CN112305246A - Sample analysis method and sample analysis system - Google Patents

Abstract

The invention provides a sample analysis method and a sample analysis system, wherein the sample analysis system comprises a first sample analyzer, a second sample analyzer and a sample conveying device, the first sample analyzer is a blood cell analyzer for detecting a whole blood sample to be detected to obtain a blood routine detection result, the second sample analyzer is an analyzer for detecting the whole blood sample to be detected to obtain a corresponding detection result, and the sample analysis method comprises the following steps: acquiring first detection data of a whole blood sample to be detected on the first sample analyzer and second detection data on the second sample analyzer; acquiring actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data; acquiring an actual detection result corresponding to the whole blood sample to be detected according to the second detection data; and correcting the actual detection result according to the actual correction parameter. The invention can improve the accuracy of the detection result.

Description

Sample analysis method and sample analysis system

Technical Field

The invention relates to the field of medical detection, in particular to a sample analysis method and a sample analysis system.

Background

In the field of medical diagnosis, with the increasing automation degree of a test laboratory, the demand for automatic detection is also increasing. The sample analyzer is used for detecting samples such as blood, the samples are generally arranged on a sample rack and are transported by rails, belts and the like, so that the streamlined automatic detection operation is realized. By associating a plurality of sample analysis instruments together through a pipeline, all samples can be uniformly managed and scheduled, and therefore the efficiency of sample analysis is improved.

The conventional flow-line sample analysis system generally includes two types of sample analyzers, one type is a blood cell analyzer, and the other type is a specific protein analyzer such as CRP (C-reactive protein), SAA (Serum amyloid a), PCT (Procalcitonin), and the like. Due to the needs of clinical applications, the results reported by a particular protein analyzer are typically measurements made by measuring serum that does not contain blood cells. In a streamlined sample analysis system, a specific protein analyzer such as CRP, SAA, PCT, etc. is tested by measuring a whole blood sample, which is the concentration of each parameter in whole blood. For clinical use, the concentration of CRP, SAA, PCT, etc. in a whole blood sample needs to be converted to a concentration in serum.

The existing sample analyzers for CRP, SAA, PCT and the like use default unified correction values, namely default HCT (hybrid coordination test), and the correction mode often causes inaccurate report results of CRP and the like.

Disclosure of Invention

In order to solve the above technical problem or at least partially solve the above technical problem, the present application provides a sample analysis method and a sample analysis system, which can improve the accuracy of a detection result of a whole blood sample.

In a first aspect, the present application provides a sample analysis method applied to a sample analysis system, the sample analysis system includes a first sample analyzer, a second sample analyzer and a sample conveying device, the sample conveying device is used for conveying a whole blood sample to be detected to the first sample analyzer and the second sample analyzer respectively for detection, the first sample analyzer is a blood cell analyzer for detecting the whole blood sample to be detected to obtain a blood routine detection result, the second sample analyzer is an analyzer for detecting the whole blood sample to be detected to obtain a detection result, the sample analysis method includes: acquiring first detection data of a whole blood sample to be detected on the first sample analyzer and second detection data on the second sample analyzer; acquiring actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data; acquiring an actual detection result corresponding to the whole blood sample to be detected according to the second detection data; and correcting the actual detection result according to the actual correction parameter.

In a second aspect, there is provided a sample analysis system comprising: a first sample analyzer, a second sample analyzer, and a sample transport device; the sample conveying device is used for conveying a whole blood sample to be detected to the first sample analyzer and the second sample analyzer respectively for detection; the blood cell analyzer is characterized in that the first sample analyzer is a blood cell analyzer used for detecting a whole blood sample to be detected so as to obtain blood conventional parameters, the second sample analyzer is an analyzer used for detecting the whole blood sample to be detected so as to obtain a detection result, the sample analysis system is composed of a first detection data and a second detection data, the first detection data and the second detection data are obtained, the first detection data are used for obtaining actual correction parameters corresponding to the whole blood sample to be detected, the second detection data are used for obtaining actual detection results corresponding to the whole blood sample to be detected, and the actual detection results of the whole blood sample to be detected are corrected according to the actual correction parameters.

The embodiment of the invention provides a sample analysis method and a sample analysis system.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

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

FIGS. 1 and 6 are schematic diagrams of a sample analysis system according to an embodiment of the present invention;

FIGS. 2-14 are flow charts illustrating a sample analysis method according to an embodiment of the present invention;

FIG. 15 is a schematic structural diagram of a data management device according to an embodiment of the present invention;

FIG. 16 is a view showing an internal structure of a computer apparatus according to an embodiment of the present invention;

fig. 17 to 22 are flowcharts illustrating a sample analysis method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, 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 some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the invention provides a sample analysis method which is applied to a sample analysis system.

Fig. 1 is a schematic diagram of a sample analysis system according to an embodiment of the present invention, which includes a first sample analyzer 110, a second sample analyzer 120, and a sample transport device 190, as shown in fig. 1. The sample conveying device 190 is used for conveying the whole blood sample 100 to be tested to the first sample analyzer 110 and the second sample analyzer 120 respectively for testing, the first sample analyzer 110 is a blood cell analyzer for testing the whole blood sample to be tested to obtain a blood routine test result, and the second sample analyzer 120 is an analyzer for testing the whole blood sample to be tested to obtain a test result.

In embodiments of the present invention, the second sample analyzer may be a specific protein analyzer, a glycated hemoglobin analyzer, a hemagglutination analyzer, a sedimentation analyzer, a flow cytometer, or other devices that measure blood parameters using anticoagulated whole blood samples. The actual correction parameter may be hematocrit HCT or hematocrit BCV. In this case, the actual measurement result is, for example, the whole blood C-reactive protein concentration.

Hematocrit HCT is the percentage of the volume of red blood cells in whole blood. The hematocrit BCV is the percentage of the volume of all blood cells in whole blood.

Fig. 2 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 2, the sample analysis method includes:

step 210, acquiring first detection data of a whole blood sample to be detected on the first sample analyzer 110 and second detection data on the second sample analyzer 120;

step 220, acquiring actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data;

step 230, acquiring an actual detection result corresponding to the whole blood sample to be detected according to the second detection data;

and 240, correcting the actual detection result according to the actual correction parameter.

In an embodiment of the present invention, the first sample analyzer is a blood cell analyzer, the obtained first detection data may be a blood routine parameter directly output by the first sample analyzer, the blood routine parameter includes a red blood cell RBC count, a white blood cell WBC count, a platelet PLT count, hemoglobin, hematocrit (hematocrit HCT), and the like, and the actual correction parameter (e.g., hematocrit) is one of the blood routine data, that is, the actual correction parameter may be directly obtained from the blood routine data output by the first sample analyzer.

Furthermore, the first detection data may be intermediate data related to the actual correction parameter, i.e., intermediate data from which the actual correction parameter can be calculated. For example, when the actual correction parameter is hematocrit HCT, the first detection data may be red blood cell RBC count and mean volume of red blood cells MCV, and may even be optical and electrical signals for calculating the red blood cell RBC count and mean volume of red blood cells MCV. When the actual correction parameter is hematocrit BCV, the first detection data may include data of hematocrit BCV that can be calculated by HCT, PLT, MPV, WBC, and the like.

The second detection data may alternatively be intermediate data, such as data generated during the detection process according to principles; the second test data may alternatively be the result of modification of some model of sample analyzer based on default modification parameters.

In the embodiment of the invention, the actual detection result is corrected by adopting the actual correction parameter, so that the accuracy of the detection result can be improved.

In one embodiment of the invention, the second sample analyzer may be a CRP analyzer and the actual correction parameter may be hematocrit BCV. The whole blood CRP detection is interfered by hematocrit, the influence of the hematocrit on the whole blood CRP measurement result is only considered by the conventional HCT correction technology, and in the sample analysis system provided by the embodiment of the invention, the correction is carried out by using BCV, so that the C-reactive protein of abnormal samples such as high white blood cells, high platelets and the like can output accurate results.

In the embodiment of the present invention, in step 220, that is, obtaining the actual correction parameter corresponding to the whole blood sample to be detected according to the first detection data includes:

the first sample analyzer 110 acquires actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data; or

The first target device receives first detection data sent by the first sample analyzer 110, and obtains an actual correction parameter corresponding to the whole blood sample to be detected according to the first detection data.

In this embodiment of the present invention, in step 230, that is, obtaining the actual detection result corresponding to the whole blood sample to be detected according to the second detection data includes:

the second sample analyzer 120 obtains an actual detection result corresponding to the whole blood sample to be detected according to the second detection data; or

The second target device receives the second detection data sent by the second sample analyzer 120, and obtains an actual detection result corresponding to the whole blood sample to be detected according to the second detection data.

In the embodiment of the present invention, the actual correction parameter may be obtained from the first sample analyzer 110, or may be obtained from other apparatuses of the sample analysis system, such as the data management apparatus 140, the laboratory information system 150, the third sample analyzer 130, and the like, which are described below; the actual test results may be obtained on the second sample analyzer 120, or may be obtained on other instruments of the sample analysis system, such as the data management device 140, the laboratory information system 150, the third sample analyzer 130, etc., described below.

