CN-121981075-A - Typesetting method and device for items to be detected, electronic equipment and storage medium

CN121981075ACN 121981075 ACN121981075 ACN 121981075ACN-121981075-A

Abstract

The embodiment of the application relates to a typesetting method, a typesetting device, electronic equipment and a storage medium for items to be detected, wherein the method comprises the steps of carrying out layout sequencing on experiment numbers corresponding to a plurality of items to be detected according to preset enzyme-free strategy information and item names corresponding to the items to be detected under the condition that a target set type is an enzyme-free item set, adding reinforcement and positioning before the first experiment number and/or after the last experiment number of the items to be detected to generate a first layout file suitable for an enzyme-labeled instrument, and distributing experiment numbers contained in the items to be detected according to preset electrophoresis typesetting information, the item names corresponding to the items to be detected and the number of experiment numbers contained in the items to be detected under the condition that the target set type is a fixed electrophoresis type item set so as to generate a second layout file suitable for an immunity fixed electrophoresis instrument. The processing efficiency of the items to be detected can be improved, and the risk of manual operation errors is reduced.

Inventors

LI YONGQI
WANG XIAOSEN
GENG DAN
YANG MIAO
DONG HAIWEI

Assignees

太原金域临床检验所有限公司

Dates

Publication Date: 20260505
Application Date: 20260120

Claims (10)

