CN114689888A - Batch testing method and device and sample analyzer - Google Patents

Abstract

The invention provides a batch testing method, a batch testing device and a sample analyzer. The verification strategy is adopted to test the test resources after the test resources are checked, so that the test resources can be comprehensively and reliably checked before the test is issued and executed, the test is ensured to be carried out smoothly, the method is suitable for test work of various scales, the operation burden of a control system is relieved, and the timeliness and the reliability are good.

Description

Batch testing method and device and sample analyzer

Technical Field

The invention relates to the technical field of tests and evaluation, in particular to a batch test method and device based on consumable balance verification and a sample analyzer.

Background

In the process of testing, it is necessary to ensure that the quantity of consumables required by a test project can smoothly complete the test, such as reagents, reaction cups, tip heads and the like required by the test project, if the test is directly performed without confirming the consumable allowance, the risk that the test cannot be smoothly performed is very high, the validity and reliability of the test result are slightly affected, for example, if the quantity of the reagents is insufficient, the test result may be distorted, the test rework is seriously caused, and the manpower, material resources and time resources are extremely wasted, which is a principle that great attention needs to be paid in the field of performing the test project.

However, in the actual application, because a user often inputs a plurality of samples in batch or even performs a plurality of experimental projects once instead of inputting test information according to a single sample, the detection method has great limitations, and in the face of this situation, if the consumable remaining amount is detected in a sample-by-sample manner, the operation load of a control system of the analyzer is undoubtedly increased, and the test takes a long time.

Disclosure of Invention

In order to solve the above problems, the present invention provides a batch testing method, including:

a task list creating step, wherein a corresponding task list to be tested is created and stored according to the test requirement;

a pre-test checking step, namely performing primary checking and secondary checking on the current test resource according to the task list to be tested and a set strategy respectively, and performing a test execution step after the checking result meets the set checking standard;

and a test execution step, namely issuing the task list to be tested, calling a corresponding test execution platform to execute each task to be tested based on the matched test resources, and completing the test of the batch of tasks to be tested.

In a preferred embodiment, the pre-assay verification step comprises:

before the to-be-tested list is issued to the test execution platform, whether the current test resources meet the first-level check standard or not is judged based on data in the to-be-tested task list, and when the allowance and the state of all the test resources meet set conditions, the current test resources are judged to meet the first-level check standard and pass the first-time check.

Further, in an embodiment, when there is a test resource whose margin or state does not satisfy the set condition, it is determined that the current test resource does not satisfy the primary check standard, and a secondary check is further performed to determine whether the test resource satisfies the set secondary check standard by:

calling a test resource which does not meet a set condition based on a result of the primary check;

judging whether the test resources which do not meet the set conditions contain preset necessary test resource information or not; if not, determining that the test resource meets the secondary verification standard.

In one embodiment, the pre-assay verifying step further comprises:

when the test resource is determined to meet the set secondary verification standard, outputting test execution inquiry information containing the verification result of the current test resource to a user, and performing a test execution step after receiving a matched user response;

and the checking result comprises the allowance information and the state information of the current testing resource.

In an optional embodiment, in the task list creating step, the method includes:

receiving the identification information of the sample to be detected, which is added by the user;

and setting the test task parameters of the batch of tasks to be tested based on the identification information of the samples to be tested, selecting corresponding items, and completing the creation of a task list to be tested.

In an optional embodiment, in the task list creating step, after the effective identification information of the sample to be tested is scanned and identified, the laboratory information system is used to request the corresponding task item information to be tested based on the scanned identification information of the sample to be tested, and the task list to be tested matched with the item information is automatically generated.

In an optional embodiment, in the task list creating step, the method further includes:

and acquiring a set format text which is imported from a set terminal or platform and is matched with the identification information of the sample to be detected, and taking the text as a task list to be detected.

The present invention also provides a storage medium, which stores program codes for implementing the method according to any one or more of the above embodiments, based on the method according to any one or more of the above embodiments.

In accordance with another aspect of any one or more of the above embodiments, the present invention also provides a batch test apparatus for performing the method as described in any one or more of the above embodiments.

