CN109342154B - Tissue specimen dehydration management method, device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a tissue specimen dehydration management method, which comprises the following steps: obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen; receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier; receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface; receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through a newly built dehydration recording interface; acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task. The method can effectively avoid the situations of wax block loss, confusion and the like by establishing the relation between the wax block, the dehydration basket and the dehydrator. In addition, a tissue specimen dehydration management device, a computer device and a storage medium are also provided.

Description

Tissue specimen dehydration management method, device, computer equipment and storage medium

Technical Field

The invention relates to the technical field of computers, in particular to a tissue specimen dehydration management method, a tissue specimen dehydration management device, computer equipment and a storage medium.

Background

The pathological examination comprises two parts of specimen preparation and diagnosis, wherein the specimen preparation is the process of processing a specimen into a high-quality pathological section. The whole process of flaking comprises the steps of material taking, dehydration, embedding, slicing, dyeing and the like, and the process is very complicated. Among them, dehydration is one of the important technical links. Generally speaking, specimen material drawing is responsible for by the pathologist, draws materials the back, gives the wax stone to the pathology technician and carries out dehydration, because the wax stone quantity that a specimen need make is indefinite, probably one, also can be a plurality of, this causes great trouble for follow-up counting wax stone quantity and handing-over, often can appear that the wax stone loses, confuses the condition such as.

Disclosure of Invention

In view of the above, there is a need to provide a tissue specimen dehydration management method, device, computer device and storage medium that can reduce the loss and confusion of wax lumps.

In a first aspect, an embodiment of the present invention provides a method for dehydrating and managing a tissue specimen, the method including:

obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen;

receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier;

receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface according to the instruction;

receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through the newly built dehydration recording interface;

and acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

In one embodiment, the method further comprises: calling a camera device to shoot wax blocks to be dehydrated in the dehydration basket to obtain shot pictures, wherein the shot pictures comprise wax block information; and associating and storing the shot picture and the corresponding dehydration basket identifier.

In one embodiment, the wax-block information includes: wax block identification; before the step of associating and storing the shot pictures and the corresponding dehydration basket identifiers, the method further comprises the following steps: identifying the wax block identification in the shot picture to obtain an actual wax block identification; acquiring a standard wax block identifier corresponding to the dehydration basket identifier; and comparing the actual wax block identification with the standard wax block identification, and if the actual wax block identification is consistent with the standard wax block identification, performing related storage on the shot picture and the corresponding dehydration basket identification.

In one embodiment, after the recording the association relationship among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating the dehydration task, the method further includes: receiving an instruction for submitting the dehydration task, and recording the time for starting dehydration according to the submitted instruction; calculating the predicted dehydration finishing time according to the dehydration starting time and the dehydration type; and sending the dehydrator identification, the time for starting dehydration and the time for predicting to finish dehydration to a corresponding terminal.

In one embodiment, before receiving the input spin basket identifier, the method further comprises: setting a dewatering basket identifier through a dewatering basket setting interface, generating a dewatering basket two-dimensional code according to the dewatering basket identifier, and printing the dewatering basket two-dimensional code through interaction with printing equipment so as to paste the dewatering basket two-dimensional code to a corresponding dewatering basket; the receiving of the input spin basket identification comprises: and acquiring a corresponding dewatering basket identifier by scanning the two-dimensional code of the dewatering basket.

In one embodiment, the wax-block information includes: wax block identification; after adding the wax stone information corresponding to the specimen identification under the dehydration basket identification, the method further comprises the following steps: printing the wax block identification on a corresponding wax block by interacting with a printing device; sending a loading instruction to a loading robot, and instructing the loading robot to place the wax block into the dehydration basket corresponding to the dehydration basket identifier.

In a second aspect, embodiments of the present invention provide a tissue specimen dehydration management apparatus, the apparatus comprising: a specimen acquisition module for acquiring tissue specimen information to be dehydrated, the tissue specimen information including: identifying a specimen; the establishing module is used for receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier; the creating module is used for receiving an instruction for creating a dehydration record through the dehydration management interface and entering a newly-created dehydration record interface according to the instruction; the receiving module is used for receiving the input dehydrator identification, dehydration type and dehydration basket identification through the newly built dehydration recording interface; and the recording module is used for acquiring the wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

In one embodiment, the tissue specimen dehydration management apparatus further includes: and the calling module is used for calling the camera device to shoot the wax block to be dehydrated in the dehydration basket to obtain a shot picture, and the shot picture comprises wax block information. And the storage module is used for associating and storing the shot pictures and the corresponding dehydration basket identifications.

