface gives corresponding prompt in the process of acquiring the main curve information of scanning, so that the user knows the scanning progress, automatically saves the main curve information after acquiring the main curve information of scanning, gives corresponding prompt, and enables the user to continue scanning the main curve information, so that the user does not need to make hands to operate the software operation interface any more, thereby scanning the main curve information of each reagent one by one very seamlessly, simplifying and reducing the operation of the user, and enabling the process of scanning the main curve information of the user to be very coherent and friendly. The following is a detailed description.

Referring to fig. 2, the main reagent curve scanning method in one embodiment includes steps S310 to S350, which are specifically described below.

Step S310: and acquiring reagent information of which main curve information is not scanned in the loaded reagent.

In one embodiment, the reagent information includes the test item name and reagent lot number for which the reagent was used. The reagent lot number generally indicates the lot from which the manufacturer produced the reagent, the same type of reagent, if the production lot or reagent lot number is the same, meaning that their indications are all substantially identical, so that the master curve information is also the same. Thus, in general, the type of reagent can be determined according to the test item, and the main curve information of different reagent types need to be scanned separately, for example, the reagent for the Folate (serum Folate) test item and the reagent for the T-PSA (prostate specific antigen) test item, and the main curve information needs to be acquired separately; for the same kind of reagent, two cases are classified: the main curve information of the same kind of reagents in the same batch is the same, namely, the main curve information contained in the cards in the kit is the same, so that repeated scanning is not needed to obtain the reagents, for example, the kinds of the reagents are the same, if the same batch is the same, for example, the reagent batch numbers are 170101, the main curve information of the reagents is identical, so that the reagents used for a Folate (serum folic acid) test item and the reagent batch numbers are 170101 only need to scan the main curve information of any kit reagent; the main curve information of the reagents of the same type and different batches are generally different, and the cards in the reagent kits need to be scanned to obtain the main curve information, for example, the reagent with the reagent batch number 170101 for the Folate (serum Folate) test item and the reagent with the reagent batch number 170201 for the Folate (serum Folate) test item, although the reagents are the same reagent, the reagent batch numbers are different, and therefore, the main curve information needs to be respectively scanned to obtain the main curve information. Thus, in one embodiment, each reagent in the reagent information having the same test item and reagent lot number is displayed in combination as one piece of reagent information in the main curve scanning interface. It should be noted that, in an embodiment, in step S310, if the card in the reagent kit of the newly loaded reagent is not scanned to obtain the main curve information, but the main curve information of the reagent of the same kind as the reagent (for example, both are used for the same test item) and the reagent lot number is obtained before, the main curve information of the newly loaded reagent is regarded as scanned, and the reagent information of the newly loaded reagent is not displayed on the main curve scanning interface described below; of course, the main curve scanning interface may be displayed, and it is also possible to acquire main curve information by rescanning.

Step S330: a main curve scanning interface is generated for displaying the reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents. Taking the reagent loaded in fig. 1 (b) as an example, fig. 3 is an example of a main curve scanning interface, it can be seen that, for the reagent information that does not need to scan the main curve information, the main curve scanning interface is not displayed, but only the reagent information that needs to scan the main curve information is displayed, so that the user does not need to manually select the reagent that needs to scan the main curve information one by one from all the reagents that need to scan and do not need to scan according to the entry states "Y" and "N" of the main curve scanning; in step S330, the curve scanning interface automatically selects and displays the reagent information of which the main curve information is not scanned for the user, thereby saving the energy and time of the user and making the user not easy to make mistakes when selecting the card of the main curve information to be scanned. The main curve scanning interface may also display a prompt, such as the text "please scan main curve bar code" in fig. 3, to prompt the user to scan the main curve information of the reagent.

Step S350: and when the main curve information of the reagent scanned by the user is acquired, updating the main curve scanning interface.