The present invention also provides a sample analysis instrument comprising a batch test apparatus as described in any one or more of the embodiments above, the apparatus being controlled to operate to perform a method as described in any one or more of the embodiments above.

Compared with the closest prior art, the invention also has the following beneficial effects:

the invention provides a batch testing method, which comprises the steps of firstly establishing a corresponding task list to be tested according to test requirements, and performing two-level check on all related test resources according to a set check strategy before issuing the task list to be tested.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart illustrating a batch test method according to an embodiment of the present invention;

FIG. 2 is a detailed diagram of the execution of a batch test method according to another embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a batch test apparatus according to an embodiment of the present invention.

Detailed Description

The following detailed description will be provided for the embodiments of the present invention with reference to the accompanying drawings and examples, so that the practitioner of the present invention can fully understand how to apply the technical means to solve the technical problems, achieve the technical effects, and implement the present invention according to the implementation procedures. It should be noted that, unless otherwise conflicting, the embodiments and features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are all within the scope of the present invention.

During testing, it is necessary to ensure the amount and effectiveness of resources required by the test items. The consumable materials are, for example, reagents, reaction cups, tip heads and the like required by the test project, if the test is carried out without confirming the allowance of the consumable materials, the test is supposed to be inevitably carried out smoothly, and the validity and reliability of the test result are influenced if the allowance of the consumable materials is not confirmed, for example, if the amount of the consumable materials is insufficient, the test result may be distorted, the test rework is caused if the amount of the consumable materials is insufficient, the manpower, material resources and time resources are extremely wasted, and the principle that much attention is required in the field of carrying out the test project is provided.

Commercially available products exist for detecting consumable balance, see for example CN106596983A, which discloses a way to detect consumable balance on a sample-by-sample basis. However, this detection method has a great limitation because a user does not always input test information in a single sample, but may input detection information of a plurality of samples in a batch. In this case, if the consumable supply allowance is detected on a sample-by-sample basis, the operation load of the control system of the analyzer will be increased.

In order to solve the above problems, the present invention provides a batch testing method and apparatus, and various embodiments of the present invention are described below with reference to the accompanying drawings.

Example one

Fig. 1 is a schematic flow chart illustrating a batch testing method according to an embodiment of the present invention, and as can be seen from fig. 1, the method includes the following steps.

A task list creating step, wherein a corresponding task list to be tested is created according to the test requirement and is stored;

a pre-test checking step, namely performing primary checking and secondary checking on the current test resource according to the task list to be tested and a set strategy respectively, and performing a test execution step after the checking result meets the set checking standard;

and a test execution step, namely issuing the task list to be tested, calling a corresponding test execution platform to execute each task to be tested based on the matched test resources, completing the test of the batch of tasks to be tested, and ending the current operation. In the actual operation process, the platform for formally executing the test is selected by the tester according to the actual requirement, and usually, the middle computer platform and/or the lower computer platform execute the corresponding test according to the received test task list.

It should be noted that the present invention does not limit the execution sequence of the above steps, and in different embodiments of the present invention, the execution sequence of each step may be adjusted according to actual needs, and furthermore, the above steps may also be executed synchronously if conditions allow.

Fig. 2 shows an execution detailed diagram of the batch test method in the embodiment of the present invention, as shown in fig. 2, in the embodiment of practical application, in the task list creating step, the task list to be tested may be created in any one of the following manners:

a1. receiving the identification information of the sample to be detected, which is added by a user independently;

setting test task parameters of the batch of tasks to be tested based on the identification information of the samples to be tested, selecting corresponding items, and completing the creation of a task list to be tested, wherein the test task parameters comprise: batch number, repetition times, test type, sample tube type, sample position, dilution type and dilution multiple; the task list to be tested may be understood as a task to be executed by the middle level computer, and the task list to be tested may include sample information, test items (such as myocardium and nail function tests) to which the sample is to be subjected, and times for which the test is to be repeated (for example, whether the same sample needs to be repeatedly tested, and whether the test information is equally applicable to a plurality of subsequent samples), where the staff may set identification information of the sample to be tested according to an actual test requirement, and is not limited to the sample number here.

