CN111398611A - Sample detection time estimation method and device, sample analyzer and storage medium - Google Patents

Abstract

The embodiment of the invention discloses a sample detection time estimation method, a sample detection time estimation device, a sample analyzer and a storage medium, wherein the method comprises the following steps: obtaining sample information of a target sample, wherein the sample information comprises test item information of the target sample; calculating the predicted time for completing the test of the target sample; outputting the predicted test completion time of the target sample; wherein the calculating the time at which the target sample is expected to complete the test comprises: calculating the waiting time required by the target sample from the current moment to the beginning of sample suction; calculating the on-machine detection time from sample suction to completion of the test items in the test item information of the target sample; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to finish the test. The embodiment of the invention can accurately estimate the time for completing the test of the target sample by the method, and is convenient for a user to judge whether the time for completing the test of the target sample can meet the required requirement.

Description

Sample detection time estimation method and device, sample analyzer and storage medium

Technical Field

The embodiment of the invention relates to in-vitro diagnosis medical equipment, in particular to a sample detection time estimation method and device, a sample analyzer and a storage medium.

Background

A biochemical immunoassay analyzer is generally composed of an analysis module, a sample processing system, operating software and the like. The analysis module is used for analyzing the analytes in serum, plasma and other human body fluids. The sample processing system mainly has the functions of inputting, dispatching, transmitting, positioning and recovering the sample rack and the automatic identification function of the bar code information of the sample rack and the sample tube. The operation software automatically completes the data input and output of the analyzer, the result evaluation, the quality control and the like.

The sample is tested on a biochemical immunoassay analyzer and the final result is obtained over a sample turnaround time, i.e., the time taken between two designated points in the process before, after, and after the test. Currently, users usually use the sample turn-around time as the estimated time for sample detection, and when the sample turn-around time is a statistical result based on a large sample set of data, it is usually larger than the detection time of most samples or even all samples, which makes it difficult for users to review the detection report at the first time and to perform treatment on patients according to the detection report of samples at the first time.

In summary, it is necessary to provide a method for estimating the sample detection time, so as to provide the user with accurate time for predicting the completion of the sample detection.

Disclosure of Invention

The embodiment of the invention provides a sample detection time estimation method and device, a sample analyzer and a storage medium, aiming at solving the problem that the prior art cannot provide accurate sample estimation time for completing test.

In a first aspect, an embodiment of the present invention provides a method for estimating a sample detection time, which is applied to a sample analyzer, and includes:

obtaining sample information of a target sample, wherein the sample information comprises test item information of the target sample;

calculating the predicted time for completing the test of the target sample;

outputting the predicted test completion time of the target sample;

wherein the calculating the time at which the target sample is expected to complete the test comprises:

calculating the waiting time required by the target sample from the current moment to the beginning of sample suction;

calculating the on-machine detection time from sample suction to completion of the test items in the test item information of the target sample;

and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to finish the test.

In a second aspect, an embodiment of the present invention further provides a sample detection time estimation apparatus, which is applied to a sample analysis system, and the apparatus includes:

the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring sample information of a target sample, and the sample information comprises test item information of the target sample;

the processing module is used for calculating the predicted time for completing the test of the target sample;

the output module is used for outputting the predicted time for completing the test of the target sample;

the processing module is specifically used for calculating the waiting time required by the target sample from the current moment to the beginning of sample suction; calculating the on-machine detection time of the target sample from sample suction to completion of the test items in the test item information according to the test item information; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test.

In a third aspect, an embodiment of the present invention further provides a sample analyzer, including:

the sample sucking module is used for sucking a target sample;

the detection module is used for carrying out detection analysis on the target sample;

the system comprises an input module, a processing module and a processing module, wherein the input module is used for obtaining sample information of a target sample, and the target sample information comprises test item information of the sample;

the processing module is used for calculating the waiting time required by the sample sucking module to start sample sucking of the target sample from the current moment; calculating the on-machine detection time of the test item from the sample suction module to the sample suction of the target sample to the detection module to finish the target sample according to the test item information; calculating the sum of the waiting time and the on-machine detection time to obtain the predicted time for completing the test of the target sample;

an output module for outputting the predicted time to complete the test on an output interface.