When the user starts scanning the main curve information of the reagent, in order for the user to know the current scanning progress and when the card can be moved out of the scanning range of the scanner and when the scanning of the next card can be ready to start, step S350 may include, in an embodiment: and when the main curve information of one reagent scanned by the user is obtained, the main curve scanning interface generates information of a prompt progress for explaining the progress of obtaining the main curve information of the reagent. That is, in the whole process from the start of receiving the main curve information scanned by the user to the complete analysis of the main curve information scanned by the user and obtaining the main curve information therein, the main curve scanning interface generates a prompting progress information, such as a progress bar prompting frame, a percentage of prompting progress, or characters of prompting progress, as shown in fig. 4.

The process of specifically acquiring the main curve information of a certain reagent is optimized by adding the information of the prompt progress; this process can also be optimized for a specific reagent main curve information.

In order to simplify and reduce the user' S operations, in an embodiment, step S350 may include: when the main curve information of one reagent scanned by a user is obtained, the main curve information of the reagent is automatically stored; if the main curve information of the reagent is not scanned, prompting and continuously acquiring the main curve information of the reagent scanned by the user. For example, after the main curve information of a reagent scanned by the user is obtained, the main curve information scanned by the user is resolved and obtained, and then the main curve information is automatically saved, and if the main curve information of the reagent is not scanned, the user is prompted to continue scanning, for example, a prompt may be displayed in the main curve scanning interface—for example, the text "please continue scanning the main curve bar code" is displayed at the position of the prompt information in fig. 3, so as to prompt the user to continue scanning the main curve information of the reagent; accordingly, if the main curve information of all the reagents has been scanned, for example, after the main curve information of the last reagent has been scanned, a prompt may be displayed in the main curve scanning interface, for example, the text "all the main curve information has been scanned" is displayed at the position of the prompt information in fig. 3, so as to prompt the user to perform subsequent other operations, for example, the main curve information correction operation of the reagent.

In order to allow the user to know which reagent' S main curve information is scanned, in one embodiment, step S350 may include: changing the reagent information after acquiring the main curve information of a reagent scanned by a user; in one embodiment, there are various ways to change the reagent information, and the following test is performed to illustrate the following ways:

in one mode, the main curve scanning interface comprises a first area for displaying reagent information of which main curve information is not scanned and a second area for displaying reagent information of which main curve information has been scanned; therefore, when the main curve information of one reagent scanned by the user is acquired, changing the reagent information may include changing the display area of the reagent information from the first area to the second area. For example, as shown in fig. 5 (a), the first area is an area on the left entitled "reagent waiting for scanning main curve information", the second area is an area on the right entitled "reagent having scanned main curve information", and when it is recognized that main curve information of a reagent lot 170101 for a focus (serum Folate) test item is acquired, the reagent information is changed from the left area to the right area.

In a second mode, after the main curve information of one reagent scanned by the user is obtained, the reagent information is changed, including marking the reagent information on the main curve scanning interface, including adding a deletion line, an underline, adding a symbol or a character representing that the reagent information has been scanned, or adding a color different from the reagent information of which the main curve information has not been scanned, to the side of the reagent information. For example, as shown in fig. 5 (b), the reagent information of the deletion line may be added to indicate that the main curve information of the reagent has been scanned.

In a third aspect, when main curve information of a reagent scanned by a user is acquired, the reagent information is changed, including: the reagent information disappears from the main curve scanning interface. For example, when it is recognized that the main curve information of the reagent having acquired the reagent lot number 170101 for the Folate (serum Folate) test item is obtained, the reagent information may be eliminated from the main curve scanning interface as shown in FIG. 5 (c), but it is needless to say that some animation process may be added, for example, the reagent information may be eliminated by a method of fading out or flashing out the interface.

When the user scans the main curve information of all the reagents, or the main curve information of all the reagents is acquired, the user can exit the main curve scanning interface. There are many implementations of exiting the main curve scan interface, for example, as shown in FIG. 6, the main curve scan interface may include a close button that closes the main curve scan interface when click information is captured on the close button by a user manually closing the main curve scan interface; in other embodiments, the main curve scanning interface may also be automatically turned off, for example, for all reagent information displayed on the main curve scanning interface that is not scanned, after the main curve information of the reagents has been acquired.