In one embodiment, the wax-block information includes: wax block identification; the apparatus further comprises:

the comparison module is used for identifying the wax block identification in the shot picture to obtain an actual wax block identification; acquiring a standard wax block identifier corresponding to the dehydration basket identifier; and comparing the actual wax block identification with the standard wax block identification, and if the actual wax block identification is consistent with the standard wax block identification, informing a storage module to store the shot picture and the corresponding dehydration basket identification in an associated manner.

In one embodiment, the apparatus further includes: and the sending module is used for receiving the instruction of submitting the dehydration task, recording the time for starting dehydration according to the submitted instruction, calculating the time for finishing the dehydration according to the time for starting the dehydration and the dehydration type, and sending the dehydrator identifier, the time for starting the dehydration and the time for finishing the dehydration to the corresponding terminal.

In one embodiment, the apparatus further includes: the generation module is used for setting a dehydration basket identifier through a dehydration basket setting interface, generating a dehydration basket two-dimensional code according to the dehydration basket identifier, and printing the dehydration basket two-dimensional code through interaction with printing equipment so as to be convenient for pasting the dehydration basket two-dimensional code to a corresponding dehydration basket; the establishing module is further used for acquiring corresponding dehydration basket identification through scanning the dehydration basket two-dimensional code.

In one embodiment, the wax-block information includes: wax block identification; after adding the wax stone information corresponding to the specimen identification under the dehydration basket identification, the method further comprises the following steps: the printing module is used for printing the wax block identification on the corresponding wax block through interaction with printing equipment; and the loading instruction sending module is used for sending a loading instruction to the loading robot and instructing the loading robot to place the wax block into the dehydration basket corresponding to the dehydration basket identifier.

In a third aspect, an embodiment of the present invention provides a computer device, including a memory and a processor, where the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the following steps:

obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen;

receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier;

receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface according to the instruction;

receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through the newly built dehydration recording interface;

and acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

In a fourth aspect, an embodiment of the present invention provides a computer-readable storage medium, in which a computer program is stored, and when the computer program is executed by a processor, the processor is caused to execute the following steps:

obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen;

receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier;

receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface according to the instruction;

receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through the newly built dehydration recording interface;

and acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

According to the tissue specimen dehydration management method, the tissue specimen dehydration management device, the computer equipment and the storage medium, firstly, wax block information corresponding to the specimen identification is added under the dehydration basket identification, the corresponding relation between the wax block information and the dehydration basket identification is established, then the input dehydrator identification, dehydration type and dehydration basket identification are received through a newly established dehydration recording interface, and the incidence relation among the dehydrator identification, the dehydration type, the dehydration basket identification and the wax block information is recorded according to the corresponding relation between the dehydration basket identification and the wax block information, so that a dehydration task is generated. The method further realizes the association between the dehydrator and the wax block, namely establishes the relationship between the wax block, the dehydration basket and the dehydrator, can effectively avoid the conditions of wax block loss, confusion and the like through the association relationship, and simultaneously improves the management efficiency.

Drawings

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

FIG. 1 is a flow chart of a method for dehydrating and managing a tissue specimen according to an embodiment;

FIG. 2 is a schematic diagram of an interface for establishing correspondence between wax block information and a dehydration basket identifier in one embodiment;

FIG. 3 is a schematic diagram of an interface configured to configure dewatering durations corresponding to different dewatering types in one embodiment;

FIG. 4 is a schematic diagram of an interface associated with a shot picture, a dehydration basket identifier, and wax block information in one embodiment;

FIG. 5 is a flow chart of a method for dehydrating and managing a tissue specimen according to another embodiment;

FIG. 6 is a schematic diagram of an interface for setting the spin basket identifier in one embodiment;

FIG. 7 is a schematic flow chart illustrating the tissue specimen dehydration management according to one embodiment;

FIG. 8 is a block diagram of the tissue specimen dehydration management apparatus according to one embodiment;

FIG. 9 is a block diagram showing the structure of a tissue specimen dehydration management apparatus according to another embodiment;

FIG. 10 is a block diagram showing the structure of a tissue specimen dehydration management apparatus according to still another embodiment;

FIG. 11 is a block diagram of a tissue specimen dehydration management apparatus according to still another embodiment;

FIG. 12 is a block diagram of a tissue specimen dehydration management apparatus according to still another embodiment;

FIG. 13 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a method for dehydrating and managing a tissue specimen is provided, which is applied to a terminal, and specifically includes the following steps:

step 102, obtaining tissue specimen information to be dehydrated, wherein the tissue specimen information comprises: and (5) identifying the specimen.

