阅读说明：本技术 一种分析仪及其样本编号方法、存储介质 (Analyzer and its sample numbering method and storage medium ) 是由 邓亮 刘建超 王生 于 2018-08-31 设计创作，主要内容包括：本发明提供的分析仪及其样本编号方法、存储介质,响应于用户输入的编辑样本的标志号的指令,接收用户输入的标志号；所述标志号用于对样本进行编号；判断所述标志号是否是已分析样本的标志号,若是,则提示用户输入的标志号为重复标志号；否则,将用户输入的标志号作为起始标志号,根据预设的编号规则对待分析的样本依次编号,使样本被分析后均具有一标志号。由于编号规则是一定的,各个标识号正确与否与起始标志号息息相关,通过判断用户输入的标志号是否是已分析样本的标志号,降低了错误的样本标志号出现的概率。(The analyzer, the sample numbering method and the storage medium thereof respond to a command of editing the mark number of the sample input by a user and receive the mark number input by the user; the mark number is used for numbering samples; judging whether the mark number is the mark number of the analyzed sample, if so, prompting the user that the input mark number is a repeated mark number; otherwise, the mark number input by the user is used as an initial mark number, and the samples to be analyzed are numbered in sequence according to a preset numbering rule, so that the samples have a mark number after being analyzed. Because the numbering rule is certain, whether each identification number is correct or not is closely related to the initial mark number, and the probability of the occurrence of the wrong sample mark number is reduced by judging whether the mark number input by the user is the mark number of the analyzed sample.)

1. A sample numbering method for an analyzer, comprising the steps of:

receiving a mark number input by a user in response to an instruction for editing the mark number of the sample input by the user; the mark number is used for numbering samples;

judging whether the mark number is the mark number of the analyzed sample, if so, prompting the user that the input mark number is a repeated mark number; otherwise, the mark number input by the user is used as an initial mark number, and the samples to be analyzed are numbered in sequence according to a preset numbering rule, so that the samples have a mark number after being analyzed.

2. The method of claim 1, wherein after the step of prompting the user for the repeated token number, further comprising: and receiving the mark number re-input by the user.

3. The method of claim 1, wherein the step of numbering the samples to be analyzed in sequence according to a preset numbering rule with the mark number input by the user as a start mark number, so that the samples have a mark number after being analyzed comprises:

numbering the current sample to be analyzed by taking the mark number input by the user as an initial mark number, and starting the analysis of the sample to be analyzed;

and after the current sample is sucked, obtaining the mark number of the next sample to be analyzed according to a preset numbering rule, numbering the next sample to be analyzed by using the obtained mark number, and starting the analysis of the sample to be analyzed until receiving an instruction for editing the mark number of the sample, which is input by a user.

4. The method of claim 3, wherein the step of numbering the current sample to be analyzed using the user-entered token number as the starting token number further comprises: and judging whether the mark number input by the user belongs to a preset number type, if so, numbering the current sample to be analyzed by taking the mark number input by the user as an initial mark number.

5. The method of claim 4, wherein if the user-entered token does not belong to the predetermined number type, the user is prompted that the user-entered token is illegal.

6. The method of claim 1, wherein the numbering rule is: each sample is numbered, the mark number is increased by 1.

7. The method of claim 1, further comprising: and in response to an instruction for editing the mark number of the sample, which is input by a user, predicting a mark number or a mark number interval according to the mark number of the analyzed sample and a preset numbering rule, and displaying the predicted mark number or mark number interval through a display interface for the user to refer to.

8. The method of claim 3, wherein said step of using said obtained token number to number the next sample to be analyzed further comprises:

and judging whether the obtained mark number is the mark number of the analyzed sample, and if so, prompting the user that the mark number is repeated.

9. The method of claim 1, wherein after the step of prompting the user for the repeated token number, further comprising: and receiving an instruction of confirming to use the mark number by the user.

10. An analyzer, comprising:

the sample testing device is used for analyzing a preset project on a sample and outputting an analysis result;

the human-computer interaction device is used for receiving input and output visual information of a user;

a storage device for storing a program;

processing means for implementing the method according to any one of claims 1 to 8 by executing a program.

11. A computer-readable storage medium, characterized by comprising a program executable by a processor to implement the method of any one of claims 1-8.

Technical Field

The invention relates to the field of medical instruments, in particular to an analyzer and a sample numbering method and a storage medium thereof.