In the embodiment of the present invention, the laboratory information system, also referred to as lis (laboratory information system), can perform unified management on the detection results of the sample analysis system.

In the embodiment of the present invention, the data management device is used for managing data of the sample analysis system, including detection data of the sample analyzer, status data of the sample transport device, sample data, and the like. The data management device can have the functions of information inquiry, data display, result auditing, result transmission, report printing and the like. The information query may query the laboratory information system for patient-related information. And result auditing can be performed manually or automatically, and measurement modes can be increased or decreased according to rules, so that the result auditing method acts on the sample analyzer.

If the actual correction parameters and/or the actual detection results are obtained from other instruments of the sample analysis system, the first detection data and/or the second detection data need to be sent to the corresponding instruments, which is not described herein again.

In this embodiment of the present invention, in step 240, that is, the correcting the actual detection result according to the actual correction parameter includes:

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter.

Fig. 3 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 3, the third target device is a first sample analyzer 110, the first sample analyzer 110 is communicatively connected to the second sample analyzer 120, and the communication connection may be direct connection or may be a relay connection through another device/apparatus.

In fig. 1, communication connections are indicated by arrows, and the directions of the arrows in fig. 1 are merely exemplary and do not represent communication connections that can be made only in the directions of the arrows.

In the embodiment of the present invention, the communication connection may be a wired connection, such as a USB bus, a CAN bus, a WLAN, or a wireless connection, such as WIFI, bluetooth, or the like.

Step 240, the third target device obtains the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

step 310, the first sample analyzer 110 receives the actual detection result sent by the second sample analyzer 120;

in step 320, the first sample analyzer 110 corrects the actual detection result according to the actual correction parameter.

In the above embodiment of the present invention, the actual detection result is corrected by the first sample analyzer 110, and the actual correction parameter is used to correct the actual detection result, so as to improve the accuracy of the detection result.

Fig. 4 is a flowchart illustrating a sample analysis method according to an embodiment of the invention, in which, as shown in fig. 4, the first sample analyzer 110 is communicatively connected to the second sample analyzer 120, and the third target device is the second sample analyzer 120.

Step 240, the third target device obtains the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

step 410, the second sample analyzer 120 receives the actual correction parameters sent by the first sample analyzer 110;

in step 420, the second sample analyzer 120 corrects the actual measurement result according to the actual correction parameter.

In other embodiments of the present invention, the instrument that obtains the actual correction parameter and the instrument that performs the correction may be the same, for example, the actual correction parameter is obtained at the second sample analyzer 120 and the correction is performed at the second sample analyzer 120. Of course, the apparatus for obtaining the actual correction parameter and the apparatus for performing the correction may be different, for example, the actual correction parameter is obtained on the data management device 140, the correction is performed on the laboratory information system 150, and the like, and the details are not described herein.

In another embodiment of the present invention, step 410, the second sample analyzer 120 receives the actual modified parameters sent by the first sample analyzer 110, including:

the second sample analyzer 120 sends a correction parameter obtaining request to the first sample analyzer 110 according to an actual detection result, where the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be detected, so that the first sample analyzer 110 obtains the actual correction parameter according to the identification code in the correction parameter request;

the second sample analyzer 120 receives the actual modified parameters sent by the first sample analyzer 110.

Specifically, fig. 5 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 5, the sample analysis method includes:

step 510, the second sample analyzer 120 obtains second detection data and/or actual detection results of the whole blood sample to be detected;

step 520, the second sample analyzer 120 sends a correction parameter obtaining request to the first sample analyzer 110, wherein the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be detected;

step 530, the first sample analyzer 110 obtains the actual correction parameters corresponding to the whole blood sample to be measured according to the identification code in the correction parameter request;

step 540, the first sample analyzer 110 sends the actual correction parameters to the second sample analyzer 120;

in step 550, the second sample analyzer 120 corrects the actual measurement result according to the actual correction parameter.

In the embodiment of the present invention, after the first sample analyzer 110 obtains the actual correction parameter, the actual correction parameter may be actively sent to the second sample analyzer 120 as in the embodiment shown in fig. 4, or in the embodiment shown in fig. 5, after the second sample analyzer 120 obtains the second detection data or the actual detection result, the actual correction parameter is requested from the first sample analyzer 110, and the first sample analyzer 110 sends the actual correction parameter to the second sample analyzer 120 according to the correction parameter obtaining request.

Fig. 6 is a schematic configuration diagram of a sample analysis system according to an embodiment of the present invention, and as shown in fig. 6, unlike the sample analysis system shown in fig. 1, the sample analysis system includes a data management device 140 in addition to the first sample analyzer 110, the second sample analyzer 120, and the sample transport device 190, and the first sample analyzer 110 and the second sample analyzer 120 are respectively connected to the data management device 140 in a communication manner. The sample analysis system shown in fig. 6 may further include a third sample analyzer 130, a laboratory information system 150, and the like. If desired, the sample analysis system of FIG. 6 may be communicatively coupled between the various instruments.

In fig. 6, communication connections are indicated by arrows, and the directions of the arrows in fig. 6 are merely exemplary and do not represent communication connections that can be made only in the directions of the arrows.

Fig. 7 is a flowchart of a sample analysis method according to an embodiment of the present invention, applied to the sample analysis system shown in fig. 6, where the third target device is the data management device 140 or the third sample analyzer 130, and as shown in fig. 7, step 240 is that the third target device obtains an actual detection result and/or an actual correction parameter and corrects the actual detection result according to the actual correction parameter, and includes:

step 710, the first sample analyzer 110 sends the actual correction parameter or the first detection data to the data management device 140 or the third sample analyzer 130, that is, the data management device 140 or the third sample analyzer 130 receives the actual correction parameter or the first detection data sent by the first sample analyzer 110;

step 720, the second sample analyzer 120 sends the second detection data or the actual detection result to the data management device 140 or the third sample analyzer 130, that is, the data management device 140 or the third sample analyzer 130 receives the second detection data or the actual detection result sent by the second sample analyzer 120;

in step 730, the data management device 140 or the third sample analyzer 130 corrects the actual detection result according to the actual correction parameter.

In this embodiment, if the first sample analyzer 110 sends the first detection data, the data management device 140 or the third sample analyzer 130 needs to obtain the actual correction parameter from the first detection data; if the second sample analyzer 120 transmits the second detection data, the data management device 140 or the third sample analyzer 130 needs to first obtain the actual detection result from the second detection data.

Fig. 8 is a flowchart of a sample analysis method according to an embodiment of the present invention, applied to the sample analysis system shown in fig. 6, where the third target device is the data management device 140 or the third sample analyzer 130, and as shown in fig. 8, step 240 is that the third target device obtains an actual detection result and/or an actual correction parameter and corrects the actual detection result according to the actual correction parameter, and includes:

step 810, the second sample analyzer 120 sends the second detection data or the actual detection result to the data management device 140 or the third sample analyzer 130;

step 820, the data management device 140 or the third sample analyzer 130 sends a correction parameter obtaining request to the first sample analyzer 110 according to the second detection data or the actual detection result, wherein the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be detected;

step 830, the first sample analyzer 110 obtains actual correction parameters corresponding to the whole blood sample to be measured according to the identification code in the correction parameter request;

step 840, the first sample analyzer 110 sends the actual correction parameters to the data management device 140 or the third sample analyzer 130, that is, the data management device 140 or the third sample analyzer 130 receives the actual correction parameters sent by the first sample analyzer 110;

in step 850, the data management device 140 or the third sample analyzer 130 corrects the actual detection result according to the actual correction parameter.

In this embodiment, in step 830, the first sample analyzer 110 may also obtain the first detection data according to the identification code in the correction parameter request, and in step 840, send the first detection data to the data management apparatus or the third sample analyzer 130. In this application scenario, the data management device 140 or the third sample analyzer 130 needs to obtain the actual correction parameters from the first detection data before step 850.

In the embodiment shown in fig. 7, the first sample analyzer 110 actively sends the actual calibration parameter to the data management device 140 or the third sample analyzer 130, and in the embodiment shown in fig. 8, the data management device 140 or the third sample analyzer 130 requests the actual calibration parameter from the first sample analyzer 110 according to the second detection data or the actual detection result.

In other embodiments of the present invention, the first sample analyzer 110 may actively send the first detection data to the data management device 140 or the third sample analyzer 130, and the data management device 140 or the third sample analyzer 130 obtains the actual correction parameter according to the first detection data. Or the data management device 140 or the third sample analyzer 130 requests the first detection data from the first sample analyzer 110 according to the second detection data or the actual detection result, and obtains the actual correction parameter according to the first detection data.

In the embodiment of the present invention, the data management device 140 may be in a software form, or a hardware integrated chip, etc. The data management device 140 may be located on an instrument in the sample analysis system, such as on the first sample analyzer 110 or the second sample analyzer 120, or may be located on a server/PC/terminal external to the sample analysis system.