In a fourth aspect, embodiments of the present invention further provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform the method for estimating a sample detection time according to the first aspect.

The technical scheme of the sample detection time estimation method provided by the embodiment of the invention is applied to a sample analyzer and comprises the steps of obtaining sample information of a target sample, wherein the sample information comprises test item information of the target sample; calculating the predicted time for completing the test of the target sample; outputting the predicted test completion time of the target sample; wherein calculating the expected test completion time of the target sample comprises: calculating the waiting time required by the target sample from the current moment to the beginning of sample suction; calculating the on-machine detection time from sample suction to detection result of the target sample; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test. Compared with the sample turnaround time in the prior art, the time for each sample to be predicted to complete the test can be determined quickly and accurately, and accurate data support can be provided for a user to determine the sample detection process, the detection report auditing time and the detection report handling time.

Drawings

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

FIG. 1 is a flowchart illustrating a method for estimating a sample detection time according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for calculating an expected test completion time of a target sample according to an embodiment of the present invention;

FIG. 3 is a flowchart of a sample detection time estimation method according to a second embodiment of the present invention;

fig. 4 is a block diagram of a sample detection time estimation apparatus according to a third embodiment of the present invention;

fig. 5 is a block diagram of a sample analyzer according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described through embodiments with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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 invention.

Example one

Fig. 1 is a flowchart of a method for estimating a sample detection time according to an embodiment of the present invention. The method can be executed by the sample detection time estimation device provided by the embodiment of the invention, and the device can be realized in a software and/or hardware mode and is configured to be applied in a processing module of a sample analysis system. The method specifically comprises the following steps:

s101, obtaining sample information of the target sample, wherein the sample information comprises test item information of the target sample.

For a sample analyzer, such as a biochemical analyzer or an immunoassay analyzer, before detecting a target sample, sample information of the target sample is generally acquired, and the sample information may include a sample identifier or a sample number of the target sample, a sample detection item, a sample type, and the like. The sample analyzer may obtain sample information in a variety of ways, such as: reading a sample identifier of a target sample through a code scanning device, so as to obtain sample information bound by the sample identifier; or acquiring a sample identifier input by a user on an input interface, thereby acquiring sample information bound by the sample identifier; or acquiring a target sample selected by a user in the sample information list so as to acquire sample information corresponding to the target sample; or the user manually selects or applies for sample information at the input interface.

The sample information usually includes test item information of the sample, such as five items of hepatitis b, four items of preoperative items, and the like. For clinical samples, the sample information typically also contains sample type information used to characterize the sample priority, such as emergency samples and general samples. Whether the sample is an emergency sample or a common sample, before the sample analyzer is used for analyzing the sample, the sample analyzer usually needs to apply a test on a sample analysis system, and after the sample analysis system obtains the test application information of the sample, the sample analysis system controls a sample introduction system to enable the sample applying the test to enter a sample introduction flow, namely a sample sequencing flow, wherein the sample analysis system comprises the sample analyzer. Since the priority of the emergency samples is generally higher than that of the normal samples, that is, except for the test samples, the emergency samples in the sample injection process are sorted before the normal samples, that is, the emergency samples are scheduled, aspirated and detected preferentially. In addition, the emergency treatment samples or the common samples with the same priority are sorted according to the time sequence.

Therefore, after the sample analyzer acquires the sample information of the target sample, the sequencing condition of the target sample at the current moment can be determined according to the acquired other samples which are injected in advance and the sample information of the target sample. It can be understood that, if the target sample is a normal sample, the sample to be tested and the sample being tested that are sequenced before the target sample may be an emergency sample or a normal sample that is injected first; if the target sample is an emergency sample, the sample to be tested sequenced before the target sample can be an emergency sample of prior injection and a sample undergoing a sample aspiration or test, and the sample undergoing a sample aspiration or test can be an emergency sample or a common sample.

And S102, calculating the predicted test completion time of the target sample.