The generated main curve scanning interface may be a pop-up window, for example, there is a first interface in a software operation interface, such as a reagent list interface or a calibration setting interface mentioned in the background art, which may be used as an example, the first interface includes a main curve scanning button, and when click information on the main curve scanning button is captured, the main curve scanning interface is generated, for example, the main curve scanning interface is generated in a pop-up window mode. The above is an example of manually generating the main curve scanning interface, and the main curve scanning interface may also be automatically generated, for example, when the main curve scanning state information in the first interface is detected as an unscanned reagent, the main curve scanning interface is automatically generated, for example, the main curve scanning interface is automatically generated in a popup window mode. The generation of the first interface may be to acquire the reagent information loaded by the user, and then generate the first interface, where the first interface is configured to display the reagent information loaded by the user and the main curve scanning state information of each loaded reagent according to the acquired reagent information loaded by the user, where the main curve scanning state information of the reagent is configured to indicate whether the main curve information of the reagent has been scanned and acquired; and when the main curve scanning interface is closed, updating the main curve scanning state information of the reagent in the first interface according to the acquired main curve information of the reagent. When a user newly loads a plurality of reagents, if the main curve information of the same kind of reagent as the lot number of the reagents is already acquired (for example, the main curve information of the same kind of reagent as the lot number of the reagents used for the same test item is already acquired), the main curve scan state information of the newly loaded reagents is already scanned, otherwise, is not scanned or is to be scanned.

The above is the procedure steps of the main curve scanning method of the reagent in each embodiment of the present invention. Referring to fig. 7, a sample analyzer according to an embodiment of the present invention includes a measurement unit 10, a sampling unit 20, a reagent unit 30, a storage unit 40, a processing unit 50, and a display unit 60, which will be described in detail below.

The measuring section 10 is used for detecting a sample after reaction with a reagent to obtain a sample detection result.

The sampling part 20 is used to aspirate a sample and supply it to the measuring part 10.

The reagent section 30 is for carrying a reagent and acquiring reagent information, and supplies the reagent to the measurement section 10.

The storage unit 40 stores reagent information and main curve information of the reagent.

The processing unit 50 is used for acquiring reagent information of which main curve information is not scanned in the loaded reagent; generating a main curve scanning interface for displaying reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents; and updating the main curve scanning interface when the main curve information of the reagent scanned by the user is acquired. The processing unit 50 will be described in detail.

In one embodiment, the reagent information includes the test item name and reagent lot number for which the reagent was used. Since the main curve information is the same for the same test item and the same reagent lot, in one embodiment, the processing unit 50 displays the same test item and the same reagent lot in the main curve scanning interface as one piece of reagent information.

When the user starts scanning the main curve information of the reagent, in order to make the user aware of the current scanning progress and when the card can be moved from the scanning range of the scanner and when the next card can be ready to start scanning, in an embodiment, the processing unit 50 generates information indicating progress in the main curve scanning interface during the process of acquiring the main curve information of one reagent scanned by the user, for example, a progress bar indicating frame, a percentage of indicating progress, or text indicating progress, etc. as shown in fig. 4.

To simplify and reduce user operations, in one embodiment, processing component 50 automatically saves the main curve information for a reagent scanned by a user after the main curve information is obtained for the reagent; if the main curve information of the reagent is not scanned, prompting and continuously acquiring the main curve information of the reagent scanned by the user. For example, after the main curve information of a reagent scanned by the user is obtained, the main curve information scanned by the user is resolved and obtained, and then the main curve information is automatically saved, and if the main curve information of the reagent is not scanned, the user is prompted to continue scanning, for example, a prompt may be displayed in the main curve scanning interface—for example, the text "please continue scanning the main curve bar code" is displayed at the position of the prompt information in fig. 3, so as to prompt the user to continue scanning the main curve information of the reagent; accordingly, if the main curve information of all the reagents has been scanned, for example, after the main curve information of the last reagent has been scanned, a prompt may be displayed in the main curve scanning interface, for example, the text "all the main curve information has been scanned" is displayed at the position of the prompt information in fig. 3, so as to prompt the user to perform subsequent other operations, for example, the main curve information correction operation of the reagent.