The sample analysis system shown in fig. 6 further includes a laboratory information system 150, the first sample analyzer 110 and the second sample analyzer 120 are respectively connected to the data management device 140 in a communication manner, and the data management device 140 is connected to the laboratory information system 150 in a communication manner.

Fig. 9 is a flowchart of a sample analysis method according to an embodiment of the present invention, applied to the sample analysis system shown in fig. 6, where the third target device is a laboratory information system 150, as shown in fig. 9, and step 240, that is, the third target device obtains an actual detection result and/or an actual correction parameter and corrects the actual detection result according to the actual correction parameter, includes:

step 910, the first sample analyzer 110 sends the first detection data or the actual correction parameter to the laboratory information system 150 through the data management device 140, that is, the laboratory information system 150 receives the first detection data or the actual correction parameter sent by the first sample analyzer 110 through the data management device 140;

step 920, the second sample analyzer 120 sends the second detection data or the actual detection result to the laboratory information system 150 through the data management device 140, that is, the laboratory information system 150 receives the second detection data or the actual detection result sent by the second sample analyzer 120 through the data management device 140;

in step 930, the laboratory information system 150 corrects the actual detection result according to the actual correction parameter.

In other embodiments of the present invention, the first sample analyzer 110 and the second sample analyzer 120 can also directly send the respective detection results to the laboratory information system 150, so that the laboratory information system 150 can correct the actual detection results according to the actual correction parameters.

In this embodiment, if the first sample analyzer 110 sends the first detection data, the laboratory information system 150 needs to obtain the actual correction parameter from the first detection data; if the second sample analyzer 120 sends the second testing data, the laboratory information system 150 needs to first obtain the actual testing result from the second testing data.

Fig. 10 is a flowchart of a sample analysis method according to an embodiment of the present invention, applied to the sample analysis system shown in fig. 6, where the third target device is a laboratory information system 150, as shown in fig. 10, and step 240 is executed, that is, the third target device obtains an actual detection result and/or an actual correction parameter and corrects the actual detection result according to the actual correction parameter, and the method includes:

step 1010, the second sample analyzer 120 sends the second detection data or the actual detection result to the laboratory information system 150;

step 1020, the laboratory information system 150 sends a correction parameter acquisition request to the first sample analyzer 110 according to the second detection data or the actual detection result, wherein the correction parameter acquisition request includes an identification code corresponding to the whole blood sample to be detected;

step 1030, the first sample analyzer 110 obtains actual correction parameters corresponding to the whole blood sample to be measured according to the identification code in the correction parameter request;

step 1040, the first sample analyzer 110 sends the actual correction parameters to the laboratory information system 150;

in step 1050, the laboratory information system 150 corrects the actual detection result according to the actual correction parameters.

In the embodiment shown in fig. 9, the first sample analyzer 110 actively sends the actual correction parameter to the laboratory information system 150, and in the embodiment shown in fig. 10, the laboratory information system 150 requests the actual correction parameter from the first sample analyzer 110 according to the second detection data or the actual detection result.

In other embodiments of the present invention, the first sample analyzer 110 may alternatively actively send the first detection data to the laboratory information system 150, and the laboratory information system 150 obtains the actual correction parameter according to the first detection data; or the laboratory information system 150 requests the first detection data from the first sample analyzer 110 according to the second detection data, and obtains the actual correction parameter according to the first detection data.

In the embodiment of the present invention, the correction may also be performed in the third sample analyzer 130, that is, the first sample analyzer 110 and the second sample analyzer 120 are respectively in communication connection with the third sample analyzer 130, at this time, the first sample analyzer 110 transmits the first detection data or the actual correction parameter to the third sample analyzer 130, the second sample analyzer 120 transmits the actual detection result to the third sample analyzer 130, and the third sample analyzer 130 corrects the actual detection result according to the first detection data or the actual correction parameter.

In the embodiment of the invention, the correction of the actual detection result can be performed on a plurality of instruments in the sample analysis system, and if a certain instrument in the sample analysis system has a communication fault or is overloaded, other instruments can be selected to correct so as to correct the actual detection result in time.

In the embodiment of the present invention, the actual detection result may be corrected in the first sample analyzer 110, the second sample analyzer 120, the third sample analyzer 130, the data management device 140, or the laboratory information system 150.

In this embodiment of the present invention, after step 240, that is, after the third target device corrects the actual detection result, the method further includes:

the third target device displays the corrected actual detection result and/or the actual detection result before correction; and/or

And the third target device sends the corrected actual detection result and/or the actual detection result before correction to the fourth target device, so that the fourth target device displays the corrected actual detection result and/or the actual detection result before correction.

In an embodiment of the present invention, if the third target device is the first sample analyzer 110, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, so that the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, including:

the first sample analyzer 110 transmits the corrected actual detection result and/or the actual detection result before correction to the second sample analyzer 120, so that the display device of the second sample analyzer 120 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The first sample analyzer 110 transmits the corrected actual detection result and/or the actual detection result before correction to the third sample analyzer 130, so that the display device of the third sample analyzer 130 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The first sample analyzer 110 transmits the corrected actual test result and/or the actual test result before correction to the data management device 140 and/or the laboratory information system 150, so that the instrument provided with the data management device 140 and/or the laboratory information system 150 displays the corrected actual test result and/or the actual test result before correction.

That is, the fourth target device may be at least one of the second sample analyzer 120, the third sample analyzer 130, the data management device 140, and/or the laboratory information system 150.

Here, after the first sample analyzer 110 corrects the actual detection result, the first sample analyzer 110 may directly display the corrected actual detection result and the actual detection result before the correction, or may transmit the corrected actual detection result to at least one of the second sample analyzer 120, the third sample analyzer 130, the apparatus provided with the data management device 140 and/or the laboratory information system 150, so that the apparatus receiving the corrected actual detection result displays the corrected actual detection result and the actual detection result before the correction, wherein the actual detection result before the correction may be transmitted from the first sample analyzer 110 or the second sample analyzer 120 to at least one of the third sample analyzer 130, the apparatus provided with the data management device 140 and/or the laboratory information system 150.

Further, the user may select to send at least one of the corrected actual test result and the actual test result before the correction to the laboratory information system 150.

In another embodiment of the present invention, if the third target device is the second sample analyzer 120, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, and the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, including:

the second sample analyzer 120 transmits the corrected actual detection result and/or the actual detection result before correction to the first sample analyzer 110, so that the display device of the first sample analyzer 110 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The second sample analyzer 120 transmits the corrected actual detection result and/or the actual detection result before correction to the third sample analyzer 130, so that the display device of the first sample analyzer 130 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The second sample analyzer 120 transmits the corrected actual test result and/or the actual test result before the correction to the data management device 140 and/or the laboratory information system 150, so that the instrument provided with the data management device 140 and/or the laboratory information system 150 displays the corrected actual test result and/or the actual test result before the correction.

That is, after the second sample analyzer 120 corrects the actual detection result, the second sample analyzer 120 may directly display the corrected actual detection result and the actual detection result before correction, or may transmit the corrected actual detection result to at least one of the first sample analyzer 110, the third sample analyzer 130, the apparatus provided with the data management device 140 and/or the laboratory information system 150, so that the apparatus receiving the corrected actual detection result displays the corrected actual detection result and the actual detection result before correction, wherein the actual detection result before correction may be transmitted by the second sample analyzer 120 to at least one of the third sample analyzer 130, the apparatus provided with the data management device 140 and/or the laboratory information system 150.

In yet another embodiment of the present invention, if the first target device is the data management device 140, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, and the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, including:

the data management device 140 transmits the corrected actual detection result and/or the actual detection result before correction to the first sample analyzer 110, so that the display device of the first sample analyzer 110 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The data management device 140 transmits the corrected actual detection result and/or the actual detection result before correction to the second sample analyzer 120, so that the display device of the second sample analyzer 120 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The data management device 140 transmits the corrected actual detection result and/or the actual detection result before correction to the third sample analyzer 130, so that the display device of the third sample analyzer 130 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The data management device 140 transmits the corrected actual test result and/or the actual test result before correction to the laboratory information system 150 so that the instrument provided with the laboratory information system 150 displays the corrected actual test result and/or the actual test result before correction.

Similarly, the actual detection result before correction may be transmitted to at least one of the first sample analyzer 110, the third sample analyzer 130, and the laboratory information system 150 by the second sample analyzer 120 or the data management device 140.

In an embodiment of the present invention, if the first target device is a laboratory information system 150, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, and the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, including:

the laboratory information system 150 transmits the corrected actual detection result and/or the actual detection result before correction to the first sample analyzer 110, so that the display device of the first sample analyzer 110 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The laboratory information system 150 transmits the corrected actual detection result and/or the actual detection result before correction to the second sample analyzer 120, so that the display device of the second sample analyzer 120 displays the corrected actual detection result and/or the actual detection result before correction; and/or

The laboratory information system 150 transmits the corrected actual test result and/or the actual test result before correction to the third sample analyzer 130, so that the display device of the third sample analyzer 130 displays the corrected actual test result and/or the actual test result before correction; and/or

The laboratory information system 150 transmits the corrected actual test result and/or the actual test result before the correction to the data management device 140 so that the instrument provided with the data management device 140 displays the corrected actual test result and/or the actual test result before the correction.