Background

At present, for some hospitals with deficient conditions, the condition that a printed bar code label is attached to a test tube is not provided. Therefore, these hospitals usually follow up the test results of blood samples using the serial number as the sample identification number (sample number), which starts from "1" every day, and increases the serial number by +1 every time a sample is added. As shown in fig. 1, in view of this rule, physicians in hospitals generally use an "auto-increment" sample number rule on blood analyzers, that is, a starting sample number of "1" is set on the day, and the blood analyzer automatically increments the sample number by +1 every time it has analyzed one sample so as to correspond to an increasing running water number.

In practice, the physician will often modify the starting sample number to re-test the previous sample due to abnormal aspiration or other alarms in some of the blood samples. When a doctor who handles retesting changes shifts and other doctors use the instrument again, the doctor cannot know that the initial number is changed before, and the value doctor cannot confirm whether the current initial number is reasonable or not, so that the doctor can easily analyze the sample serial number edited by retesting before, and the initial sample number does not correspond to the real serial number at the moment, subsequent sample numbers and serial numbers are staggered, so that all tested sample information corresponds to errors, and further serious clinical result risks are caused. For example, as shown in fig. 1, physician a has tested two samples 1 and 2, and if sample 1 needs to be retested, then physician a will retest sample 1 after changing the next number "3" to "1", where the two samples 1 and 2 correspond to the serial number. If the doctor B takes over the measurement later, and sees that the serial number of the last sample (retest sample) is "1", it is easy to certainly change the serial number of the next sample into "2" and then continue the measurement, the serial number of the sample corresponding to the patient with serial number 3 will be changed into 2, the sample serial numbers are repeated, and the subsequent sample serial numbers will be misplaced, the detection result does not correspond to the patient, if yes, retest is needed, and if yes, medical accidents are easily caused.

Disclosure of Invention

The application provides an analyzer, a sample numbering method thereof and a storage medium, aiming at reducing the probability of occurrence of wrong sample mark numbers.

According to a first aspect, there is provided in one embodiment a method of sample numbering for an analyzer, comprising the steps of:

receiving a mark number input by a user in response to an instruction for editing the mark number of the sample input by the user; the mark number is used for numbering samples;

judging whether the mark number is the mark number of the analyzed sample, if so, prompting the user that the input mark number is a repeated mark number; otherwise, the mark number input by the user is used as an initial mark number, and the samples to be analyzed are numbered in sequence according to a preset numbering rule, so that the samples have a mark number after being analyzed.

According to a second aspect, there is provided in an embodiment an analyser comprising:

the sample testing device is used for analyzing a preset project on a sample and outputting an analysis result;

the human-computer interaction device is used for receiving input and output visual information of a user;

a storage device for storing a program;

processing means for implementing the method as described above by executing a program.

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

According to the analyzer, the sample numbering method and the storage medium thereof, the mark number input by the user is received in response to the instruction for editing the mark number of the sample input by the user; the mark number is used for numbering samples; judging whether the mark number is the mark number of the analyzed sample, if so, prompting the user that the input mark number is a repeated mark number; otherwise, the mark number input by the user is used as an initial mark number, and the samples to be analyzed are numbered in sequence according to a preset numbering rule, so that the samples have a mark number after being analyzed. Because the numbering rule is certain, whether each identification number is correct or not is closely related to the initial mark number, and the probability of the occurrence of the wrong sample mark number is reduced by judging whether the mark number input by the user is the mark number of the analyzed sample.

Drawings

FIG. 1 is a schematic diagram of a prior art analyzer numbering samples on a sequential ascending basis;

FIG. 2 is a block diagram of an analyzer according to the present invention;

FIG. 3 is a flow chart of a sample numbering method provided by the present invention;

FIG. 4 is a flowchart of step 83 in the sample numbering method provided in the present invention;

FIG. 5 is a flowchart of an embodiment of a sample numbering method according to the present invention;

FIG. 6 is a flowchart of another embodiment of a sample numbering method according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

Referring to fig. 2, the analyzer of the present invention includes a sample testing device 40, a sample scheduling device 20, a human-computer interaction device 50, a storage device 10, and a processing device 30.

The human-computer interaction device 50 serves as an interaction interface between the analyzer and the user, and is used for receiving input of the user and outputting visual information, for example, receiving information input by the user and outputting information in an acoustic, optical or electrical mode. In general, the human-computer interaction device 50 includes a display device, and the display device displays the analysis result and/or the prompt information obtained by the processing device 30, or the information such as the detection progress, to the user in a visual manner. The human-computer interaction device 50 may further include a touch screen, which can receive information input by a user and display visual information; a mouse, keyboard, trackball, joystick, and the like may also be included as input devices for human interaction device 50 to receive information input by a user.

The sample scheduling device 20 is used for transferring the samples among the transfer nodes in the process of testing the samples.