In practical application, after a user manually adds a sample number, the batch number, the repetition times, the test type, the sample tube type, the sample position, the dilution type and the multiple setting are completed, and the manual task list to be tested is created after the items are selected; it should be noted that the test task parameters in this step may be adjusted according to actual test requirements, and this is not particularly limited in this application.

a2. After effective identification information of the sample to be detected is scanned and identified, a laboratory information system is utilized to request corresponding task item information to be detected based on the scanned identification information of the sample to be detected, and a task list to be detected matched with the item information is automatically generated; the method mainly comprises two stages, namely scanning sample identification and LIS matching, and in specific application, after a sample number is scanned, if a current LIS communication configuration item is in an open state, automatically requesting project information of a task list to be tested from an LIS system, and automatically generating a task list to be tested matched with the project information after matching is successful; the method of the embodiment can automatically create the task list to be tested, is simple to operate and good in timeliness, and can quickly complete the creation of the test task list for the task containing a plurality of test items.

a3. The method comprises the steps of obtaining a set format text which is led in from a set terminal or platform and matched with identification information of a sample to be tested, using the set format text as a task list to be tested, leading a file with a fixed format into the task list to be tested through the set terminal or platform, namely creating the task list to be tested in a default leading-in mode, leading the file with the fixed format into the task list to be tested, and completing creation of the task list to be tested.

In practical application, the currently created task list to be tested can be saved to the test list, and at this time, a formal test execution task is not issued yet.

In practical applications, a control System of the chemiluminescence analyzer is generally divided into an upper computer and a middle computer, the upper computer is used for being connected with a Laboratory Information System (Laboratory Information System LIS) and receiving and sending Information to be tested, and the middle computer is used for executing a specific testing process. And the upper computer generates a task list to be tested according to the test information or the user input information received from the LIS and sends the task list to be tested to the middle computer. And the central computer dispatches each component according to the task list to be tested to finish the testing step.

By using the control mode of the chemiluminescence analyzer, before the middle computer formally generates the current test execution task, the method firstly judges whether the test resources related to the tasks to be tested in the current batch can meet the requirements of smoothly executing various tests, and if so, confirms to generate the test execution task and sends the test execution task to the middle computer. After a task list to be tested is created and stored, according to consumable item historical records and test task records stored in an upper computer of a chemiluminescence analyzer, whether consumable item surplus such as a reaction cup, a reagent, lotion and the like is enough to complete all tests submitted at this time is checked when the task list to be tested is submitted, if yes, the task list to be tested is confirmed to be effective, and after submission information is received, the task list to be tested is issued to a middle computer to generate a formal test execution task and is implemented; and if not, not allowing the task list to be tested to be submitted, and issuing an execution test.

Generally, the use of consumables is confirmed and the consumable history is updated after one test is completed. Therefore, if there is a test task to be performed or not performed, it is necessary to determine consumable supply allowance information in conjunction with the test task record.

Therefore, in the pre-assay verification step, the method comprises the following steps: before the to-be-tested list is issued to the test execution platform, whether the current test resources meet the first-level check standard or not is judged based on data in the to-be-tested task list, when the allowance and the state of all the test resources meet set conditions, the current test resources meet the first-level check standard is judged, and through the one-time check, the test resources can be set to comprise test consumables and test instruments related to each test task in the to-be-tested task list in practical application; the test consumable comprises reagents of corresponding items in a task list to be tested, universal liquid, sample diluent, purified water and washing liquid, and the test instrument comprises tools related to the samples or the reagents in the test process and tools of generated waste materials. The purpose of performing the one-time check is to check all resources required by the current batch of tasks to be tested, and according to the execution data of the historical test, the following items which may influence the progress and the test result of the test are summarized:

(1) whether all reagents of the items contained in the task list to be tested submitted at this time are effectively calibrated or not;

(2) whether the residual amounts of the reagent, the general solution and the sample diluent are enough to complete all tests contained in the task list to be tested submitted at this time;

(3) whether reagents, general solutions and sample diluents used by items contained in the task list to be tested, which is submitted at this time, have a calibrated validity period or an out-of-bottle validity period;

(4) whether the purified water and the washing liquid are sufficient;

(5) whether the current waste reaction cup, waste Tip and waste liquid are full;

therefore, in order to ensure the comprehensiveness of one check to the maximum extent, in a preferred embodiment, the invention provides that the test consumable comprises: reagents of projects contained in the task list to be detected, general liquid, sample diluent, purified water and washing liquid; setting up the test fixture includes: a waste reaction cup pool, a waste Tip pool and a waste liquid pool.