After the current sequencing condition and the test items of the target sample are determined, the time for completing the test of the target sample can be estimated according to the current sequencing condition and the test item information of the target sample. Considering that the sample analyzer cannot perform the sample sucking and detecting on the target sample immediately when the number of samples is large, and therefore it usually needs to wait for a period of time to perform the test on the target sample, as shown in fig. 2, in the embodiment of the present invention, calculating the time (S102) when the target sample is expected to complete the test specifically includes:

s1021, calculating the waiting time required by the target sample from the current moment to the beginning of sample suction;

when a sample analyzer detects and analyzes a target sample, the sample analyzer generally needs to suck the target sample, inject the sucked sample into a reaction container, add a corresponding reagent according to a detection item, perform on-machine detection and analysis on a mixed solution of the sample and the reagent, and obtain a detection result. If there are other samples before the target sample, such as the sample being subjected to sample suction (which may be a normal sample or an emergency sample), and other emergency samples to be tested that have previously applied for testing or have been previously introduced, it is necessary to wait for the samples to be subjected to sample suction before the target sample is subjected to sample suction, and then perform sample suction on the target sample, so that the sample suction time of the sample to be subjected to sample suction before the target sample is subjected to sample suction needs to be calculated as the waiting time.

It can be understood that, if there are samples to be tested that are not drawn before the target sample and samples that are being drawn before the target sample at the current time, the waiting time at this time includes the time from the current time to the completion of the drawing of the drawn sample and the time for the completion of the drawing of other samples to be tested that have higher priority than the target sample, so the sum of the time for the drawing of the sample at the drawn sample and the time for the completion of the drawing of other samples to be tested that are sorted before the current time needs to be calculated to obtain the waiting time for the target sample to be drawn from the current time to the start of the drawing of the target sample. Taking the emergency sample as an example, the time for completing the sample suction of the previous sample to be tested can be understood as the time for completing the sample suction of the emergency sample compared with the time for completing the sample suction of the emergency sample previously injected by the target sample.

And S1022, calculating the on-machine detection time from sample suction to completion of the test item in the test item information of the target sample.

Generally, for an automated sample analyzer, the testing time of each test item is relatively fixed, and the time required from sample suction to completion of the corresponding test item can be obtained through statistics of historical data, and can also be obtained according to parameters such as the testing speed of the analyzer and the like. Therefore, the present embodiment may determine the test items of the target sample according to the test item information of the target sample, and then calculate the time required by the target sample from the start of sample sucking to the completion of the several test items. One specific method may be to calculate the testing time required for each test item, and then add the testing times required for all the test items to obtain the on-machine testing time from sample suction to detection of the target sample.

And S1023, calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test.

After the waiting time of the target sample and the on-machine detection time are determined, the sum of the waiting time and the on-machine detection time can be calculated, and the sum is used as the time when the target sample is predicted to complete the test.

And S103, outputting the predicted test completion time of the target sample.

After the predicted testing completion time of the target sample is determined, the predicted testing completion time can be output to an output interface, so that a user can determine the treatment mode of the target sample according to the predicted testing completion time.

In order to enable a user to obtain the latest state of the target sample in real time, the sample analyzer outputs the real-time state of the target sample at the output interface while outputting the time of the target sample predicted to complete the test, such as the current time sequence of the target sample, the sample sucking process, the on-machine detection and analysis process, the result output process, and the like.

It will be appreciated that the time to completion is expected to be based on expected time data from the current operating state of the sample analyzer, and that if the operating state of the sample analyzer changes, the time to completion is expected to change. For this reason, the present embodiment updates the time and the latest status of the target sample, which are expected to complete the test, in real time according to the operating status of the sample analyzer.

The technical scheme of the sample detection time estimation method provided by the embodiment of the invention is applied to a sample analyzer and comprises the steps of obtaining sample information of a target sample, wherein the sample information comprises test item information of the target sample; calculating the predicted time for completing the test of the target sample; outputting the predicted test completion time of the target sample; wherein calculating the expected test completion time of the target sample comprises: calculating the waiting time required by the target sample from the current moment to the beginning of sample suction; calculating the on-machine detection time of the target sample from sample suction to completion of the test item in the test item information; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test. Compared with the sample turnaround time in the prior art, the time for each sample to be predicted to complete the test can be determined quickly and accurately, so that accurate data support can be provided for a user to determine the sample detection process, the detection report auditing time and the detection report handling time.