In order to allow the user to know which main curve information of a reagent is scanned, in one embodiment, the processing component 50 alters the reagent information at the main curve scanning interface after the main curve information of a reagent scanned by the user is obtained. In one embodiment, there are various ways to change the reagent information, and the following test is performed to illustrate the following ways:

in one mode, the main curve scanning interface generated by the processing unit 50 includes a first area for displaying reagent information whose main curve information has not been scanned, and a second area for displaying reagent information whose main curve information has been scanned; thus, when the main curve information of one reagent scanned by the user is acquired, the processing unit 50 changes the reagent information, and may change the display area of the reagent information from the first area to the second area. For example, as shown in fig. 5 (a), the first area is an area on the left entitled "reagent waiting for scanning main curve information", the second area is an area on the right entitled "reagent having scanned main curve information", and when it is recognized that main curve information of a reagent lot 170101 for a focus (serum Folate) test item is acquired, the reagent information is changed from the left area to the right area.

In a second mode, the processing unit 50, after acquiring the main curve information of one reagent scanned by the user, changes the reagent information, including marking the reagent information on the main curve scanning interface, including adding a deletion line, an underline, adding a symbol or a letter indicating that the main curve information has been scanned, or adding a color different from the reagent information that the main curve information has not been scanned, to the reagent information. For example, as shown in fig. 5 (b), the reagent information of the deletion line may be added to indicate that the main curve information of the reagent has been scanned.

In a third aspect, the processing unit 50, when acquiring main curve information of one reagent scanned by a user, changes the reagent information, and includes: the reagent information disappears from the main curve scanning interface. For example, when it is recognized that the main curve information of the reagent having acquired the reagent lot number 170101 for the Folate (serum Folate) test item is obtained, the reagent information may be eliminated from the main curve scanning interface as shown in FIG. 5 (c), but it is needless to say that some animation process may be added, for example, the reagent information may be eliminated by a method of fading out or flashing out the interface.

When the user scans the main curve information of all the reagents, or the main curve information of all the reagents is acquired, the user can exit the main curve scanning interface. There are many implementations of exiting the main curve scan interface, for example, as shown in fig. 6, the main curve scan interface generated by the processing unit 50 may include a close button that closes the main curve scan interface when the processing unit 50 captures a click on the close button on the display unit 60, by the user manually closing the main curve scan interface; in other embodiments, the main curve scanning interface may also be automatically turned off, for example, for all reagent information displayed on the main curve scanning interface for which main curve information is not scanned, and the processing unit 50 automatically turns off the main curve scanning interface after having acquired the main curve information of the reagents.

The main curve scanning interface may be a pop-up window, and the processing unit 50 may generate a first interface, such as the reagent list interface or the calibration setting interface mentioned in the background art, and then generate the main curve scanning interface through the first interface. Thus in one embodiment, the processing means 50 is further configured to generate a first interface based on the acquired user-loaded reagent information, the first interface being configured to display the user-loaded reagent information and main curve scan status information for each loaded reagent, wherein the main curve scan status information for the reagent is configured to indicate whether the main curve information for the reagent has been scanned; and when the main curve scanning interface is closed, updating main curve scanning state information of the reagent in the first interface according to the acquired main curve information of the reagent. In one embodiment, the first interface generated by the processing unit 50 further includes a main curve scan button; when the processing component 50 captures click information for the main curve scan button on the display component 60, a main curve scan interface is generated, for example in the form of a pop-up window. This is an example of manually generating a main curve scan interface, which may also be automatically generated. In one embodiment, the processing component 50 automatically generates the main curve scan interface when detecting that the main curve scan status information is an unscanned reagent in the first interface, for example, in the form of a pop-up window.

The display unit 60 is used for displaying information, for example, displaying the main curve scanning interface described above, displaying the first interface described above, and the like.

Of course, the sample analyzer of the present invention may also include a scanner for the user to scan information, such as a hand-held scanner mentioned in the background, and the like, which is not described herein.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by a computer program. When all or part of the functions in the above embodiments are implemented by means of a computer program, the program may be stored in a computer readable storage medium, and the storage medium may include: read-only memory, random access memory, magnetic disk, optical disk, hard disk, etc., and the program is executed by a computer to realize the above-mentioned functions. For example, the program is stored in the memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above can be realized. In addition, when all or part of the functions in the above embodiments are implemented by means of a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and the program in the above embodiments may be implemented by downloading or copying the program into a memory of a local device or updating a version of a system of the local device, and when the program in the memory is executed by a processor.