Wherein, the tissue sample information includes a sample identifier, and may further include: at least one of specimen type, number of specimen wax blocks, specimen source, etc. The specimen identification is used for uniquely identifying one specimen. The specimen identification may be represented by a pathological number or a number assigned specifically to the specimen (e.g., a specimen barcode). The specimen type refers to the type of specimen, and for example, specimen types are classified into pathological examination specimen, bone marrow specimen, liver specimen, kidney specimen, and the like. The number of the wax blocks of the specimen refers to the number of the specimen, and the specimen is preserved by the wax blocks. The specimen source is used to record the origin of the specimen, e.g., from which hospital it originated.

In one embodiment, the terminal receives an input sample barcode (sample identifier) through the material drawing interface, and acquires corresponding tissue sample information from the database according to the sample barcode. In another embodiment, the input tissue specimen information is received directly through the access interface.

And 104, receiving the input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier.

Wherein, the dehydration basket is a basket for loading wax blocks. The dehydration basket identifier is used for uniquely identifying one dehydration basket and can be represented by a dehydration basket number. The wax block (also called pathological wax block) is used for preserving tissue specimens and is convenient for making pathological sections subsequently. The wax block information includes: and (5) identifying wax blocks. The wax block identifier is used to uniquely identify a wax block. The number of wax blocks needed to be made for one specimen can be one or more. And adding the wax block information corresponding to the sample identification to the input dehydration basket identification, so as to establish the corresponding relation between the wax block information and the dehydration basket identification. In one embodiment, the corresponding dehydration basket identification may be obtained by scanning a two-dimensional code on the dehydration basket. Fig. 2 is an interface schematic diagram illustrating the correspondence relationship between the wax block information and the spin basket identifier in one embodiment.

In one embodiment, after wax stone information corresponding to the specimen identification is added under the dehydration basket identification, the wax stone identification is printed on the wax stone through interaction with a printing device, so that the wax stone is conveniently put into the dehydration basket corresponding to the dehydration basket identification according to the wax stone identification. The wax block may also be referred to as an "embedding cassette" prior to loading the specimen, and in one embodiment, the wax block identifier is printed onto the embedding cassette prior to loading the specimen into the cassette, forming the wax block.

In one embodiment, each dewatering basket corresponds to a respective capacity, i.e. the number of wax blocks that can be accommodated is limited, for example 50. After receiving the inputted dehydration basket identifier, firstly adding the wax block information corresponding to the current specimen identifier to the dehydration basket identifier, and automatically associating the wax block information with the dehydration basket identifier. And after the sampling of the current specimen is finished, sampling of the next specimen. When carrying out drawing materials of next sample, need not input the dehydration basket sign again, directly continue to add the wax stone information that next sample sign corresponds under this dehydration basket sign, until the capacity of this dehydration basket has reached the default, need change the dehydration basket this moment, need input next dehydration basket sign promptly. After the wax block is loaded, the wax block detail corresponding to each dehydration basket identification can be checked, and corresponding wax block information is recorded in the wax block detail. The wax pieces in the dewatering basket can also be removed or adjusted when needed.

And step 106, receiving an instruction for creating a dehydration record through the dehydration management interface, and entering a newly-created dehydration record interface according to the instruction.

The terminal receives an instruction for creating the dehydration record initiated by a user through the dehydration management interface, and responds to the instruction to enter a newly created dehydration record interface. And recording corresponding record items on the newly-built dehydration record interface. The recorded items include the identification of the dehydration basket, the dehydration type, the identification of the dehydrator and the like.

And step 108, receiving the input dehydrator identification, dehydration type and dehydration basket identification through the newly built dehydration recording interface.

After entering a newly-built dehydration recording interface, inputting a selected dehydrator identifier, wherein the dehydrator identifier can be a unique number of the dehydrator or a unique name of the dehydrator. And then selecting a dehydration type, namely selecting an application dehydration program, wherein the dehydration time lengths corresponding to different dehydration types are different.

In one embodiment, the dehydrator id of each dehydrator device is pre-configured, and the dehydration duration corresponding to different dehydration types also needs to be pre-configured. Fig. 3 is a schematic interface diagram for configuring dehydration durations corresponding to different dehydration types in an embodiment.

In one embodiment, a dehydration type may be selected from a plurality of dehydration types in the alternative dehydration types by selecting a dehydration engine identification from a plurality of alternative dehydration engine identifications on the newly created dehydration recording interface.

And step 110, acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydration machine identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

After the dehydration basket identifier is obtained, all wax block information associated with the dehydration basket identifier can be obtained. Thus, the incidence relation among the dehydrator identification, the dehydration type, the dehydration basket identification and the wax block information is established. In one embodiment, it is possible to facilitate timely verification of wax block loss and confusion by displaying all wax block information associated with the dehydration basket identifier and then checking against an off-line physical wax block. And if the wax block information is consistent with the actual wax block through checking, recording the association relation among the dehydrator identification, the dehydration type, the dehydration basket identification and the wax block information, and then generating a dehydration task. The dehydrator identification is associated with the wax block information, so that the subsequent loss and confusion conditions can be avoided.