Example two

Fig. 3 is a flowchart of a sample detection time estimation method according to a second embodiment of the present invention. On the basis of the above embodiment, the embodiment of the present invention further includes a timeout reminding step, including:

s101, obtaining sample information of the target sample, wherein the sample information comprises test item information of the target sample.

And S102, calculating the predicted test completion time of the target sample.

And S103, outputting the predicted test completion time of the target sample.

The specific implementation of the foregoing steps can be seen in the foregoing embodiments, which are not described herein.

And S1041, comparing the time of the target sample for completing the test with a preset time threshold.

Since the emergency samples are usually from patients with urgent diseases, many hospitals set a short preset time threshold for them, such as two hours, that is, the emergency samples must be tested within two hours. In order to facilitate the control of the sample detection time, the sample analyzer compares the expected test completion time of the target sample with a preset time threshold value after obtaining the expected test completion time of the target sample, so that a user can determine the treatment mode of the target sample according to the comparison result.

As can be understood, regarding the setting of the preset time threshold, after obtaining the sample information of the target sample, the user can separately input the preset time threshold of the target sample on the input interface; the preset time threshold value can also be set for a certain sample type or a sample of each sample type through the input interface, so that the sample analyzer can determine the preset time threshold value of the sample after determining the sample type of the sample according to the sample information, and automatically compare the time of the obtained sample for predicting the test completion with the preset time threshold value.

And S1042, if the predicted time for completing the test is greater than the preset time threshold, outputting overtime prompt information.

And if the predicted test completion time of the target sample is greater than the preset time threshold, outputting overtime prompt information on a display interface so that a user can determine the treatment mode of the target sample according to the overtime prompt information. The overtime prompt information may be one or a combination of several of the difference between the time of the expected completion of the test and the preset time threshold, color identification prompt information, sound prompt information, and flashing prompt information, or may be other prompt modes.

In order to improve the convenience of sample detection and analysis, the sample analyzer of this embodiment prompts the user to input or select a preset timeout sample processing mode while or after outputting the prompt information, and then processes the target sample according to the preset timeout sample processing mode input or selected by the user. If the preset overtime sample processing mode is as follows: the target sample is not sucked and tested, then the sample analyzer dispatches the target sample to the recovery area, and at the moment, the user can select to use other sample analyzers to detect the target sample; if the preset overtime sample processing mode is as follows: and continuing to suck and detect the target sample, the sample analyzer monitors and outputs the current state of the target sample in real time, such as current sequencing, sample sucking, on-machine detection and analysis, a result and the like.

It can be understood that the user may also set a preset time threshold and a preset timeout sample processing mode on the input interface while or before the target sample is placed in the sample analyzer, so that the sample analyzer automatically compares the time of completing the test with the preset time threshold after obtaining the time of completing the test, and processes the target sample according to the preset timeout sample processing mode when the time of completing the test is greater than the preset time threshold. It can also be understood that a user may set a plurality of preset time thresholds, and set a corresponding preset timeout sample processing manner for each preset time threshold, so that the sample analyzer may determine a maximum preset time threshold that is exceeded by the time expected to complete the test, and process the target sample using the preset timeout sample processing manner corresponding to the maximum preset time threshold.

The time for finishing the expected test of the target sample can be reminded to the user to be more than the preset time threshold value through the overtime reminding information, the sample analyzer can automatically carry out corresponding treatment on the overtime sample through the preset overtime sample treatment mode, and the convenience of sample management and test is greatly improved.

EXAMPLE III

Fig. 4 is a block diagram of a sample detection time estimation apparatus according to a third embodiment of the present invention. The device is used for executing the sample detection time estimation method provided by any of the above embodiments, and the device can be implemented by software or hardware. The device includes:

the acquisition module 11 is configured to acquire sample information of a target sample, where the sample information includes test item information of the target sample;

a processing module 12, configured to calculate a time for the target sample to be expected to complete the test;

the output module 13 is used for outputting the predicted time for completing the test of the target sample;

the processing module 12 is specifically configured to calculate a waiting time required by the target sample from a current time to start sample suction; calculating the on-machine detection time of the target sample from sample suction to completion of the test item in the test item information according to the test item information; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test.