1. A typesetting method for an item to be detected, the method comprising: Acquiring item information respectively corresponding to a plurality of items to be detected in a set to be detected, wherein the item information comprises an item name and one or more experiment numbers; determining a target set type corresponding to the set to be detected according to item information respectively corresponding to the plurality of items to be detected, wherein the target set type comprises an enzyme-free item set or a fixed electrophoresis item set; When the target set type is the enzyme-exempted item set, carrying out layout sequencing on each experiment number corresponding to each of the plurality of items to be detected according to preset enzyme-exempted strategy information and item names corresponding to each of the items to be detected, and adding reinforcement and positioning before the first experiment number and/or after the last experiment number of each of the items to be detected so as to generate at least one first layout file suitable for an enzyme-labeling instrument; And under the condition that the target set type is the fixed electrophoresis type item set, distributing experiment numbers contained in each item to be detected according to preset electrophoresis typesetting information, item names corresponding to each item to be detected and experiment number contained in each item to be detected so as to generate at least one second layout file applicable to the immune fixed electrophoresis apparatus.
2. The method of claim 1, wherein the project information further comprises a combined project name, the enzyme-linked immunosorbent assay strategy information comprises a row and column typesetting template corresponding to a plurality of detection project identifiers respectively, the layout ordering is performed on each experiment number corresponding to the plurality of detection projects respectively according to preset enzyme-linked immunosorbent assay strategy information and the project names corresponding to the detection projects, and reinforcement positioning is added before the first experiment number and/or after the last experiment number of each detection project to generate at least one first layout file suitable for an enzyme-labeled instrument, and the method comprises the following steps: Classifying the plurality of items to be detected according to the combined item names and/or the item names corresponding to the items to be detected to obtain at least one enzyme-free item group, wherein each enzyme-free item group corresponds to a unique detection item identifier; acquiring a first row typesetting template corresponding to a first enzyme-free project group according to a detection project identifier corresponding to the first enzyme-free project group; sorting the plurality of experiment numbers contained in the first enzyme-free item group to obtain a plurality of sorted experiment numbers; According to the first row typesetting template, arranging the plurality of experiment numbers after sequencing, and adding reinforcement and positioning before the first experiment number and/or after the last experiment number of the first enzyme-free project group to obtain project data to be distributed, which corresponds to the first enzyme-free project group; and distributing the item data to be distributed corresponding to the first enzyme-linked item group to one or more layout files based on the distribution strategy corresponding to the first enzyme-linked item group so as to generate at least one first layout file applicable to the enzyme label instrument.
3. The method of claim 2, wherein the first line typesetting template comprises fixed-position typesetting rules and line typesetting rules, wherein the fixed-position typesetting rules are used for defining fixed positions to be added corresponding to items to be detected and positions corresponding to the fixed positions to be added, the line typesetting rules are used for defining arrangement modes of a plurality of experiment numbers of the items to be detected, and the arrangement modes comprise arrangement by line or arrangement by line; The step of distributing the plurality of sequenced experiment numbers according to the first row typesetting template, and adding reinforcement and positioning before the first experiment number and/or after the last experiment number of the first enzyme-free project group to obtain project data to be distributed corresponding to the first enzyme-free project group, wherein the step of distributing the project data to be distributed comprises the following steps: According to the arrangement mode defined by the row-column typesetting rule, arranging the plurality of experiment numbers after sequencing to obtain arranged experiment number data; And according to the fixed position typesetting rule, adding fixed positions to be added corresponding to the first enzyme-free project group, and according to the positions corresponding to the fixed positions to be added, adding fixed positions before the arranged experimental number data and/or after the arranged experimental number data to obtain project data to be distributed corresponding to the first enzyme-free project group.
4. The method of claim 2, wherein the allocation policies include at least one of a first allocation policy for indicating an allocation manner in which item data to be allocated corresponding to one exempt item group is allocated to one or more layout files separately, a second allocation policy for indicating an allocation manner in which whether to allocate the item data to be allocated corresponding to each of a plurality of exempt item groups to the same layout file is determined according to data amounts of the item data to be allocated corresponding to each of the plurality of exempt item groups, and a third allocation policy for indicating an allocation manner in which item data to be allocated corresponding to each of the plurality of exempt item groups to the same layout file is allocated; Before distributing the item data to be distributed corresponding to the first enzyme-linked item group to one or more layout files based on the distribution strategy corresponding to the first enzyme-linked item group so as to generate at least one layout file applicable to the enzyme label instrument, the method further comprises: determining a target identification set to which the detection item identification corresponding to the first enzyme-free item group belongs according to a plurality of preset item identifications contained in each identification set; and determining the allocation strategy corresponding to the target identification set as the allocation strategy corresponding to the first enzyme-free item group.
5. The method according to claim 1, wherein the electrophoretic composition information includes an immunopositioning rule for specifying a number of experiment numbers in a second layout file suitable for an immunostationary electrophoresis apparatus; The distributing the experiment numbers contained in each item to be detected according to preset electrophoresis typesetting information, item names corresponding to each item to be detected and the number of experiment numbers contained in each item to be detected so as to generate at least one second layout file suitable for an immunostationary electrophoresis apparatus, including: Classifying the plurality of items to be detected according to the electrophoresis detection categories to which the item names respectively corresponding to the plurality of items to be detected belong to, so as to obtain at least one electrophoresis item group; Dividing a plurality of experiment numbers contained in each electrophoresis item group into a first group of experiment numbers and a second group of experiment numbers according to the number of the experiment numbers contained in each electrophoresis item group and the immune typesetting rule, wherein the number of the experiment numbers contained in the first group of experiment numbers is an integer multiple of the number specified by the immune typesetting rule; distributing the first group of experiment numbers in each electrophoresis item group to one or more layout files to generate at least one second layout file suitable for the immunostationary electrophoresis apparatus, wherein each experiment number in the same second layout file belongs to the same electrophoresis item group; And combining the second group of experiment numbers in each electrophoresis item group according to the number of the experiment numbers contained in the second group of experiment numbers in each electrophoresis item group, and distributing the combined second group of experiment numbers to the same second layout file.
6. The method of claim 5, wherein the electrophoretic composition information further comprises a quantity matching rule for specifying a preset quantity ratio between the numbers of experiment numbers included in the second set of experiment numbers in the two electrophoretic item groups, wherein the combining the second set of experiment numbers in each of the electrophoretic item groups according to the numbers of experiment numbers included in the second set of experiment numbers in each of the electrophoretic item groups comprises: calculating the actual number ratio between the first number of experiment numbers contained in the second group of experiment numbers in the first electrophoresis item group and the second number of experiment numbers contained in the second group of experiment numbers in the second electrophoresis item group, wherein the first electrophoresis item group and the second electrophoresis item group are two electrophoresis item groups corresponding to any preset number ratio in the number matching rule; and combining a second set of experiment numbers in the first electrophoresis item set with a second set of experiment numbers in the second electrophoresis item set under the condition that the actual number ratio is equal to a preset number ratio between the first electrophoresis item set and the second electrophoresis item set.
7. The method of claim 5, wherein after said dividing the plurality of test numbers included in each electrophoresis item set into a first set of test numbers and a second set of test numbers, the method further comprises: And under the condition that the number of the experiment numbers contained in the second group of experiment numbers in the third electrophoresis item group is equal to the target number, distributing the second group of experiment numbers in the third electrophoresis item group into the same second layout file, wherein the target number is a fraction multiple of the number specified by the immune typesetting rule, and the third electrophoresis item group is any electrophoresis item group.
8. A typesetting device for items to be tested, the device comprising: The acquisition module is used for acquiring item information respectively corresponding to a plurality of items to be detected in the set to be detected, wherein the item information comprises an item name and one or more experiment numbers; The classification module is used for determining a target set type corresponding to the set to be detected according to item information respectively corresponding to the plurality of items to be detected, wherein the target set type comprises an enzyme-free item set or a fixed electrophoresis item set; The typesetting module is used for carrying out layout sequencing on each experiment number corresponding to each to-be-detected item according to preset enzyme-free strategy information and item names corresponding to each to-be-detected item under the condition that the target set type is the enzyme-free item set, and adding reinforcement and positioning before the first experiment number and/or after the last experiment number of each to-be-detected item so as to generate at least one first layout file suitable for an enzyme-labeled instrument; And the typesetting module is further configured to allocate the experiment numbers included in each item to be detected according to preset electrophoresis typesetting information, item names corresponding to each item to be detected, and the number of experiment numbers included in each item to be detected, so as to generate at least one second layout file applicable to the immunostationary electrophoresis apparatus, when the target set type is the stationary electrophoresis item set.
9. An electronic device comprising a memory and a processor, the memory having stored therein a computer program which, when executed by the processor, causes the processor to implement the method of any of claims 1 to 7.
10. A computer readable storage medium, characterized in that the computer readable storage medium stores a computer program which, when executed by a processor, implements the method according to any one of claims 1 to 7.