The foregoing description of the invention has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the invention pertains, based on the idea of the invention.

Claims (19)

1. A method for scanning a main curve of a reagent, comprising:

acquiring the reagent information of which the main curve information is not scanned in the loaded reagent;

generating a main curve scanning interface for displaying reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents; the main curve information is acquired by scanning a card;

when main curve information of a reagent scanned by a user is obtained, updating the main curve scanning interface;

when the main curve information of the reagent scanned by the user is obtained, updating the main curve scanning interface comprises the following steps: when main curve information of a reagent scanned by a user is acquired, automatically storing the main curve information of the reagent, and updating the main curve scanning interface;

the updating the main curve scanning interface comprises the following steps: changing the reagent information to prompt a user that main curve information of the reagent has been scanned;

The changing the reagent information includes any one of the following modes:

in one aspect, the main curve scanning interface includes a first area for displaying reagent information for which the main curve information is not scanned, and a second area for displaying reagent information for which the main curve information has been scanned, and the changing the reagent information includes changing a display area of the reagent information from the first area to the second area;

marking the reagent information on the main curve scanning interface, including adding a deletion line, an underline, adding a symbol or a character representing that the reagent information is scanned, or adding a color of the reagent information which is different from the main curve information and is not scanned;

in a third aspect, the reagent information is disappeared from the main curve scanning interface.

2. The reagent main curve scanning method according to claim 1, wherein the reagent information in the main curve scanning interface includes a test item name and a reagent lot number for which a reagent is used.

3. The method of main curve scanning of reagent according to claim 2, wherein each reagent having the same test item and reagent lot number in the reagent information is displayed in the main curve scanning interface as one piece of reagent information.

4. A method of scanning a main curve of a reagent according to any one of claims 1 to 3, wherein after acquiring the main curve information of a reagent scanned by a user, the method further comprises: if the main curve information of the reagent is not scanned, prompting and continuously acquiring the main curve information of the reagent scanned by the user.

5. A method of main curve scanning of a reagent according to any one of claims 1 to 3, wherein updating the main curve scanning interface when main curve information of a reagent scanned by a user is acquired comprises: and when the main curve information of one reagent scanned by the user is obtained, the main curve scanning interface generates information of a prompt progress for explaining the progress of obtaining the main curve information of the reagent.

6. The method of main reagent curve scanning according to claim 5, wherein the information of the progress of the prompt includes any one of the following means: progress bar prompt box, prompt progress percentage and prompt progress text.

7. The method of reagent main curve scanning according to claim 1, comprising:

The main curve scanning interface comprises a closing button, and when the click information of the closing button is captured, the main curve scanning interface is closed;

alternatively, for all the main curve information displayed on the main curve scanning interface, which is not scanned, the main curve scanning interface is automatically closed after the main curve information of the reagents is acquired.

8. The method of reagent main curve scanning according to claim 1, further comprising:

acquiring reagent information loaded by a user;

generating a first interface for displaying user-loaded reagent information and main curve scanning state information of each loaded reagent according to the acquired user-loaded reagent information, wherein the main curve scanning state information of the reagent is used for indicating whether the main curve information of the reagent is scanned and acquired;

and when the main curve scanning interface is closed, updating main curve scanning state information of the reagent in the first interface according to the acquired main curve information of the reagent.

9. The method of reagent main curve scanning according to claim 8, wherein:

the first interface also comprises a main curve scanning button, and when the click information of the main curve scanning button is captured, the main curve scanning interface is generated, including the main curve scanning interface is generated in a popup window mode;

Or when detecting that the main curve scanning state information in the first interface is an unscanned reagent, automatically generating the main curve scanning interface, wherein the main curve scanning interface is automatically generated in a popup window mode.