The processing module 12 of this embodiment is further configured to obtain the number of samples to be sampled before the target sample, and calculate the sample drawing time required for the samples to be drawn before the target sample, so as to obtain the waiting time required from the current time to the sample drawing module starting to draw the target sample.

If the target sample is an emergency sample, the processing module 12 is further configured to determine whether a sample is currently aspirated and whether a first-injected emergency sample exists; if the sample is sucked and the emergency sample is fed in advance, the processing module is further used for calculating the sum of the sample sucking time required by the sample sucked and the sample sucking time required by the emergency sample fed in advance so as to obtain the waiting time required by the target sample from the current moment to the beginning of sample sucking.

The processing module is further used for comparing the time of the target sample predicted to finish the test with a preset time threshold value, and controlling the output module to output overtime prompt information when the time of the target sample predicted to finish the test is larger than the preset time threshold value.

The technical scheme of the sample detection time estimation device provided by the embodiment of the invention is arranged in a sample analysis system, and sample information of a target sample is obtained through an obtaining module, wherein the sample information comprises test item information of the target sample; calculating the predicted time for completing the test of the target sample through the processing module; outputting the time of the target sample predicted completion test through an output module; the processing module is specifically configured to calculate the expected test completion time of the target sample, and includes: calculating the waiting time required by the target sample from the current moment to the beginning of sample suction according to the test item information; calculating the on-machine detection time of the target sample from sample suction to the completion of the test items in the test item information; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test. Compared with the sample turnaround time in the prior art, the time for each sample to be predicted to complete the test can be determined quickly and accurately, so that accurate data support can be provided for a user to determine the sample detection process, the detection report auditing time and the detection report handling time.

The sample detection time estimation device provided by the embodiment of the invention can execute the sample detection time estimation method provided by any embodiment of the invention, has corresponding functional modules and beneficial effects of the execution method, and is not repeated herein.

Example four

Fig. 5 is a block diagram of a sample analyzer according to a fourth embodiment of the present invention. The sample analyzer includes: the device comprises a sample sucking module 21, a detection module 22, an input module 23, a processing module 24 and an output module 25; the sample sucking module 21 is used for sucking a target sample; the detection module 22 is used for performing detection analysis on the target sample; the input module 23 is configured to obtain sample information of a target sample, where the target sample information includes test item information of the sample; the processing module 24 is used for calculating the waiting time required by the target sample from the current moment to the sample sucking module 21 for starting sample sucking of the target sample; calculating the on-machine detection time from the sample suction module 21 to the target sample to the detection module 22 to finish the test item of the target sample according to the test item information; calculating the sum of the waiting time and the on-machine detection time to obtain the predicted time for completing the test of the target sample; the output module 25 is used for outputting the time for completing the test in the output interface.

The input module 23 includes a code scanner for reading the barcode information of the sample. The input module 23 also includes a keyboard or the like that can be used to receive numeric or character information.

The processing module 24 is further configured to obtain the number of samples to be sampled before the target sample, and calculate the sample drawing time required for the samples to be drawn before the target sample, so as to obtain the waiting time required from the current time to the sample drawing module to start the sample drawing of the target sample.

If the target sample is an emergency sample, the processing module 24 is further configured to determine whether a sample is currently aspirated and whether a previously injected emergency sample is present; if there are a sample being aspirated and an emergency sample being introduced earlier, the processing module 24 is further configured to calculate a sum of the aspiration time required for the sample being aspirated and the aspiration time required for the emergency sample being introduced earlier, so as to obtain a waiting time required for the target sample to begin aspiration from the current time.

The processing module 24 is further configured to compare the time at which the target sample is expected to complete the test with a preset time threshold, and control the output module to output the timeout indication information when the time at which the target sample is expected to complete the test is greater than the preset time threshold.