The above list is only for the understanding of the present application and should not be interpreted as a specific limitation of consumables or resources.

Further, in an embodiment, in the pre-test checking step, performing a check on the test consumables of the current batch of tasks to be tested once includes performing the following operations, and when all the check results are yes, determining that the test consumables satisfy the first-level check standard:

checking whether all reagents of items contained in the task list to be tested are in an effective calibration state;

checking whether the balance of the reagent, the universal solution, the sample diluent, the purified water and the washing solution is enough to complete the test task of the current batch;

and checking whether the states of the reagent, the universal liquid and the sample diluent are the uncalibrated effective period or the decapping effective period.

Specifically, in one embodiment, performing a check on the test instruments of the current batch of tasks to be tested once includes performing the following operations, and when all the check results are yes, determining that the test instruments meet the first-level check standard:

checking whether the quantity and the state information of the test instruments which cannot be covered in the conventional test items are correct or not;

and verifying whether the available capacity states of the waste reaction cup pool, the waste Tip pool and the waste liquid pool meet set conditions.

When the test consumables and the test instruments meet the first-level check standard, the test resources are indicated to pass the check, all test tasks contained in the submitted task list to be tested are sent to the central computer, and the test is formally executed; otherwise, the test consumables and the appliances are further checked for the second time. It should be noted that different operations in the above-mentioned one-time verification are not limited by a specific execution sequence, and may be executed sequentially according to a set sequence according to actual requirements (e.g. test time), or may be executed partially or all at the same time.

In a preferred embodiment, when there are test consumables and appliances whose remaining amount or state does not satisfy the set condition, it is determined that the current test consumables and appliances do not satisfy the primary verification standard, and a secondary verification is further performed by determining whether the test consumables and appliances satisfy the set secondary verification standard by:

calling test consumables and appliances which do not meet set conditions based on the result of the primary check;

judging whether the test consumables and the appliances which do not meet the set conditions contain preset necessary consumable information or necessary appliance information; if not, determining that the test consumables and the appliances meet the secondary verification standard.

In practical application, selecting result information which does not meet the primary verification standard in the primary verification result, judging whether the result information contains information except that the reagent, the general liquid and the sample diluent have the calibrated validity period or the decapping validity period, if not, judging that the current test consumable and the test instrument meet the secondary verification standard, starting a test execution inquiry step, outputting corresponding test execution inquiry information to field or remote workers, and performing the test execution step after receiving a matched set response to finish the test of the task to be tested in the batch.

The purpose of performing the secondary verification in the embodiment of the present invention is to determine whether information that does not satisfy the primary verification standard includes non-negligible necessary consumable part or appliance information, where the non-negligible information refers to information that can be determined by a user to directly affect the actual performance of the test, and information that does not directly affect the test result is negligible information. In practical application, the reagent, the general solution and the sample diluent do not belong to the information that the valid period of the uncalibrated liquid or the valid period of the opened bottle is negligible, and the information except the uncalibrated liquid and the uncalibrated liquid is necessary consumable information and necessary instrument information.

Specifically, if the current test consumables and appliances meet the set secondary verification standard, it indicates that there are no necessary consumables and appliances that do not meet the test requirements in the current test consumables and appliances, at this time, test execution inquiry information including verification results and information of consumables and appliances that do not meet the test requirements is output to the user in a visual manner, so that the user determines whether to continue to execute the test, and after receiving a positive response from the user, the test is executed formally.

It should be noted that, based on the method provided in any one or more of the above embodiments, the present invention further provides a storage medium, on which a program code for implementing the method in any one or more of the above embodiments is stored.

By adopting the technical scheme of the invention, on the basis of effectively realizing the pre-test inspection of the test resources, compared with the comparison file, the inspection operation which is more flexible and more matched with the actual operation of a user is realized, so that the running process of the inspection of the consumables is more reliable and smoother, and the high-efficiency execution of a single item or a plurality of items of visual inspection test tasks is facilitated.