In embodiments of the present invention, the instrument provided with the data management device 140 and/or the laboratory information system 150 may be a central control computer of the sample analysis system and/or other external devices communicatively connected to the first sample analyzer 110 and the second sample analyzer 120.

In embodiments of the present invention, the correcting the actual test result and displaying the corrected actual test result may be the same instrument in the sample analysis system, or may be different instruments in the sample analysis system. For example, the correction may be performed in the first sample analyzer 110, and the display may be performed in an apparatus provided with the data management device 140, which will not be described herein.

In other embodiments of the present invention, the actual detection result before the correction, the first detection data, the second detection data, and the like may also be displayed, and the display process shows that the actual detection result after the correction is the same or similar as above, which is not described herein again. And various results are displayed, so that the user can timely master relatively comprehensive information.

In the embodiment of the present invention, the data management device 140 may be disposed in the first sample analyzer 110, the second sample analyzer 120, or other devices, for example, the data management device 140 is disposed on the first sample analyzer 110, and in this case, the device provided with the data management device 140 is the first sample analyzer 110.

Fig. 1 and fig. 6 are schematic structural diagrams of a sample analysis system according to an embodiment of the present invention, where the sample analysis system includes: a first sample analyzer 110, a second sample analyzer 120, and a sample transport device; the sample conveying device is used for conveying a whole blood sample to be detected into the first sample analyzer 110 and the second sample analyzer 120 respectively for detection; the first sample analyzer 110 is a blood cell analyzer for detecting the whole blood sample to be detected so as to obtain blood conventional parameters, the second sample analyzer 120 is an analyzer for detecting the whole blood sample to be detected so as to obtain a detection result, the sample analysis system is configured to obtain first detection data of the whole blood sample to be detected on the first sample analyzer 110 and second detection data of the whole blood sample to be detected on the second sample analyzer 120, obtain actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data, obtain actual detection results corresponding to the whole blood sample to be detected according to the second detection data, and correct the actual detection results of the whole blood sample to be detected according to the actual correction parameters.

In the embodiment of the present invention, the first sample analyzer 110 in the sample analysis system is configured to obtain an actual correction parameter corresponding to the whole blood sample to be detected according to the first detection data; or

The first target device in the sample analysis system is configured to receive the first detection data sent by the first sample analyzer 110, and obtain the actual correction parameter corresponding to the whole blood sample to be measured according to the first detection data.

In the embodiment of the present invention, the second sample analyzer 120 in the sample analysis system is configured to obtain an actual detection result corresponding to the whole blood sample to be detected according to the second detection data; or

The second target device in the sample analysis system is configured to receive the second detection data sent by the second sample analyzer 120, and obtain an actual detection result corresponding to the whole blood sample to be detected according to the second detection data.

In an embodiment of the present invention, the third target device in the sample analysis system is configured to obtain the actual detection result and/or the actual modification parameter and modify the actual detection result according to the actual modification parameter.

In an embodiment of the present invention, the third target device in the sample analysis system is configured to display the corrected actual detection result;

the third target device in the sample analysis system is further configured to transmit the corrected actual detection result to a fourth target device, and the fourth target device is configured to display the corrected actual detection result.

The first target analysis device, the second target device, the third target device, and the fourth target device may be at least one of the first sample analyzer 110, the second sample analyzer 120, the third sample analyzer 130, the data management device 140, and the laboratory information system.

Second test data specifically, in the embodiment of the present invention, the second sample analyzer 120 may be configured to transmit the second test data to the first sample analyzer 110, so that the first sample analyzer 110 can correct the actual test result according to the actual correction parameter.

In an embodiment of the present invention, the first sample analyzer 110 may be configured to transmit the actual correction parameter to the second sample analyzer 120, so that the second sample analyzer 120 can correct the actual detection result according to the actual correction parameter.

In this embodiment of the present invention, the second sample analyzer 120 may be configured to send a correction parameter obtaining request to the first sample analyzer 110 according to the second detection data, where the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be detected; the first sample analyzer 110 is configured to transmit the actual correction parameter to the second sample analyzer 120 in response to transmitting the correction parameter acquisition request; the second sample analyzer 120 is further configured to receive the actual calibration parameter sent by the first sample analyzer 110 and to calibrate the second detection data based on the actual calibration parameter.

In an embodiment of the present invention, the sample analysis system may include a data management device 140, and the first sample analyzer 110 and the second sample analyzer 120 are respectively connected to the data management device 140 in a communication manner. In the embodiment of the present invention, the data management device 140 is configured to receive the actual correction parameter and the second detection configuration transmitted from the first sample analyzer 110 and the second sample analyzer 120 and correct the actual detection result according to the actual correction parameter.

In an embodiment of the present invention, the data management device 140 may be further specifically configured to receive second detection data sent by the second sample analyzer 120 and send a correction parameter obtaining request to the first sample analyzer 110 according to the second detection data, where the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be measured; the first sample analyzer 110 is configured to be able to transmit the actual correction parameter to the data management apparatus 140 in response to the transmission correction parameter acquisition request; the data management device 140 may be specifically configured to receive the actual correction parameter transmitted by the first sample analyzer 110 and correct the actual detection result according to the actual correction parameter.

In an embodiment of the present invention, the data management device 140 may further be communicatively connected to a laboratory information system 150, so as to send the actual modification parameters and the second detection data received from the first sample analyzer 110 and the second sample analyzer 120 to the laboratory information system 150, so as to perform modification on the laboratory information system 150.

In an embodiment of the present invention, the laboratory information system 150 may be further specifically configured to directly receive the first detection data or the actual correction parameter sent by the first sample analyzer 110 and the second detection data sent by the second sample analyzer 120, and correct the second detection data according to the actual correction parameter.

In an embodiment of the present invention, the first sample analyzer 110 may include a display device for displaying the corrected actual detection result and optionally displaying the actual detection result before correction; and/or the second sample analyzer 120 may comprise a display means for displaying the corrected actual test result and optionally the actual test result before correction; and/or the sample analysis system may comprise a third instrument with display means and provided with data management means 140 for displaying the corrected actual test result and optionally the actual test result before correction.

According to the sample analysis system provided by the embodiment of the invention, the actual detection result is corrected according to the actual correction parameter, so that the accuracy of the detection result can be improved.

The embodiment of the invention also provides a sample analysis method which is applied to the sample analysis system shown in FIG. 6.

Fig. 11 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 11, the sample analysis method includes:

step 1110, the data management device 140 obtains the corrected parameters of the whole blood sample to be measured;

step 1120, the data management device 140 obtains an actual detection result of the whole blood sample to be detected on the second sample analyzer 120;

in step 1130, the data management device 140 corrects the actual detection result according to the correction parameter.

In the embodiment of the invention, the data management device 140 is adopted to correct the actual detection, and other instruments in the sample analysis system do not need to be changed in software and hardware, so that the method has good compatibility and low cost.

In the embodiment of the present invention, the implementation sequence of step 1110 and step 1120 is not limited herein, and step 1110 may be implemented first and then step 1120 may be implemented, or step 1110 may be implemented after step 1120 is tried.

In an embodiment of the present invention, the corrected parameter of the whole blood sample to be measured may be an actual corrected parameter of the whole blood sample to be measured in the first sample analyzer 110. The actual detection result of the specific protein is corrected by using the actual correction parameter, so that the accuracy of the detection result can be improved. Of course, the correction parameter of the whole blood sample to be tested may also be a default correction parameter unrelated to the sample to be tested, especially a fixed set value. The default modification parameters may be pre-stored in the first or second sample analyzer or other instrument of the data management device or sample analysis system, or may be input by the user.

In the embodiment of the present invention, the specific types of the first sample analyzer 110 and the second sample analyzer 120 are as described in the above embodiments, and are not described herein again.

In this embodiment of the present invention, in step 1110, the acquiring, by the data management device 140, the corrected parameters of the whole blood sample to be measured may include:

the data management device 140 receives the actual correction parameters sent by the first sample analyzer 110;

the actual correction parameter is obtained by the first sample analyzer 110 according to first detection data, where the first detection data is detection data of the whole blood sample to be detected on the first sample analyzer 110.

In this embodiment of the present invention, in step 1110, the acquiring, by the data management device 140, the corrected parameters of the whole blood sample to be measured may include:

the data management device 140 receives first detection data of a whole blood sample to be detected sent by a first sample analyzer 110, wherein the first detection data is a detection result of the whole blood sample to be detected on the first sample analyzer 110;

and the data management device 140 acquires the actual correction parameter corresponding to the whole blood sample to be detected according to the first detection data.