10. A sample analyzer, comprising:

a measurement unit for detecting the sample after reaction with the reagent to obtain a sample detection result;

a sampling part for sucking up a sample and supplying the sample to the measuring part;

a reagent component for carrying a reagent and acquiring reagent information, and supplying the reagent to the measurement component;

a storage unit for storing reagent information and main curve information of the reagent;

a processing section for:

acquiring the reagent information of which the main curve information is not scanned in the loaded reagent;

generating a main curve scanning interface for displaying reagent information of which the main curve information is not scanned so as to prompt a user to scan the main curve information of the reagents; the main curve information is acquired by scanning a card;

when main curve information of a reagent scanned by a user is obtained, updating the main curve scanning interface;

when the main curve information of the reagent scanned by the user is obtained, updating the main curve scanning interface comprises the following steps: when main curve information of a reagent scanned by a user is acquired, automatically storing the main curve information of the reagent to a storage component, and updating the main curve scanning interface;

The updating the main curve scanning interface comprises the following steps: changing the reagent information to prompt a user that main curve information of the reagent has been scanned;

the changing the reagent information includes any one of the following modes:

in one aspect, the main curve scanning interface includes a first area for displaying reagent information for which the main curve information is not scanned, and a second area for displaying reagent information for which the main curve information has been scanned, and the changing the reagent information includes changing a display area of the reagent information from the first area to the second area;

marking the reagent information on the main curve scanning interface, including adding a deletion line, an underline, adding a symbol or a character representing that the reagent information is scanned, or adding a color of the reagent information which is different from the main curve information and is not scanned;

in a third mode, the reagent information disappears from the main curve scanning interface;

and the display component is used for displaying the main curve scanning interface.

11. The sample analyzer of claim 10, wherein the reagent information in the main curve scan interface generated by the processing component includes a test item name and reagent lot number for which the reagent is used.

12. The sample analyzer of claim 10, wherein the processing means displays the reagents of the same test item and reagent lot number in the reagent information as one piece of reagent information in the main curve scanning interface.

13. The sample analyzer of any one of claims 10 to 12, wherein the processing means, after acquiring the main curve information of a reagent scanned by the user, automatically saves the main curve information of the reagent to the storage means, comprises: if the main curve information of the reagent is not scanned, prompting and continuously acquiring the main curve information of the reagent scanned by the user.

14. The sample analyzer of any of claims 10-12, wherein the processing component, upon obtaining primary curve information for a user-scanned reagent, updates the primary curve scanning interface, comprising: and in the process that the processing component acquires the main curve information of one reagent scanned by a user, generating information of a prompt progress on the main curve scanning interface, wherein the information is used for describing the progress of acquiring the main curve information of the reagent.

15. The sample analyzer of claim 14, wherein the information of the progress of the prompt generated by the processing means at the main curve scanning interface comprises any of the following: progress bar prompt box, prompt progress percentage and prompt progress text.

16. The sample analyzer of claim 10, wherein:

the main curve scanning interface generated by the processing component also comprises a closing button; closing the main curve scanning interface when the processing component captures click information of the closing button on the display component;

alternatively, the processing unit may automatically close the main curve scanning interface after acquiring the main curve information of the reagents for all the reagent information displayed on the main curve scanning interface that is not scanned.

17. The sample analyzer of claim 10, wherein the processing component is further configured to generate a first interface based on the acquired user-loaded reagent information, the first interface configured to display the user-loaded reagent information and main curve scan status information for each loaded reagent, wherein the main curve scan status information for the reagent is configured to indicate whether the main curve information for the reagent has been scanned; when the main curve scanning interface is closed, updating main curve scanning state information of the reagent in the first interface according to the acquired main curve information of the reagent; the display component is also used for displaying the first interface.

18. The sample analyzer of claim 17, wherein:

the first interface generated by the processing component further comprises a main curve scanning button, and when the processing component captures click information of the main curve scanning button on the display component, the main curve scanning interface is generated, wherein the main curve scanning interface is generated in a popup window mode;

or when detecting that the main curve scanning state information in the first interface is the reagent which is not scanned, the processing component automatically generates the main curve scanning interface, including automatically generating the main curve scanning interface in a popup window mode.

19. A computer readable storage medium comprising a program executable by a processor to implement the method of any one of claims 1 to 9.