In one embodiment, after the dehydration task is generated, a dehydration instruction is sent to the corresponding dehydrator, and the corresponding dehydration task is executed according to the dehydration instruction.

According to the tissue specimen dehydration management method, firstly, wax block information corresponding to a specimen identification is added under a dehydration basket identification, a corresponding relation between the wax block information and the dehydration basket identification is established, then, a dehydration recording interface is newly established to receive the input dehydrator identification, dehydration type and dehydration basket identification, and according to the corresponding relation between the dehydration basket identification and the wax block information, the incidence relation among the dehydrator identification, the dehydration type, the dehydration basket identification and the wax block information is recorded, and a dehydration task is generated. The method further realizes the association between the dehydrator and the wax block, namely establishes the relationship between the wax block, the dehydration basket and the dehydrator, can effectively avoid the conditions of wax block loss, confusion and the like through the association relationship, and simultaneously improves the management efficiency.

In one embodiment, the method for dehydrating and managing a tissue specimen further includes: calling a camera device to shoot wax blocks to be dehydrated in the dehydration basket to obtain shot pictures, wherein the shot pictures comprise wax block information; and storing the shot pictures and the corresponding dehydration basket identifications in a correlated manner.

The reason can be traced when avoiding follow-up problem, and before the dehydration, transfer camera device and shoot the wax stone of waiting to dewater in the dehydration basket, obtain corresponding picture of shooing. For example, the shooting button is clicked through the dehydration management interface, the device can be automatically connected to a corresponding precision shooting instrument, a panoramic picture of the wax blocks in the whole dehydration basket is shot, and the panoramic picture is stored in the system. Each wax block information can be clearly displayed in the shot picture, for example, the wax block number of each wax block is displayed. Then will shoot the picture and carry out the relevance with dehydration basket sign and preserve, when being convenient for follow-up the problem, trace back the reason, for example, when the wax stone appears and loses, the wax stone confuses scheduling problem, can in time trace back the actual scene of dehydration then through wax stone information and shooting image, fix a position the problem fast. FIG. 4 is a schematic diagram illustrating an interface between a shot and a spin basket identifier and associated wax block information according to an embodiment.

As shown in fig. 5, in one embodiment, a method for dehydrating and managing a tissue specimen is provided, comprising:

step 502, obtaining tissue sample information to be dehydrated, wherein the tissue sample information comprises: and (5) identifying the specimen.

And 504, receiving the input dehydration basket identification, adding wax block information corresponding to the specimen identification under the dehydration basket identification, and establishing a corresponding relation between the wax block information and the dehydration basket identification.

And step 506, receiving an instruction for creating a dehydration record through the dehydration management interface, and entering a newly-created dehydration record interface according to the instruction.

And step 508, receiving the input dehydrator identification, dehydration type and dehydration basket identification through the newly built dehydration recording interface.

Step 510, acquiring wax block information corresponding to the dehydration basket identifier, wherein the wax block information includes: and (5) identifying wax blocks.

And step 512, identifying the wax block identification in the shot picture to obtain the actual wax block identification.

And 514, acquiring a standard wax block identifier corresponding to the dehydration basket identifier.

The standard wax block identifier is a wax block identifier added in the terminal and associated with the dehydration basket identifier, and is called as a standard wax block identifier for distinguishing from an actual wax block identifier. The actual wax block identification refers to the wax block identification of the wax block in the actual dehydration basket obtained by shooting the wax block under the line and then identifying the shot picture.

And 516, comparing the actual wax block identification with the standard wax block identification, if the actual wax block identification is consistent with the standard wax block identification, entering a step 518, and if the actual wax block identification is inconsistent with the standard wax block identification, ending the step.

And comparing the actual wax block identification with the standard wax block identification, if the actual wax block identification is consistent with the standard wax block identification, indicating that the wax block under the line is not lost and the situation of confusion does not occur, and performing related storage on the shot image and the corresponding dehydration basket identification. If the wax pieces are inconsistent, the wax pieces are lost or mixed, dehydration cannot be started at the moment, and the corresponding wax piece information needs to be checked offline to ensure the accuracy of the wax pieces.

And 518, performing association storage on the shot picture and the corresponding dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

If the actual wax block identification is consistent with the standard wax block identification, the wax block is completely and correctly placed, then the shot picture and the dehydration basket identification are stored in an associated mode, the association relation among the dehydrator identification, the dehydration type, the dehydration basket identification and the wax block information is recorded, and then the dehydration task is generated. The dehydration task refers to a task of dehydrating the wax blocks in the dehydration basket.