The sample testing device 40 is used for testing the sample delivered by the sample scheduling device 20 for a preset item and outputting the result, for example, outputting the test result to the processing device 30 or storing the test result in the storage device 10.

The memory device 10 is used to store various test data, analysis results and/or programs.

The processing device 30 is electrically connected to the sample testing device 40, the storage device 10, the sample scheduling device 20 and the human-computer interaction device 50, respectively, and may be a processor, for example. The processing device 30 is used for receiving the test data output by the sample testing device 40, analyzing the test data to obtain an analysis result, or storing the test data and/or the analysis result in the storage device 10. The processing device 30 is also configured to implement a sample numbering method as described below by executing the program stored in the storage device 10. For example, in the first embodiment, the processing device 30 includes an instruction obtaining module, a judging module, a prompting module, and a numbering module.

The instruction acquisition module is used for responding to an instruction for editing the mark number of the sample input by the user and displaying an editing frame on a display interface of the human-computer interaction device 50 for the user to edit the mark number; the logo number input by the user is received through the man-machine interaction device 50. The flag number is used to number the samples.

And the judging module is used for judging whether the mark number input by the user is the mark number of the analyzed sample. For example, the identification number of the sample analyzed (i.e., tested) on the current day and the corresponding analysis data (i.e., detection data) are stored in the storage device 10, the judgment module searches the storage device 10 for the identification number of the sample analyzed on the current day, compares the identification number input by the user with the identification number of the sample analyzed on the current day one by one, and if the comparison result is the same, the identification number input by the user is considered to be the identification number of the sample analyzed, that is, the user inputs a repeated identification number; if all the mark numbers are different after comparison, the mark number input by the user is not the mark number of the analyzed sample, namely the mark number input by the user is not repeated, and subsequent numbering work can be carried out.

And the prompting module is used for prompting the mark number input by the user to be a repeated mark number through the human-computer interaction device 50 after the judgment module obtains the conclusion that the mark number input by the user is the mark number of the analyzed sample. For example, near the edit box, the user is prompted with a colored font (e.g., red) to "repeat the sample the day" to avoid the verifying physician setting the wrong start marker, causing the marker to repeat. Of course, the font can be displayed beside the mark number input by the user for prompting, and a pop-up dialog box can be used for prompting instead.

And the numbering module is used for taking the mark number input by the user as an initial mark number after the judgment module obtains the conclusion that the mark number input by the user is not the mark number of the analyzed sample, and numbering the samples to be analyzed in sequence according to a preset numbering rule so that the samples have a mark number after being analyzed. For example, the numbering module takes the mark number input by the user as the initial mark number to number the current sample to be analyzed, and starts the sample testing device 40 to detect the sample to be analyzed; and after the current sample is sucked, obtaining the mark number of the next sample to be analyzed according to a preset numbering rule, numbering the next sample to be analyzed by using the obtained mark number, starting the sample testing device 40 to detect after the next sample to be analyzed is in place, and circulating the steps until an instruction for editing the mark number of the sample, which is input by a user, is received. The preset numbering rules can be set according to the user requirements, for example, starting from 1, the numbering is carried out in an increasing manner in the order of 1 each time, namely, the numbering is carried out by using serial numbers in a general way.

After a user such as a checking physician starts the analyzer for the first time on the day, the analyzer numbers the analyzed samples according to serial numbers, namely, the mark numbers of the samples are 1, 2, 3, … … and N, and after the physician goes off duty, continuous testing work is interrupted and other physicians take over the work. Other physicians usually input the next mark number as the initial mark number according to the mark number of the sample that is currently analyzed by the analyzer, for example, if the mark number of the sample that is currently analyzed by the analyzer is 8, the physicians usually input 9 as the mark number of the next sample, and the analyzer sequentially and incrementally numbers the subsequent samples with 9 as the initial mark number. However, before the first physician goes off duty, the abnormal sample is usually retested, the sample No. 8 may be the retested sample mark number, and actually, the last numbered sample (i.e., the largest mark number) may be dozens or hundreds, and the next physician may easily give a wrong mark number according to the conventional operation. By adopting the analyzer of the invention, after the mark number of the sample is input, if the mark number is found to be the repeated mark number in the same day, the physician can find that the mark number input by the physician is abnormal or edited by other examining physicians before, and needs to check the correctness of the mark number of the current initial sample again. The method can effectively help doctors to find abnormal initial mark numbers in advance and prevent the risk of wrong number of sample information.

After the human-computer interaction device 50 prompts that the mark number input by the user is the repeated mark number, the instruction acquisition module also receives the mark number input again by the user through the human-computer interaction device 50, so that the judgment module can perform the next round of judgment.