Example two

In accordance with another aspect of any one or more of the above embodiments, the present invention further provides a batch test apparatus, which performs the method of any one or more of the above embodiments. Specifically, fig. 3 is a schematic structural diagram of a mechanism of a batch test apparatus according to an embodiment of the present invention, and as shown in the drawing, the apparatus includes:

and the task list creating module 31 is configured to create a corresponding task list to be tested according to the test requirement.

The pre-test checking module 33 is configured to perform primary checking and secondary checking on the current test resource according to the task list to be tested and a set strategy respectively, and perform a test execution step when a checking result meets a set checking standard;

and the test execution module 37 is configured to receive the issued task list to be tested, and invoke the corresponding test execution platform to execute each task to be tested based on the matched test consumables and the matched appliances, so as to complete the test of the batch of tasks to be tested.

In a preferred embodiment, the pre-test check module 33 is configured to:

before the list to be tested is issued to the test execution platform, whether the current test consumables and appliances meet the first-level check standard or not is judged based on data in the task list to be tested, and when the allowance and the state of all the test consumables and the appliances meet the set conditions, the current test consumables and the appliances are judged to meet the first-level check standard and pass the first-time check.

In one embodiment, when there are test consumables and appliances whose remaining amount or state does not satisfy the set condition, it is determined that the current test consumables and appliances do not satisfy the primary verification standard, and the pre-test verification module 33 further performs a secondary verification by determining whether the test consumables and appliances satisfy the set secondary verification standard by:

calling test consumables and appliances which do not meet set conditions based on the result of the primary check;

judging whether the test consumables and the appliances which do not meet the set conditions contain preset necessary consumable information or necessary appliance information; if not, determining that the test consumables and the appliances meet the secondary verification standard.

Further, in one embodiment, the pre-test check module 33 is further configured to:

when the test consumable and the appliance are determined to meet the set secondary verification standard, outputting test execution inquiry information containing the current test consumable and appliance verification results to a user, and performing a test execution step after receiving a matched user response;

and the checking result comprises residual amount information and state information of the current test consumables and appliances.

In one embodiment, the task list creation module 31 may complete the creation of the test task list by:

receiving the identification information of the sample to be detected, which is added by the user;

and setting the test task parameters of the batch of tasks to be tested based on the identification information of the samples to be tested, selecting corresponding items, and completing the creation of a task list to be tested.

In one embodiment, the task list creation module 31 may complete the creation of the test task list by:

after effective identification information of the sample to be detected is scanned and identified, the corresponding task item information to be detected is requested by utilizing a laboratory information system based on the scanned identification information of the sample to be detected, and a task list to be detected matched with the item information is automatically generated.

In an embodiment, the task list creating module 31 may further complete the creation of the test task list by:

and acquiring a set format text which is imported from a set terminal or platform and is matched with the identification information of the sample to be detected, and taking the text as a task list to be detected.

Specifically, in one embodiment, the test consumable comprises: reagents of projects contained in the task list to be detected, general liquid, sample diluent, purified water and washing liquid;

the test fixture includes: test instruments and, spent cuvette wells, spent Tip wells and waste liquid wells that are not covered in conventional test items.

Further, in an embodiment, the pre-test verification module 33 is configured to perform the following operations to perform a verification on the test consumables of the current batch of tasks to be tested, and when all the verification results are yes, determine that the test consumables satisfy the first-level verification standard:

checking whether all reagents of items contained in the task list to be tested are in an effective calibration state;

checking whether the balance of the reagent, the universal solution, the sample diluent, the purified water and the washing solution is enough to complete the test task of the current batch;

and checking whether the states of the reagent, the universal liquid and the sample diluent are the uncalibrated effective period or the decapping effective period.

In one embodiment, the pre-test verification module 33 is configured to perform the following operations to perform a verification on the test instruments of the current batch of tasks to be tested, and when all the verification results are yes, determine that the test instruments satisfy the first-level verification criterion:

checking whether the quantity and the state information of the test instruments which cannot be covered in the conventional test items are correct or not;

and verifying whether the available capacity states of the waste reaction cup pool, the waste Tip pool and the waste liquid pool meet set conditions.