Description

Typesetting method and device for items to be detected, electronic equipment and storage medium Technical Field The present application relates to the field of information processing technologies, and in particular, to a typesetting method and apparatus for a to-be-detected item, an electronic device, and a storage medium. Background Along with the continuous evolution of medical detection laboratories to high-throughput, automation and intelligent directions, the deep integration and flow optimization of medical information systems become key to improving the detection efficiency and quality. Among the numerous flows of detection, typesetting work of the items to be detected is a key pre-step for ensuring smooth proceeding of the subsequent detection flow. However, due to the typesetting of experiment numbers corresponding to different types of detection items, the detection effect and the data accuracy of detection equipment (such as an enzyme-labeled instrument, an immune fixed electrophoresis instrument and the like) on samples can be influenced, the different detection items have differences in reagent specifications, pore plate layout, grouping logic and the like, and the sample size to be detected is dynamically changed, the file format received by the detection equipment is different, so that the traditional typesetting mode is dependent on manual operation, is complex in operation and huge in time consumption, is extremely easy to cause typesetting errors due to human negligence, and influences the detection quality and the operation efficiency of a laboratory. Disclosure of Invention The embodiment of the application discloses a typesetting method, a typesetting device, electronic equipment and a storage medium for items to be detected, which can adapt corresponding typesetting rules for the items to be detected with different collection types, and realize the generation of layout files of an adaptive corresponding detection instrument so as to replace the traditional manual operation, thereby improving the processing efficiency of the items to be detected and reducing the risk of manual operation errors. In a first aspect, an embodiment of the present application discloses a typesetting method for a to-be-detected item, including: Acquiring item information respectively corresponding to a plurality of items to be detected in a set to be detected, wherein the item information comprises an item name and one or more experiment numbers; determining a target set type corresponding to the set to be detected according to item information respectively corresponding to the plurality of items to be detected, wherein the target set type comprises an enzyme-free item set or a fixed electrophoresis item set; When the target set type is the enzyme-exempted item set, carrying out layout sequencing on each experiment number corresponding to each of the plurality of items to be detected according to preset enzyme-exempted strategy information and item names corresponding to each of the items to be detected, and adding reinforcement and positioning before the first experiment number and/or after the last experiment number of each of the items to be detected so as to generate at least one first layout file suitable for an enzyme-labeling instrument; And under the condition that the target set type is the fixed electrophoresis type item set, distributing experiment numbers contained in each item to be detected according to preset electrophoresis typesetting information, item names corresponding to each item to be detected and experiment number contained in each item to be detected so as to generate at least one second layout file applicable to the immune fixed electrophoresis apparatus. In a first aspect of the embodiment of the present application, the project information further includes a combined project name, the enzyme-exemption policy information includes a line typesetting template corresponding to each of a plurality of detected project identifiers, the layout ordering is performed on each experiment number corresponding to each of the plurality of detected projects according to preset enzyme-exemption policy information and the project name corresponding to each of the detected projects, and reinforcement positioning is added before the first experiment number and/or after the last experiment number of each of the detected projects to generate at least one first layout file suitable for an enzyme-labeling instrument, where the method includes: Classifying the plurality of items to be detected according to the combined item names and/or the item names corresponding to the items to be detected to obtain at least one enzyme-free item group, wherein each enzyme-free item group corresponds to a unique detection item identifier; acquiring a first row typesetting template corresponding to a first enzyme-free project group according to a detection project identifier corresponding to the first enzyme-free project g