In this embodiment of the present invention, in step 1120, the acquiring, by the data management device 140, an actual detection result of the whole blood sample to be detected may include:

the data management device 140 receives the actual detection result sent by the second sample analyzer 120;

the actual detection result is obtained by the second sample analyzer 120 according to second detection data, where the second detection data is detection data of the whole blood sample to be detected on the second sample analyzer 120.

In this embodiment of the present invention, in step 1120, the acquiring, by the data management device 140, an actual detection result of the whole blood sample to be detected may include:

the data management device 140 receives second detection data of the whole blood sample to be tested, which is sent by a second sample analyzer 120, wherein the second detection data is detection data of the whole blood sample to be tested on the second sample analyzer 120;

and the data management device 140 acquires an actual detection result corresponding to the whole blood sample to be detected according to the second detection data.

In the embodiment of the present invention, the first detection data and the second detection data are as described in the above embodiments, and are not described herein again. In the embodiment of the present invention, the data management device may directly obtain the actual correction parameter and the actual detection result, or obtain the actual correction parameter and the actual detection result after obtaining the first detection data and the second detection data.

In this embodiment of the present invention, in step 1110, the acquiring, by the data management device 140, the corrected parameters of the whole blood sample to be measured may include:

the data management device 140 sends a correction parameter obtaining request to the first sample analyzer 110 according to the received second detection data or actual detection result of the whole blood sample to be detected sent by the second sample analyzer 120, where the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be detected;

the data management device 140 receives first detection data of the whole blood sample to be tested sent by the first sample analyzer 110;

the data management device 140 obtains the actual correction parameter corresponding to the whole blood sample to be tested according to the first detection data.

In the embodiment of the present invention, the data management device 140 may receive the actual correction parameter actively sent by the first sample analyzer 110; or may receive the first detection data actively sent by the first sample analyzer 110 and obtain the actual correction parameter according to the first detection data.

Fig. 12 is a flow chart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 12, the method may include:

step 1210, the data management device 140 receives second detection data of the whole blood sample to be detected sent by the second sample analyzer 120;

step 1220, the data management device 140 sends a correction parameter obtaining request to the first sample analyzer 110, where the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be measured;

step 1230, the data management device 140 receives the first detection data of the whole blood sample to be detected sent by the first sample analyzer 110;

in step 1240, the data management device 140 obtains the actual correction parameter corresponding to the whole blood sample to be measured according to the first detection data.

Fig. 13 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 13, the method may include:

step 1310, the data management device 140 receives second detection data of the whole blood sample to be detected sent by the second sample analyzer 120;

step 1320, the data management device 140 sends a correction parameter obtaining request to the first sample analyzer 110, where the correction parameter obtaining request includes an identification code corresponding to the whole blood sample to be measured;

in step 1330, the data management device 140 receives the actual correction parameter sent by the first sample analyzer 110, where the actual correction parameter is obtained by the first sample analyzer 110 according to the first detection data of the whole blood sample to be detected.

In an embodiment of the present invention, the data management device 140 may actively request the first sample analyzer 110 for the actual correction parameter or the first detection data according to the second detection data, and correct the second detection data according to the actual correction parameter, thereby improving the accuracy of the specific protein detection result.

In the embodiment of the present invention, step 1110, in which the data management device 140 obtains the corrected parameters of the whole blood sample to be tested, as shown in fig. 14, may include:

at step 1410, the data management device 140 receives first test data of the whole blood sample to be tested from the first target instrument, the first test data being sent by the first sample analyzer 110 to the first target instrument;

step 1420, the data management device 140 obtains actual correction parameters of the whole blood sample to be detected according to the first detection data;

wherein the first target instrument is the second sample analyzer 120 or a third sample analyzer or a laboratory information system 150.

In the embodiment of the present invention, the method may include:

the data management device 140 receives actual corrected parameters of the whole blood sample to be tested from the first target instrument, the actual corrected parameters are obtained by the first target instrument according to the first detection data, and the first detection data are sent to the first target instrument by the first sample analyzer 110.

The first target instrument may be another instrument in the sample analysis system or another instrument outside the sample analysis system, and will not be described herein.

In an embodiment of the present invention, the first detection data and the actual correction parameter may be directly transmitted to the data management apparatus 140 by the first sample analyzer 110, or may be relayed to the data management apparatus 140 by another apparatus.

In embodiments of the present invention, the modified parameters may be input by a user, for example, at the second sample analyzer 120, and then sent to the data management device.

In the embodiment of the present invention, the data management device 140 may be in a software form, or a hardware integrated chip, etc. The data management device 140 may be provided on an instrument in the sample analysis system, such as on the first sample analyzer 110, the second sample analyzer 120, the third sample analyzer 130 of the sample analysis system, or on a central control computer of the sample analysis system, or may be provided on a server/PC/terminal outside the sample analysis system.

In this embodiment of the present invention, after the data management device 140 corrects the actual detection result according to the actual correction parameter, the method further includes:

the data management device 140 sends the corrected actual detection result and the actual detection result before correction to the first analyzer and/or other instruments of the sample analysis system and/or the laboratory information system, so that the display device of the first analyzer and/or the display device of the other instruments of the sample analysis system and/or the instrument provided with the laboratory information system displays the corresponding detection result.

In the embodiment of the invention, the other instrument can be a central control computer or an external display device or a third sample analyzer.

The corrected actual detection result is displayed, or the actual detection result before correction is displayed at the same time, so that different requirements of users can be facilitated, and the flexibility is higher. For example, synchronizing the actual second detection data corrected by the actual correction parameters to the second sample analyzer 120, the laboratory information system 150, or other devices can ensure that the data in the system are consistent, so that the consistency among the second sample analyzer 120, the data management device 140, and the laboratory information system 150 can be traced, and errors caused by manual modification can be avoided.

Corresponding to the sample analysis method, the embodiment of the present invention further provides a data management apparatus 140, which is applied to the sample analysis system shown in fig. 6.

Fig. 15 is a schematic structural diagram of a data management apparatus 140 according to an embodiment of the present invention, and as shown in fig. 15, the data management apparatus 140 includes:

a corrected parameter obtaining unit 1510, configured to obtain a corrected parameter of the whole blood sample to be measured;

an actual detection result obtaining unit 1520, configured to obtain an actual detection result of the whole blood sample to be detected on the second sample analyzer;

a correcting unit 1530, configured to correct the actual detection result according to the correction parameter, with the second detection data.

In the embodiment of the invention, the data management device 140 is adopted to correct the actual detection result of the second sample analyzer, and other instruments in the sample analysis system do not need to be changed in software and hardware, so that the method has good compatibility and low cost.

In the data management apparatus 140 according to the embodiment of the present invention, the corrected parameter of the whole blood sample to be tested may be an actual corrected parameter of the whole blood sample to be tested, which is obtained according to the detection result of the first sample analyzer. The actual detection result of the specific protein is corrected by using the actual correction parameter, so that the accuracy of the detection result can be improved.

In the data management apparatus 140 according to the embodiment of the present invention, the modified parameter obtaining unit 1510 is further configured to:

receiving actual correction parameters of the whole blood sample to be detected sent by the first sample analyzer 110;

the actual correction parameter is obtained by the first sample analyzer 110 according to first detection data, where the first detection data is detection data of the whole blood sample to be detected on the first sample analyzer 110.

In the data management apparatus 140 according to the embodiment of the present invention, the correction parameter obtaining unit is further configured to:

receiving first detection data of the whole blood sample to be detected, which is sent by a first sample analyzer 110, wherein the first detection data is detection data of the whole blood sample to be detected on the first sample analyzer 110;

and acquiring actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data.

In the data management apparatus 140 according to the embodiment of the present invention, the actual detection result obtaining unit is further configured to:

receiving the actual detection result sent by the second sample analyzer 120;

the actual detection result is obtained by the second sample analyzer 120 according to second detection data, where the second detection data is detection data of the whole blood sample to be detected on the second sample analyzer 120.

In the data management apparatus 140 according to the embodiment of the present invention, the actual detection result obtaining unit is further configured to:

receiving second detection data of the whole blood sample to be detected, which is sent by a second sample analyzer 120, wherein the second detection data is detection data of the whole blood sample to be detected on the second sample analyzer 120;

and acquiring an actual detection result corresponding to the whole blood sample to be detected according to the second detection data.

In the data management apparatus 140 according to the embodiment of the present invention, the modified parameter obtaining unit 1510 may be further configured to:

receiving second detection data of the whole blood sample to be detected sent by the second sample analyzer 120;

sending a correction parameter acquisition request to the first sample analyzer 110, wherein the correction parameter acquisition request includes an identification code corresponding to the whole blood sample to be detected;

receiving first detection data of the whole blood sample to be detected sent by the first sample analyzer 110;

and acquiring actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data.

In the data management apparatus 140 according to the embodiment of the present invention, the modified parameter obtaining unit 1510 may be further configured to:

receiving second detection data of the whole blood sample to be detected sent by the second sample analyzer 120;

sending a correction parameter acquisition request to a first sample analyzer 110, wherein the correction parameter acquisition request comprises an identification code corresponding to the whole blood sample to be detected;

and receiving the actual correction parameters sent by the first sample analyzer 110, wherein the actual correction parameters are obtained by the first sample analyzer 110 according to the first detection data of the whole blood sample to be detected.