In one embodiment, after the association relationship among the dehydrator identification, the dehydration type, the dehydration basket identification and the wax block information is recorded and the dehydration task is generated, the method further comprises the following steps: receiving an instruction of submitting a dehydration task, and recording the time for starting dehydration according to the submitted instruction; calculating the predicted time for finishing the dehydration according to the time for starting the dehydration and the dehydration type; and sending the dehydrator identification, the time for starting dehydration and the time for predicting to finish dehydration to the corresponding terminal.

After the dehydration task is generated, the terminal receives an instruction for submitting the dehydration task through the dehydration management interface, and then records the time for starting dehydration according to the submitted instruction. Submitting a dehydration task means the start of the task, so the time to submit the instruction can be taken as the time to start dehydration. In one embodiment, upon receiving an instruction to submit a dehydration task, the dehydration task is sent to the corresponding dehydration engine instructing the dehydration engine to begin executing the corresponding dehydration task. In another embodiment, after the dewatering task is submitted, the dewatering machine can be controlled to start to execute the corresponding dewatering task by offline manual work.

The dewatering time length corresponding to the current dewatering type is obtained due to the fact that the dewatering time lengths corresponding to different dewatering types are different, and then the expected dewatering finishing time can be calculated according to the dewatering starting time. For example, if the dewatering time duration corresponding to the current dewatering type is 10 hours, and the current dewatering starting time is 23:00, the corresponding predicted dewatering ending time is 9:00 in the next morning. In order to enable the corresponding processing person to know the dewatering situation in time, after the dewatering task is submitted, a corresponding notice is sent to the designated person or the designated group, for example, XX starting success when the dewaterer with the equipment number XXX is used in XX month XX day XX of XXXXXXX year is sent, XX minute is expected when the dewatering machine is used in XX month XX day XX of XXXXXXX year, and XXX number of the dewatered wax blocks are totally sent to the corresponding terminal.

In one embodiment, before receiving the input spin basket identification, the method further comprises: setting a dewatering basket identifier through a dewatering basket setting interface, generating a dewatering basket two-dimensional code according to the dewatering basket identifier, and printing the dewatering basket two-dimensional code through interaction with printing equipment so as to paste the dewatering basket two-dimensional code to a corresponding dewatering basket; receiving an input spin basket identification, comprising: and acquiring a corresponding dewatering basket identifier by scanning the two-dimensional code of the dewatering basket.

Wherein, set up the interface through the dehydration basket in advance and set up the dehydration basket sign, set up the serial number of every dehydration basket promptly, then will dewater the basket sign and convert the form into the two-dimensional code to print the dehydration basket two-dimensional code through printing apparatus, paste corresponding dehydration basket with the dehydration basket two-dimensional code under the online. The corresponding dehydration basket identification can be obtained by scanning the two-dimensional code of the dehydration basket on the dehydration basket. FIG. 6 is a schematic interface diagram illustrating the placement of spin basket identifiers in one embodiment.

In one embodiment, the wax-block information includes: wax block identification; after adding the wax stone information that corresponds with the sample sign under the dehydration basket sign, still include: printing the wax block identification on the corresponding wax block by interacting with printing equipment; and sending a loading instruction to the loading robot, and instructing the loading robot to place the wax block into the dewatering basket corresponding to the dewatering basket identification.

Wherein, after adding the wax stone information that the sample sign corresponds under the dehydration basket sign, print the wax stone sign on the wax stone. In one embodiment, by sending a print instruction to the printing device, the printing device prints a corresponding wax block identifier on the wax block according to the wax block identifier in the print instruction. The loading robot refers to a robot for putting wax blocks into the dehydration basket. Specifically, a loading instruction is sent to the loading robot, and the loading robot is instructed to place the wax block into the dehydration basket corresponding to the dehydration basket identifier. Put into the dehydration basket that corresponds with dehydration basket sign with the wax stone through using loading robot, practiced thrift the human cost greatly, also improved the degree of accuracy of loading simultaneously, reduced the condition that appears losing and mixing up.

Fig. 7 is a schematic flow chart illustrating the tissue specimen dehydration management process according to an embodiment. This tissue specimen dehydration management can be divided into two parts, and first part is the sample part of drawing materials, and the second part is sample dehydration part. Wherein, the sample part of drawing materials includes: the method comprises the steps of inputting a dehydration basket identification, then obtaining a sample bar code, taking out tissue sample information, adding wax block information corresponding to the sample identification into the dehydration basket identification, automatically associating the dehydration basket identification with the wax block information, and finishing material taking. The specimen dehydration portion includes: selecting a dehydration type and a dehydrator identification, then acquiring an input dehydration basket identification, loading wax block information associated with the dehydration basket identification, then calling a camera device to shoot a dehydration basket corresponding to the dehydration basket identification to obtain a shot picture, and performing associated storage on the shot picture, the dehydration basket identification, the dehydrator identification and the wax block information. And submitting a dehydration task, recording the time of starting dehydration, calculating the predicted time of finishing dehydration according to the dehydration type, and sending the corresponding time of starting dehydration and the predicted time of finishing dehydration to a corresponding group, so that members in the group can reasonably arrange the working time according to the dehydration condition.