The output module 25 may include a display device such as a display screen.

For the method for determining the expected time for completing the test by the processing module 24, reference is made to the foregoing embodiments, which are not described herein again.

Compared with the sample analyzer in the prior art, the technical scheme of the sample analyzer provided by the embodiment of the invention can quickly and accurately determine the time of the predicted completion of the test of each sample, and provides accurate data support for a user to determine the sample detection process, the examination and verification time of the detection report and the disposal time of the detection report.

EXAMPLE five

An embodiment of the present invention further provides a storage medium containing computer-executable instructions, where the computer-executable instructions are executed by a computer processor to perform a method for estimating a sample detection time, and the method includes:

obtaining sample information of a target sample, wherein the sample information comprises test item information of the target sample;

calculating the predicted time for completing the test of the target sample;

outputting the predicted test completion time of the target sample;

wherein the calculating the time at which the target sample is expected to complete the test comprises:

calculating the waiting time required by the target sample from the current moment to the beginning of sample suction;

calculating the on-machine detection time from sample suction to completion of the test items in the test item information of the target sample;

and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to finish the test.

Of course, the storage medium provided by the embodiments of the present invention contains computer-executable instructions, and the computer-executable instructions are not limited to the operations of the method described above, and may also perform related operations in the method for estimating the sample detection time provided by any embodiment of the present invention.

Based on the understanding that the technical solutions of the present invention or portions thereof contributing to the prior art can be essentially embodied in the form of software products, which can be stored in computer-readable storage media, such as floppy disks, Read-Only memories (ROMs), Random Access Memories (RAMs), flash memories (F L ASH), hard disks or optical disks, etc., and include instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the sample detection time estimation method according to the embodiments of the present invention.

It should be noted that, in the embodiment of the sample detection time estimation apparatus, the included units and modules are only divided according to functional logic, but are not limited to the above division, as long as the corresponding functions can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (20)

1. A sample detection time estimation method is applied to a sample analyzer and is characterized by comprising the following steps:

obtaining sample information of a target sample, wherein the sample information comprises test item information of the target sample;

calculating the predicted time for completing the test of the target sample;

outputting the predicted test completion time of the target sample;

wherein the calculating the time at which the target sample is expected to complete the test comprises:

calculating the waiting time required by the target sample from the current moment to the beginning of sample suction;

calculating the on-machine detection time from sample suction to completion of the test items in the test item information of the target sample;

and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to finish the test.

2. The method of claim 1, wherein the calculating the waiting time required for the target sample to start the sample sucking from the current time comprises:

and calculating the sample sucking time of the sample to be sucked before the target sample is sucked.

3. The method according to claim 2, wherein the target sample is an emergency sample, the sample to be blotted comprises a sample to be blotted and other emergency samples of prior sample injection, and correspondingly, the calculating the blotting time of the sample to be blotted before the target sample is blotted comprises:

and calculating the sum of the sample sucking time of the sample sucked and the time for completing the sample sucking of other emergency samples fed in advance so as to obtain the waiting time required by the target sample from the current moment to the beginning of the sample sucking.

4. The method of claim 3, wherein said calculating the on-machine detection time of the target sample from the sample draw to the completion of the test item in the test item information comprises:

and calculating the test time required for completing all test items in the test item information according to the test item information of the target sample.

5. The method of claim 4, wherein calculating the test time required to complete all the test items in the test item information according to the test item information of the target sample comprises:

calculating the test time required by each test item in the test item information;

and adding the testing time required by all the testing items of the target sample to obtain the on-machine testing time from sample suction to detection result of the target sample.

6. The method of claim 1, further comprising:

comparing the time of the target sample predicted to finish the test with a preset time threshold;

and if the predicted test completion time is greater than the preset time threshold, outputting overtime prompt information.

7. The method of claim 6, further comprising:

and if the predicted test completion time is greater than the preset time threshold, processing the target sample according to a preset overtime sample processing mode.

8. The method of claim 7, wherein the preset timeout sample handling comprises:

the target sample is not subjected to sample sucking and testing, and the target sample is dispatched to a recovery area; or

And (4) carrying out sample suction and detection on the target sample, and monitoring the current state of the target sample in real time.