In the data management apparatus 140 according to the embodiment of the present invention, the modified parameter obtaining unit 1510 may be further configured to:

receiving first test data of a whole blood sample to be tested from a first target instrument, the first test data being sent by a first sample analyzer 110 to the first target instrument;

acquiring actual correction parameters of the whole blood sample to be detected according to the first detection data;

wherein the first target instrument is the second sample analyzer 120 or a third sample analyzer or a laboratory information system 150.

In the data management apparatus 140 according to the embodiment of the present invention, the modified parameter obtaining unit 1510 may be further configured to: receiving actual corrected parameters of the whole blood sample to be tested from a first target instrument, the actual corrected parameters being obtained by the first target instrument according to the first detection data and being sent to the data management device 140, the first detection data being sent to the first target instrument by the first sample analyzer 110.

In the data management apparatus 140 according to the embodiment of the present invention, the data management apparatus 140 is disposed on the first sample analyzer 110, or disposed on the second sample analyzer 120, or disposed on the laboratory information system 150, or disposed on a terminal other than the sample analysis system.

In the data management device 140 according to the embodiment of the present invention, the correction parameter of the whole blood sample to be measured may be a default correction parameter. The default modification parameters may be pre-stored in the first or second sample analyzer or other instrument of the data management device or sample analysis system, or may be input by the user.

Fig. 16 is a diagram showing an internal structure of a computer device in one embodiment of the present invention. As shown in fig. 16, the computer apparatus includes a processor, a memory, a network interface, an input device, and a display screen connected through a system bus. Wherein the memory includes a non-volatile storage medium and an internal memory. The non-volatile storage medium of the computer device stores an operating system and may also store a computer program which, when executed by the processor, causes the processor to carry out the above-mentioned method. The internal memory may also have stored therein a computer program which, when executed by the processor, causes the processor to perform the method described above. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 16 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

The embodiment of the present invention further provides a sample analysis method, which is applied to a sample analysis system, and the sample analysis system is basically as shown in fig. 1, fig. 6 and the above, and is not described herein again. The difference is that the result output by the second sample analyzer is not the actual detection result, but a default detection result corrected by the default correction parameter.

Fig. 17 is a flowchart of a sample analysis method according to an embodiment of the present invention, and as shown in fig. 17, the sample analysis method includes:

step 1710, acquiring first detection data of the whole blood sample to be detected on the first sample analyzer 110;

step 1720, acquiring actual correction parameters of the whole blood sample to be detected according to the first detection data;

step 1730, acquiring a default detection result of the whole blood sample to be detected on the second sample analyzer, wherein the default detection result is a detection result corrected according to default correction parameters;

step 1740, obtaining an actual detection result of the whole blood sample to be detected on a second sample analyzer according to the default detection result and the default correction parameter;

and 1750, correcting the actual detection result according to the actual correction parameter.

In the embodiment of the present invention, the default detection result obtained in the second sample analyzer 120 is a detection result obtained by correcting the actual detection result according to the default parameter, but each sample is different, and the actual correction parameter of each sample is different. In addition, in the embodiment of the invention, the instrument, particularly the second sample analyzer, does not need to be changed in software and hardware, and the default detection result output by the current second sample analyzer is directly used for back calculation, so that the actual detection result is corrected according to the actual correction parameter, and the method has good compatibility and low cost.

In this embodiment of the present invention, in step 1720, that is, obtaining the actual correction parameter corresponding to the whole blood sample to be detected according to the first detection data includes:

the first sample analyzer 110 obtains actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data; or

The first target device receives the first detection data sent by the first sample analyzer 110, and obtains the actual correction parameter corresponding to the whole blood sample to be detected according to the first detection data.

In this embodiment of the present invention, in step 1730, the obtaining an actual detection result corresponding to the whole blood sample to be detected according to the default detection result includes:

the second sample analyzer 120 obtains an actual detection result corresponding to the whole blood sample to be detected according to a default detection result and a default correction parameter, wherein the default correction parameter is preset in the second sample analyzer or is input from the outside; or

The second target device receives the default detection result sent by the second sample analyzer 120, and obtains an actual detection result corresponding to the whole blood sample to be detected according to the default detection result and a default correction parameter, where the default correction parameter is from the second sample analyzer 120 or preset in the second target device.

In this embodiment of the present invention, in step 1740, the correcting the actual detection result according to the actual correction parameter includes:

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter.

In an embodiment of the present invention, the actual correction parameters may be obtained in the first sample analyzer 110, or may be obtained in other devices in the sample analysis system, or may even be obtained in other devices outside the sample analysis system.

In the embodiment of the present invention, the first sample analyzer 110 may actively obtain the actual correction parameter of the whole blood sample to be measured, or the correcting instrument may send an instruction to ask the first sample analyzer 110 for the actual correction parameter of the whole blood sample to be measured.

In an embodiment of the present invention, the third target device is different from the first target device, the third target device is different from the second target device,

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the third target device receives the actual correction parameters sent by the first target device or the first sample analyzer 110;

the third target device receives the actual detection result sent by the second target device or the second sample analyzer 120;

the third target device corrects the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device or a laboratory information system or a third sample analyzer.

In an embodiment of the present invention, the third target device is the same as the first target device, the third target device is different from the second target device,

the third target device obtaining the actual detection result and/or the actual correction parameter and correcting the actual detection result according to the actual correction parameter, including:

the third target device receives the actual detection result sent by the second target device or the second sample analyzer 120;

the third target device corrects the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device or a laboratory information system or a third sample analyzer.

In an embodiment of the present invention, the third target device is different from the first target device, the third target device is the same as the second target device,

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the third target device receives the actual correction parameters sent by the first target device or the first sample analyzer 110;

the third target device corrects the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device or a laboratory information system or a third sample analyzer.

In an embodiment of the invention, the third target device is identical to the first target device, the third target device is identical to the second target device,

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the third target device corrects the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device or a laboratory information system or a third sample analyzer.

In the embodiment of the present invention, the apparatuses for acquiring the actual correction parameter, the actual detection result, and the corrected actual detection result may be the same apparatus, or two of them may be acquired in the same apparatus, and the other one may be acquired in another apparatus, or all three may be acquired in different apparatuses.

In an embodiment of the present invention, the third target device is the first sample analyzer 110, and the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the first sample analyzer 110 receives the actual test result sent by the second target device or the second sample analyzer 120;

and the third target device corrects the actual detection result according to the actual correction parameter.

In an embodiment of the present invention, the third target device is a second sample analyzer 120,

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the second sample analyzer 120 receives the actual modified parameters sent by the first target device or the first sample analyzer 110;

the second sample analyzer 120 corrects the actual detection result according to the actual correction parameter.

In this embodiment of the present invention, after the third target device corrects the actual detection result, the method further includes:

the display device of the third target device displays the corrected actual detection result and/or the actual detection result before correction;

wherein the third target device is the first sample analyzer 110, or the second sample analyzer 120, or an instrument provided with a data management device or a laboratory information system, or a third sample analyzer.

In this embodiment of the present invention, after the third target device corrects the actual detection result, the method further includes:

the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, so that the fourth target device displays the corresponding detection result;

wherein the fourth target device is a first sample analyzer, or a second sample analyzer, or an instrument provided with a data management device or a laboratory information system, or a third sample analyzer; the fourth target device is different from the third target device.

In the embodiment of the invention, the corrected actual detection result can be displayed after the actual detection result is corrected, the actual detection result before the correction can be displayed, various intermediate data can be displayed, and the display device can be any device which can be displayed in the sample analysis system or outside the sample analysis system, so that more information can be provided for a client, and the satisfaction degree of the user is improved.

Fig. 18 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 18, the sample analysis method according to the embodiment of the present invention may include:

at step 1810, the second sample analyzer 120 sends the default test result to the first sample analyzer 110,

1820, the first sample analyzer 110 obtains an actual detection result according to the default detection result and the default correction parameter;

step 1830, the first sample analyzer 110 corrects the actual detection result according to the actual correction parameter.

In the embodiment of the present invention, the actual detection result is calculated back and the actual detection result is corrected by the first sample analyzer 110. The default modification parameters are pre-stored in the first sample analyzer 110 or sent to the first sample analyzer 110 by the second sample analyzer 120.

Fig. 19 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 19, the sample analysis method may include:

in step 1910, the second sample analyzer 120 sends the default test result to the first sample analyzer 110,

step 1920, the first sample analyzer 110 obtains an actual detection result according to the default detection result and the default correction parameter;

at step 1930, the first sample analyzer 110 sends the actual correction parameters and the actual detection results to the third target device,

step 1940, the third target device corrects the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device 140 or a laboratory information system 150 or a third sample analyzer 130, and the first sample analyzer 110 and the second sample analyzer 120 are communicatively connected with the third target device.