In another embodiment, the tissue specimen dehydration management further comprises: a basic data setting section. The basic data setting section includes: and (3) managing a dehydrator program: the name of the dewatering program (dewatering type) and the corresponding dewatering program duration are set, and the like. And (3) managing a dewatering basket: setting the number of the dewatering basket (the identification of the dewatering basket), the capacity and the like. Message management: and setting a group or an individual receiving the short message notification.

As shown in fig. 8, in one embodiment, a tissue specimen dehydration management apparatus is provided, the apparatus comprising:

a sample information obtaining module 802, configured to obtain tissue sample information to be dehydrated, where the tissue sample information includes: identifying a specimen;

a relation establishing module 804, configured to receive an input spin basket identifier, add wax block information corresponding to the specimen identifier under the spin basket identifier, and establish a corresponding relation between the wax block information and the spin basket identifier;

a creating module 806, configured to receive, through the dehydration management interface, an instruction for creating a dehydration record, and enter a newly created dehydration record interface according to the instruction;

the receiving module 808 is configured to receive, through the newly created dehydration recording interface, an input dehydrator identifier, dehydration type, and dehydration basket identifier;

and the recording module 810 is used for acquiring the wax block information corresponding to the dehydration basket identifier, recording the association relationship among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

As shown in fig. 9, in one embodiment, the tissue specimen dehydration management apparatus further includes:

and the calling module 812 is used for calling the camera device to shoot the wax block to be dehydrated in the dehydration basket to obtain a shot picture, wherein the shot picture comprises wax block information.

A storage module 814, configured to associate and store the shot picture and the corresponding dehydration basket identifier.

As shown in fig. 10, in one embodiment, the wax-block information includes: wax block identification; the apparatus further comprises:

the comparison module 813 is used for identifying the wax block identifier in the shot picture to obtain an actual wax block identifier; acquiring a standard wax block identifier corresponding to the dehydration basket identifier; and comparing the actual wax block identification with the standard wax block identification, and if the actual wax block identification is consistent with the standard wax block identification, informing a storage module to store the shot picture and the corresponding dehydration basket identification in an associated manner.

As shown in fig. 11, in one embodiment, the apparatus further comprises:

a sending module 816, configured to receive the instruction for submitting the dehydration task, record the time for starting dehydration according to the submitted instruction, calculate the time for ending dehydration according to the time for starting dehydration and the dehydration type, and send the dehydrator identifier, the time for starting dehydration, and the time for ending dehydration to the corresponding terminal.

In one embodiment, the above apparatus further comprises: the generation module is used for setting a dehydration basket identifier through a dehydration basket setting interface, generating a dehydration basket two-dimensional code according to the dehydration basket identifier, and printing the dehydration basket two-dimensional code through interaction with printing equipment so as to be convenient for pasting the dehydration basket two-dimensional code to a corresponding dehydration basket; the establishing module 804 is further configured to obtain a corresponding dehydration basket identifier by scanning the dehydration basket two-dimensional code.

As shown in fig. 12, in one embodiment, the wax-block information includes: wax block identification; after adding the wax stone information corresponding to the specimen identification under the dehydration basket identification, the method further comprises the following steps:

a printing module 818 for printing the wax block identification on the corresponding wax block by interacting with a printing device;

and a loading instruction sending module 820, configured to send a loading instruction to a loading robot, and instruct the loading robot to place the wax block into the dehydration basket corresponding to the dehydration basket identifier.

FIG. 13 is a diagram illustrating an internal structure of a computer device in one embodiment. The computer device may be a terminal. As shown in fig. 13, the computer apparatus includes a processor, a memory, a camera, and a network interface connected by a system bus. Wherein the memory includes a non-volatile storage medium and an internal memory. The non-volatile storage medium of the computer device stores an operating system and may also store a computer program that, when executed by the processor, causes the processor to implement a method for dehydrating and managing a tissue specimen. The internal memory may also have a computer program stored thereon, which, when executed by the processor, causes the processor to perform a method for tissue specimen dehydration management. The camera device is used for collecting images, and the network interface is used for communicating with an external device. Those skilled in the art will appreciate that the architecture shown in fig. 13 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, the tissue specimen dehydration management method provided herein may be implemented in the form of a computer program that is executable on a computer device such as that shown in fig. 13. The memory of the computer device may store various program templates that make up the tissue specimen dehydration management apparatus. Such as a specimen acquisition module 802, a creation module 804, a creation module 806, a reception module 808, and a recording module 810.