9. The method of claim 8, further comprising:

and acquiring a preset time threshold value and a preset overtime sample processing mode input or selected by a user through an input interface.

10. The method of claim 1, wherein outputting the target sample while/after anticipating a time to complete the test further comprises:

and outputting the real-time state of the target sample through an output interface.

11. The method of claim 1, wherein the obtaining sample information of the target sample comprises:

reading a sample identifier of a target sample through a code scanning device, so as to obtain sample information bound by the sample identifier; or

Acquiring a sample identifier input by a user on an input interface, thereby acquiring sample information bound by the sample identifier; or

And acquiring a target sample selected by a user in the sample information list so as to acquire sample information corresponding to the target sample.

12. A sample detection time estimation device is applied to a sample analysis system and is characterized by comprising:

the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring sample information of a target sample, and the sample information comprises test item information of the target sample;

the processing module is used for calculating the predicted time for completing the test of the target sample;

the output module is used for outputting the predicted time for completing the test of the target sample;

the processing module is specifically used for calculating the waiting time required by the target sample from the current moment to the beginning of sample suction; calculating the on-machine detection time of the target sample from sample suction to completion of the test items in the test item information according to the test item information; and calculating the sum of the waiting time and the on-machine detection time to obtain the time for the target sample to be predicted to complete the test.

13. The apparatus of claim 12, wherein the processing module is further configured to obtain the number of samples to be aspirated before the target sample, and calculate the aspiration time required for the samples to be aspirated before the target sample, so as to obtain the waiting time required from the current time to the aspiration module to begin aspiration of the target sample.

14. The apparatus of claim 12, wherein the target sample is an emergency sample, and the processing module is further configured to determine whether there is a currently aspirated sample and whether there is an emergency sample previously injected; if the sample is sucked and the emergency sample is fed in advance, the processing module is further used for calculating the sum of the sample sucking time required by the sample sucked and the sample sucking time required by the emergency sample fed in advance so as to obtain the waiting time required by the target sample from the current moment to the beginning of sample sucking.

15. The apparatus of claim 12, wherein the processing module is further configured to compare the time at which the target sample is expected to complete the test with a preset time threshold, and control the output module to output a timeout indication message when the time at which the test is expected to complete is greater than the preset time threshold.

16. A sample analyzer, comprising:

the sample sucking module is used for sucking a target sample;

the detection module is used for carrying out detection analysis on the target sample;

the system comprises an input module, a processing module and a processing module, wherein the input module is used for obtaining sample information of a target sample, and the target sample information comprises test item information of the sample;

the processing module is used for calculating the waiting time required by the sample sucking module to start sample sucking of the target sample from the current moment; calculating the on-machine detection time of the test item from the sample suction module to the sample suction of the target sample to the detection module to finish the target sample according to the test item information; calculating the sum of the waiting time and the on-machine detection time to obtain the predicted time for completing the test of the target sample;

an output module for outputting the predicted time to complete the test on an output interface.

17. The sample analyzer of claim 16, wherein the processing module is further configured to obtain the number of samples to be blotted before the target sample, and calculate the blotting time required for the samples to be blotted before the target sample, so as to obtain the waiting time required from the current time to the beginning of the blotting of the target sample by the blotting module.

18. The sample analyzer of claim 16, wherein the target sample is an emergency sample, and the processing module is further configured to determine whether there is a currently aspirated sample and whether there is an emergency sample previously injected; if the sample is sucked and the emergency sample is fed in advance, the processing module is further used for calculating the sum of the sample sucking time required by the sample sucked and the sample sucking time required by the emergency sample fed in advance so as to obtain the waiting time required by the target sample from the current moment to the beginning of sample sucking.

19. The sample analyzer of claim 16, wherein the processing module is further configured to compare the expected testing completion time of the target sample with a preset time threshold, and control the output module to output a timeout indication message when the expected testing completion time is greater than the preset time threshold.

20. A storage medium containing computer-executable instructions for performing the method of sample detection time estimation according to any one of claims 1-11 when executed by a computer processor.

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