In one embodiment, the secondary verification module 35 is configured to perform the following operations to implement the secondary verification:

selecting result information which does not meet the primary verification standard in the primary verification result, judging whether the result information contains preset necessary consumable material information or necessary appliance information, setting information except that the reagent, the general liquid and the sample diluent do not belong to the uncalibrated effective period or the decapping effective period to be necessary consumable material information and necessary appliance information during actual application, and judging that the current test consumable material and the test instrument meet the secondary verification standard if the result information which does not meet the primary verification standard does not contain necessary consumable material information or necessary appliance information.

In the batch test device provided by the embodiment of the invention, each module or unit structure can independently operate or operate in a combined manner according to the requirements in practical test application, so that the corresponding technical effect is realized.

Supplementary notes

The invention also provides a sample analysis instrument, which comprises the batch test device in any one or more of the embodiments, and the batch test is realized by controlling the operation of the batch test device.

It is to be understood that the disclosed embodiments of the invention are not limited to the particular structures, process steps, or materials disclosed herein but are extended to equivalents thereof as would be understood by those ordinarily skilled in the relevant arts. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting.

Reference in the specification to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the invention. Thus, appearances of the phrase "an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment.

Although the embodiments of the present invention have been described above, the above descriptions are only for the convenience of understanding the present invention, and are not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (11)

1. A method of batch testing, the method comprising:

a task list creating step, wherein a corresponding task list to be tested is created according to the test requirement;

a pre-test checking step, namely performing primary checking and secondary checking on the current test resource according to the task list to be tested and a set strategy respectively, and performing a test execution step after the checking result meets the set checking standard;

and a test execution step, namely issuing the task list to be tested, calling a corresponding test execution platform to execute each task to be tested based on the matched test resources, and completing the test of the batch of tasks to be tested.

2. The method of claim 1, wherein said pre-assay verifying step comprises:

before the to-be-tested list is issued to the test execution platform, whether the current test resources meet the first-level check standard or not is judged based on data in the to-be-tested task list, and when the allowance and the state of all the test resources meet set conditions, the current test resources are judged to meet the first-level check standard and pass the first-time check.

3. The method of claim 2, wherein when there is a test resource whose margin or status does not satisfy the set condition, determining that the current test resource does not satisfy the primary verification criterion, and further performing a secondary verification to determine whether the test resource satisfies the set secondary verification criterion by:

calling a test resource which does not meet a set condition based on a result of the primary check;

judging whether the test resources which do not meet the set conditions contain preset necessary test resource information or not; if not, determining that the test resource meets the secondary verification standard.

4. The method of any one of claims 1 to 3, wherein the pre-assay step further comprises:

when the test resource is determined to meet the set secondary verification standard, outputting test execution inquiry information containing the verification result of the current test resource to a user, and performing a test execution step after receiving a matched user response;

and the checking result comprises the allowance information and the state information of the current testing resource.

5. The method of claim 1, wherein in the task list creation step, comprising:

receiving the identification information of the sample to be detected, which is added by a user independently;

and setting the test task parameters of the batch of tasks to be tested based on the identification information of the samples to be tested, selecting corresponding items, and completing the creation of a task list to be tested.

6. The method of claim 1, wherein in the task list creation step, comprising:

after effective identification information of the sample to be detected is scanned and identified, the corresponding task item information to be detected is requested by utilizing a laboratory information system based on the scanned identification information of the sample to be detected, and a task list to be detected matched with the item information is automatically generated.

7. The method of claim 1, wherein in the task list creation step, further comprising:

and acquiring a set format text which is imported from a set terminal or platform and is matched with the identification information of the sample to be detected, and taking the text as a task list to be detected.

8. A storage medium having stored thereon program code for implementing the method of any one of claims 1 to 7.

9. A batch test apparatus, characterized in that the apparatus performs the method according to any one of claims 1 to 7.

10. A sample analysis instrument comprising an apparatus as claimed in claim 9, performing a method as claimed in any one of claims 1 to 7.

11. The sample analysis instrument of claim 10, wherein the sample analysis instrument is a chemiluminescent analysis instrument.

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