A computer device comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of: obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen; receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier; receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface according to the instruction; receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through the newly built dehydration recording interface; and acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

In one embodiment, the computer program is further configured to perform the following steps when executed by the processor: calling a camera device to shoot wax blocks to be dehydrated in the dehydration basket to obtain shot pictures, wherein the shot pictures comprise wax block information; and associating and storing the shot picture and the corresponding dehydration basket identifier.

In one embodiment, the wax-block information includes: wax block identification; before the taking picture is associated and stored with the corresponding dehydration basket identifier, when the computer program is executed by the processor, the computer program is further used for executing the following steps: identifying the wax block identification in the shot picture to obtain an actual wax block identification; acquiring a standard wax block identifier corresponding to the dehydration basket identifier; and comparing the actual wax block identification with the standard wax block identification, and if the actual wax block identification is consistent with the standard wax block identification, performing related storage on the shot picture and the corresponding dehydration basket identification.

In one embodiment, after the recording of the association between the extractor identifier, the type of dehydration, the basket identifier, and the wax-block information to generate the dehydration task, the computer program is further configured to, when executed by the processor, perform the following steps: receiving an instruction for submitting the dehydration task, and recording the time for starting dehydration according to the submitted instruction; calculating the predicted dehydration finishing time according to the dehydration starting time and the dehydration type; and sending the dehydrator identification, the time for starting dehydration and the time for predicting to finish dehydration to a corresponding terminal.

In one embodiment, prior to receiving the input spin basket identification, the computer program when executed by the processor is further operable to perform the steps of: setting a dewatering basket identifier through a dewatering basket setting interface, generating a dewatering basket two-dimensional code according to the dewatering basket identifier, and printing the dewatering basket two-dimensional code through interaction with printing equipment so as to paste the dewatering basket two-dimensional code to a corresponding dewatering basket; the receiving of the input spin basket identification comprises: and acquiring a corresponding dewatering basket identifier by scanning the two-dimensional code of the dewatering basket.

In one embodiment, the wax-block information includes: wax block identification; after adding wax-lump information corresponding to the specimen identification under the dehydration basket identification, the computer program, when executed by the processor, is further configured to perform the steps of: printing the wax block identification on a corresponding wax block by interacting with a printing device; sending a loading instruction to a loading robot, and instructing the loading robot to place the wax block into the dehydration basket corresponding to the dehydration basket identifier.

A computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the steps of: obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen; receiving an input dehydration basket identifier, adding wax block information corresponding to the specimen identifier under the dehydration basket identifier, and establishing a corresponding relation between the wax block information and the dehydration basket identifier; receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface according to the instruction; receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through the newly built dehydration recording interface; and acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

In one embodiment, the computer program is further configured to perform the following steps when executed by the processor: calling a camera device to shoot wax blocks to be dehydrated in the dehydration basket to obtain shot pictures, wherein the shot pictures comprise wax block information; and associating and storing the shot picture and the corresponding dehydration basket identifier.

In one embodiment, the wax-block information includes: wax block identification; before the taking picture is associated and stored with the corresponding dehydration basket identifier, when the computer program is executed by the processor, the computer program is further used for executing the following steps: identifying the wax block identification in the shot picture to obtain an actual wax block identification; acquiring a standard wax block identifier corresponding to the dehydration basket identifier; and comparing the actual wax block identification with the standard wax block identification, and if the actual wax block identification is consistent with the standard wax block identification, performing related storage on the shot picture and the corresponding dehydration basket identification.

In one embodiment, after the recording of the association between the extractor identifier, the type of dehydration, the basket identifier, and the wax-block information to generate the dehydration task, the computer program is further configured to, when executed by the processor, perform the following steps: receiving an instruction for submitting the dehydration task, and recording the time for starting dehydration according to the submitted instruction; calculating the predicted dehydration finishing time according to the dehydration starting time and the dehydration type; and sending the dehydrator identification, the time for starting dehydration and the time for predicting to finish dehydration to a corresponding terminal.

In one embodiment, prior to receiving the input spin basket identification, the computer program when executed by the processor is further operable to perform the steps of: setting a dewatering basket identifier through a dewatering basket setting interface, generating a dewatering basket two-dimensional code according to the dewatering basket identifier, and printing the dewatering basket two-dimensional code through interaction with printing equipment so as to paste the dewatering basket two-dimensional code to a corresponding dewatering basket; the receiving of the input spin basket identification comprises: and acquiring a corresponding dewatering basket identifier by scanning the two-dimensional code of the dewatering basket.