In the embodiment of the present invention, the back-calculation of the actual test result is performed on the first sample analyzer 110, and the correction of the actual test result is performed on the third target device, i.e., the data management device 140 or the laboratory information system 150 or the third sample analyzer 130.

Fig. 20 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 20, the sample analysis method may include:

step 2010, the second sample analyzer 120 sends the default detection result to the third target device;

step 2020, the third target device obtains an actual detection result according to the default detection result and the default modification parameter, wherein the default modification parameter may be stored in the third target device or may be sent to the third target device by the second sample analyzer;

step 2030, the first sample analyzer 110 sends the actual correction parameter to the third target device;

2040, correcting the actual detection result by the third target device according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device 140 or a laboratory information system 150 or a third sample analyzer 130, and the first sample analyzer 110 and the second sample analyzer 120 are communicatively connected with the third target device.

In this embodiment of the present invention, step 2020 and step 2030 may be performed simultaneously, or step 2020 is performed before step 2030, or step 2020 is performed after step 2030, which is not described herein again.

In the embodiment of the present invention, the back calculation of the actual detection result is performed on the third target device, and the correction of the actual detection result is also performed on the third target device, that is, the back calculation and the correction are both performed on the same device and are both performed on the third target device.

Fig. 21 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 21, the sample analysis method may further include:

step 2110, the second sample analyzer 120 sends the default detection result to the third target device;

step 2120, the third target device obtains an actual detection result according to the default detection result and the default correction parameter;

step 2130, the third target device sends an actual detection result to the fourth target device;

2140, the first sample analyzer 110 sends the actual correction parameter to a fourth target device;

step 2150, the fourth target device corrects the actual detection result according to the actual correction parameter;

the third target device is an instrument provided with a data management device 140 or a laboratory information system 150 or a third sample analyzer 130, the fourth target device is an instrument provided with a data management device 140 or a laboratory information system 150 or a third sample analyzer 130, the third target device is different from the third target device, and the first sample analyzer 110 and the second sample analyzer 120 are respectively connected with the third target device and the fourth target device in a communication manner.

In the embodiment of the present invention, the back calculation of the actual detection result is performed on the third target device, and the correction of the actual detection result is performed on the fourth target device, that is, the back calculation and the correction are performed on different instruments and are performed outside the first sample analyzer 110 and the second sample analyzer 120.

Fig. 22 is a flowchart illustrating a sample analysis method according to an embodiment of the present invention, and as shown in fig. 22, the sample analysis method includes:

step 2210, the second sample analyzer 120 sends the default detection result to a third target device;

step 2220, the third target device obtains an actual detection result according to the default detection result and the default correction parameter;

2230, the third target device sends the actual detection result to the first sample analyzer 110;

step 2240, the first sample analyzer 110 corrects the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument provided with a data management device 140 or a laboratory information system 150 or a third sample analyzer 130, and the first sample analyzer 110 and the second sample analyzer 120 are communicatively connected with the third target device.

In the embodiment of the present invention, the back calculation of the actual detection result is performed on the third target device, and the correction of the actual detection result is performed on the first sample analyzer 110, that is, the back calculation and the correction are not performed on the same instrument.

In the above embodiments of the present invention, the correction of the actual detection result may be performed by a plurality of instruments in the sample analysis system, or may be performed simultaneously, or may be performed sequentially according to the data transmission link. In the embodiment of the invention, if a certain instrument in the sample analysis system has communication failure or is overloaded, other instruments can be selected to correct so as to correct the actual detection result in time.

Corresponding to the sample analysis method, an embodiment of the present invention further provides a sample analysis system, which is shown in fig. 1 and 6, and includes: the sample analysis system includes a first sample analyzer 110, a second sample analyzer 120, and a sample transport device; the sample conveying device is used for conveying a whole blood sample to be detected into the first sample analyzer 110 and the second sample analyzer 120 respectively for detection; the first sample analyzer 110 is a blood cell analyzer for detecting the whole blood sample to be detected to obtain a blood routine detection result, and the second sample analyzer 120 is an analyzer for detecting the whole blood sample to be detected to obtain a corresponding detection result; the sample analysis system is configured to obtain first detection data of a whole blood sample to be detected on a first sample analyzer 110, obtain actual correction parameters of the whole blood sample to be detected according to the first detection data, obtain default detection results of the whole blood sample to be detected on a second sample analyzer 120, wherein the default detection results are detection results corrected according to the default correction parameters, obtain actual detection results of the whole blood sample to be detected on the second sample analyzer 120 according to the default detection results and the default correction parameters, and correct the actual detection results according to the actual correction parameters.

In the embodiment of the present invention, the first sample analyzer 110 is configured to obtain an actual correction parameter corresponding to a whole blood sample to be detected according to first detection data; or

The first target device of the sample analysis system is configured to receive the first detection data transmitted from the first sample analyzer 110, and acquire the actual correction parameter corresponding to the whole blood sample to be measured based on the first detection data.

In an embodiment of the present invention, the second sample analyzer 120 is configured to obtain an actual detection result corresponding to a whole blood sample to be detected according to a default detection result and a default modification parameter, where the default modification parameter is preset in the second sample analyzer or is input from the outside; or

The second target device of the sample analysis system is configured to receive a default detection result sent by the second sample analyzer 120, and obtain an actual detection result corresponding to the whole blood sample to be detected according to the default detection result and a default modification parameter, where the default modification parameter is from the second sample analyzer 120 or preset in the second target device.

In an embodiment of the present invention, the third target device of the sample analysis system is configured to obtain the actual detection result and/or the actual modification parameter and modify the actual detection result according to the actual modification parameter.

In an embodiment of the present invention, the display device of the third target device is configured to be capable of displaying the actual detection result after the correction and/or the actual detection result before the correction;

wherein the third target device is the first sample analyzer 110, or the second sample analyzer 120, or an instrument provided with a data management device or a laboratory information system, or a third sample analyzer.

In an embodiment of the present invention, the second sample analyzer 120 may be configured to send the default detection result to the first sample analyzer 110, so that the first sample analyzer 110 can obtain the actual detection result according to the default detection result and the default modification parameter, and modify the actual detection result according to the actual modification parameter.

Specifically, in the embodiment of the present invention, the second sample analyzer 120 may be further configured to send a default detection result to the first sample analyzer 110, so that the first sample analyzer 110 can obtain an actual detection result according to the default detection result and the default correction parameter and send the actual detection result and the actual correction parameter to the third target device, so that the third target device can correct the actual detection result according to the actual correction parameter;

wherein the third target device is an instrument or a third sample analyzer provided with a data management device 140 or a laboratory information system 150, and the first sample analyzer 110 and the second sample analyzer 120 are in communication connection with the first target instrument.

In the embodiment of the present invention, the second sample analyzer 120 is further configured to send the default detection result to the third target device, so that the third target device can obtain the actual detection result according to the default detection result and the default correction parameter;

the first sample analyzer 110 may be further configured to send the actual modification parameter to a third target device, so that the third target device modifies the actual detection result according to the actual modification parameter;

wherein the third target device is an instrument or a third sample analyzer provided with a data management device 140 or a laboratory information system 150, and the first sample analyzer 110 and the second sample analyzer 120 are in communication connection with the first target instrument.

In an embodiment of the present invention, the second sample analyzer 120 may be further configured to send a default detection result to the second target device, so that the second target device can obtain an actual detection result according to the default detection result and the default modification parameter and send the actual detection result to the third target device;

the first sample analyzer 110 may be further configured to send the actual modification parameter to the second target instrument so that the third target device modifies the actual detection result according to the actual modification parameter;

the second target device is an instrument or a third sample analyzer provided with the data management device 140 or the laboratory information system 150, the third target device is different from the second target device, and the first sample analyzer 110 and the second sample analyzer 120 are respectively in communication connection with the second target device and the third target device.

In this embodiment of the present invention, the second sample analyzer 120 may be further configured to send the default detection result to the second target device, so that the second target device obtains the actual detection result according to the default detection result and the default modification parameter and sends the actual detection result to the first sample analyzer 110;

the first sample analyzer 110 may be further configured to modify the actual detection result according to the actual modification parameter;

wherein the second target device is an instrument provided with a data management device 140 or a laboratory information system 150 or a third sample analyzer, and the first sample analyzer 110 and the second sample analyzer 120 are communicatively connected with the second target device.

In the embodiment of the present invention, the first sample analyzer 110 includes a display device for displaying the corrected actual detection result; and/or

The second sample analyzer 120 includes a display device for displaying the corrected actual detection result; and/or

The sample analysis system comprises further equipment with display means and provided with data management means 140 for displaying the corrected actual test results.

Wherein the other device is the second sample analyzer 120, the data management device 140, the laboratory information system 150, or a third sample analyzer, and the first sample analyzer 110 is communicatively connected to the other device.

In an embodiment of the present invention, the actual correction parameter may be hematocrit HCT or hematocrit BCV.