In one embodiment, the wax-block information includes: wax block identification; after adding wax-lump information corresponding to the specimen identification under the dehydration basket identification, the computer program, when executed by the processor, is further configured to perform the steps of: printing the wax block identification on a corresponding wax block by interacting with a printing device; sending a loading instruction to a loading robot, and instructing the loading robot to place the wax block into the dehydration basket corresponding to the dehydration basket identifier.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method for dehydrating and managing a tissue specimen, the method comprising:

obtaining tissue specimen information to be dehydrated, the tissue specimen information comprising: identifying a specimen;

receiving an input dehydration basket identifier, wherein the dehydration basket identifier is used for uniquely identifying a dehydration basket, the dehydration basket is a basket for loading wax blocks, wax block information corresponding to the specimen identifier is added under the dehydration basket identifier, and the wax block information comprises: the wax block identification is used for establishing the corresponding relation between the wax block information and the dehydration basket identification;

receiving an instruction for creating a dehydration record through a dehydration management interface, and entering a newly-created dehydration record interface according to the instruction;

receiving an input dehydrator identifier, a dehydration type and a dehydration basket identifier through the newly built dehydration recording interface;

and acquiring wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

2. The method of claim 1, further comprising:

calling a camera device to shoot wax blocks to be dehydrated in the dehydration basket to obtain shot pictures, wherein the shot pictures comprise wax block information;

and associating and storing the shot picture and the corresponding dehydration basket identifier.

3. The method of claim 2, wherein the wax-block information comprises: wax block identification; before the step of associating and storing the shot pictures and the corresponding dehydration basket identifiers, the method further comprises the following steps:

identifying the wax block identification in the shot picture to obtain an actual wax block identification;

acquiring a standard wax block identifier corresponding to the dehydration basket identifier;

and comparing the actual wax block identification with the standard wax block identification, and if the actual wax block identification is consistent with the standard wax block identification, performing related storage on the shot picture and the corresponding dehydration basket identification.

4. The method of claim 1, wherein after recording the relationship between the extractor identifier, the type of extraction, the extraction basket identifier, and the wax block information to generate the extraction task, the method further comprises:

receiving an instruction for submitting the dehydration task, and recording the time for starting dehydration according to the submitted instruction;

calculating the predicted dehydration finishing time according to the dehydration starting time and the dehydration type;

and sending the dehydrator identification, the time for starting dehydration and the time for predicting to finish dehydration to a corresponding terminal.

5. The method of claim 1, further comprising, prior to receiving an input spin basket identification:

setting a dewatering basket identifier through a dewatering basket setting interface, generating a dewatering basket two-dimensional code according to the dewatering basket identifier, and printing the dewatering basket two-dimensional code through interaction with printing equipment so as to paste the dewatering basket two-dimensional code to a corresponding dewatering basket;

the receiving of the input spin basket identification comprises: and acquiring a corresponding dewatering basket identifier by scanning the two-dimensional code of the dewatering basket.

6. The method of claim 1, wherein the wax-block information comprises: wax block identification; after adding the wax stone information corresponding to the specimen identification under the dehydration basket identification, the method further comprises the following steps:

printing the wax block identification on a corresponding wax block by interacting with a printing device;

sending a loading instruction to a loading robot, and instructing the loading robot to place the wax block into the dehydration basket corresponding to the dehydration basket identifier.

7. A tissue specimen dehydration management device, characterized in that said device comprises:

a specimen acquisition module for acquiring tissue specimen information to be dehydrated, the tissue specimen information including: identifying a specimen;

the system comprises an establishing module, a data processing module and a data processing module, wherein the establishing module is used for receiving an input dehydration basket identification, the dehydration basket identification is used for uniquely identifying one dehydration basket, the dehydration basket is a basket for loading wax blocks, the wax block information corresponding to a specimen identification is added under the dehydration basket identification, and the wax block information comprises: the wax block identification is used for establishing the corresponding relation between the wax block information and the dehydration basket identification;

the creating module is used for receiving an instruction for creating a dehydration record through the dehydration management interface and entering a newly-created dehydration record interface according to the instruction;

the receiving module is used for receiving the input dehydrator identification, dehydration type and dehydration basket identification through the newly built dehydration recording interface;

and the recording module is used for acquiring the wax block information corresponding to the dehydration basket identifier, recording the association relation among the dehydrator identifier, the dehydration type, the dehydration basket identifier and the wax block information, and generating a dehydration task.

8. The apparatus of claim 7, further comprising:

the calling module is used for calling the camera device to shoot the wax block to be dehydrated in the dehydration basket to obtain a shot picture, and the shot picture comprises wax block information;

and the storage module is used for associating and storing the shot pictures and the corresponding dehydration basket identifications.

9. A computer device comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of the method according to any one of claims 1 to 6.

10. A computer-readable storage medium, storing a computer program which, when executed by a processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 6.

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