In the sample analysis system of the embodiment of the invention, the actual detection result can be corrected by adopting the actual correction parameters without improving the software and hardware of the original second sample analyzer and the like, so that the compatibility can be improved, the cost can be reduced, and the accuracy of the detection result can be improved.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The features mentioned above in the description, the drawing and the claims can be combined with one another in any desired manner, provided they are meaningful and not mutually inconsistent within the context of the invention. The features and advantages described for the sample analysis method according to the invention apply in a corresponding manner to the sample analysis system according to the invention and vice versa.

The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (21)

1. A sample analysis method applied to a sample analysis system, the sample analysis system including a first sample analyzer, a second sample analyzer and a sample conveying device, the sample conveying device being used for conveying a whole blood sample to be detected into the first sample analyzer and the second sample analyzer respectively for detection, the first sample analyzer being a blood cell analyzer for detecting the whole blood sample to be detected to obtain a blood routine detection result, the second sample analyzer being an analyzer for detecting the whole blood sample to be detected to obtain a corresponding detection result, the sample analysis method comprising:

acquiring first detection data of a whole blood sample to be detected on the first sample analyzer and second detection data on the second sample analyzer;

acquiring actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data;

acquiring an actual detection result corresponding to the whole blood sample to be detected according to the second detection data;

and correcting the actual detection result according to the actual correction parameter.

2. The method of claim 1, wherein obtaining the actual correction parameter corresponding to the whole blood sample to be tested based on the first test data comprises:

the first sample analyzer acquires actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data; or

And the first target device receives first detection data sent by the first sample analyzer, and acquires actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data.

3. The method of claim 1 or 2, wherein obtaining the actual test result corresponding to the whole blood sample to be tested according to the second test data comprises:

the second sample analyzer acquires an actual detection result corresponding to the whole blood sample to be detected according to the second detection data; or

And the second target device receives second detection data sent by the second sample analyzer, and acquires an actual detection result corresponding to the whole blood sample to be detected according to the second detection data.

4. A method according to any one of claims 1 to 3, wherein said modifying the actual detection result based on the actual modification parameter comprises:

the third target device acquires the actual detection result and/or the actual correction parameter and corrects the actual detection result according to the actual correction parameter.

5. The method of claim 4, wherein the third target device is the first sample analyzer, the third target device obtaining actual detection results and/or actual correction parameters and correcting actual detection results according to actual correction parameters, comprising:

the first sample analyzer receives the actual detection result sent by the second sample analyzer;

and the first sample analyzer corrects the actual detection node according to the actual correction parameter.

6. The method of claim 4, wherein the third target device is the second sample analyzer, the third target device obtaining actual detection results and/or actual correction parameters and correcting the actual detection results according to the actual correction parameters, comprising:

the second sample analyzer receives the actual correction parameters sent by the first sample analyzer;

and the second sample analyzer corrects the actual detection result according to the actual correction parameter.

7. The method of claim 6, wherein the second sample analyzer receives the actual modified parameters sent by the first sample analyzer, comprising:

the second sample analyzer sends a correction parameter acquisition request to the first sample analyzer according to an actual detection result, wherein the correction parameter acquisition request comprises an identification code corresponding to the whole blood sample to be detected, so that the first sample analyzer acquires the actual correction parameter according to the identification code in the correction parameter request;

and the second sample analyzer receives the actual correction parameters sent by the first sample analyzer.

8. The method of claim 4, wherein the sample analysis system comprises a data management device or a third sample analyzer, the third target device is the data management device or the third sample analyzer,

the third target device obtains an actual detection result and/or an actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the data management device or the third sample analyzer receives the actual detection result sent by the second sample analyzer;

the data management device or the third sample analyzer receives the actual correction parameter sent by the first sample analyzer;

and the data management device or the third sample analyzer corrects the actual detection result according to the actual correction parameter.

9. The method of claim 8, wherein the data management device or the third sample analyzer receiving the actual modified parameters sent by the first sample analyzer comprises:

the data management device or the third sample analyzer sends a correction parameter acquisition request to the first sample analyzer according to the actual detection result, wherein the correction parameter acquisition request comprises an identification code corresponding to the whole blood sample to be detected, so that the first sample analyzer acquires the actual correction parameter corresponding to the whole blood sample to be detected according to the identification code in the correction parameter request;

the data management device or the third sample analyzer receives the actual correction parameter sent by the first sample analyzer.

10. The method of claim 4, wherein the sample analysis system includes a data management device, the third target device is a laboratory information system,

the third target device acquires an actual detection result and/or an actual correction parameter and corrects the actual detection result according to the actual correction parameter, including:

the laboratory information system receives the actual correction parameters sent by the first sample analyzer through the data management device;

the laboratory information system receives the actual detection result sent by the second sample analyzer through the data management device;

and the laboratory information system corrects the actual detection result according to the actual correction parameter.

11. The method of any of claims 4 to 9, wherein after the third target device modifies the actual detection result, the method further comprises:

the third target device displays the corrected actual detection result and/or the actual detection result before correction; and/or

And the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, so that the fourth target device displays the corrected actual detection result and/or the actual detection result before correction.

12. The method of claim 11, wherein if the third target device is the first sample analyzer, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, and the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, comprising:

the first sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to the second sample analyzer, so that a display device of the second sample analyzer displays the corrected actual detection result and/or the actual detection result before correction; and/or

And the first sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to a data management device and/or a laboratory information system, so that an instrument provided with the data management device and/or the laboratory information system displays the corrected actual detection result and/or the actual detection result before correction.

13. The method of claim 11, wherein if the third target device is the second sample analyzer, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, and the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, comprising:

the second sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to the first sample analyzer, so that a display device of the first sample analyzer displays the corrected actual detection result and/or the actual detection result before correction; and/or

And the second sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to a data management device and/or a laboratory information system, so that an instrument provided with the data management device and/or the laboratory information system displays the corrected actual detection result and/or the actual detection result before correction.

14. The method of claim 11, wherein if the first target device is a data management device or a third sample analyzer, the third target device sends the corrected actual detection result and/or the actual detection result before correction to a fourth target device, and the fourth target device displays the corrected actual detection result and/or the actual detection result before correction, comprising:

the data management device or the third sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to the first sample analyzer, so that a display device of the first sample analyzer displays the corrected actual detection result and/or the actual detection result before correction; and/or

The data management device or the third sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to the second sample analyzer, so that a display device of the second sample analyzer displays the corrected actual detection result and/or the actual detection result before correction; and/or

And the data management device or the third sample analyzer sends the corrected actual detection result and/or the actual detection result before correction to a laboratory information system, so that an instrument provided with the laboratory information system displays the corrected actual detection result and/or the actual detection result before correction.

15. The method of any one of claims 1 to 14, wherein the second sample analyzer is a specific protein analyzer, a glycated hemoglobin analyzer, a hemagglutination analyzer, a sedimentation analyzer, or a flow cytometry analyzer.

16. The method according to any one of claims 1 to 15, wherein the actual correction parameter is hematocrit HCT or hematocrit BCV.

17. A sample analysis system, comprising: a first sample analyzer, a second sample analyzer, and a sample transport device;

the sample conveying device is used for conveying a whole blood sample to be detected to the first sample analyzer and the second sample analyzer respectively for detection;

the first sample analyzer is a blood corpuscle analyzer used for detecting the whole blood sample to be detected so as to obtain blood conventional parameters, the second sample analyzer is an analyzer used for detecting the whole blood sample to be detected so as to obtain corresponding detection results,

the sample analysis system is configured to obtain first detection data of a whole blood sample to be detected on the first sample analyzer and second detection data of the whole blood sample to be detected on the second sample analyzer, obtain actual correction parameters corresponding to the whole blood sample to be detected according to the first detection data, obtain actual detection results corresponding to the whole blood sample to be detected according to the second detection data, and correct the actual detection results of the whole blood sample to be detected according to the actual correction parameters.

18. The sample analysis system of claim 17, wherein the first sample analyzer of the sample analysis system is configured to obtain the actual calibration parameter corresponding to the whole blood sample to be tested based on the first measurement data; or

The first target device in the sample analysis system is configured to receive first detection data sent by the first sample analyzer, and acquire actual correction parameters corresponding to the whole blood sample to be measured according to the first detection data.

19. The sample analysis system according to claim 17 or 18, wherein the second sample analyzer of the sample analysis system is configured to obtain an actual measurement result corresponding to the whole blood sample to be measured based on the second measurement data; or

And the second target device in the sample analysis system is configured to receive second detection data sent by the second sample analyzer, and obtain an actual detection result corresponding to the whole blood sample to be detected according to the second detection data.

20. The sample analysis system according to any one of claims 17 to 19, wherein a third target device in the sample analysis system is configured to obtain the actual detection result and/or the actual modification parameter and modify the actual detection result based on the actual modification parameter.

21. The sample analysis system of any of claims 17-20, wherein the third target device in the sample analysis system is configured to display the modified actual test result;

the third target device in the sample analysis system is further configured to transmit the corrected actual detection result to a fourth target device, and the fourth target device is configured to display the corrected actual detection result.

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