Search

CN-121998580-A - Intelligent blood sampling management method and management system

CN121998580ACN 121998580 ACN121998580 ACN 121998580ACN-121998580-A

Abstract

The application relates to an intelligent blood sampling management method and system, which belong to the technical field of blood sampling inspection, wherein the method comprises the steps of responding to a sampling initiation instruction to obtain basic information, responding to a sampling execution instruction to provide basic information for sampling personnel, binding sampled person samples acquired by the sampling personnel with the basic information to form a binding relation, sorting the sampled person samples according to the binding relation and a preset classification basis and conveying the sampled person samples to corresponding detection analysis points, executing corresponding detection analysis flow on the sampled person samples conveyed to the detection analysis points according to sampling items in the binding relation to obtain detection data and analysis results, generating a detection report according to the detection data, the analysis results and the corresponding basic information, and sending the detection report to a medical terminal triggering the sampling initiation instruction. The application has the effects of reducing the human intervention quantity of the blood sampling test flow and improving the efficiency of the blood sampling test flow.

Inventors

  • Jin Chunzhou

Assignees

  • 苏州格力美特实验室科技发展有限公司

Dates

Publication Date
20260508
Application Date
20260106

Claims (10)

  1. 1. An intelligent blood sampling management method is characterized by comprising the following steps: Responding to a sampling initiation instruction triggered by the medical care terminal, and acquiring basic information, wherein the basic information at least comprises identity information of a sampled person and sampling items; Responding to a sampling execution instruction triggered by a sampling person, providing the basic information for the sampling person, and binding a sampled person sample acquired by the sampling person with the basic information to form a binding relation; Sorting the sampled person samples according to the binding relation and a preset sorting basis, and conveying the sampled person samples to corresponding detection analysis points; at a detection analysis point, according to the sampling items in the binding relation, executing a corresponding detection analysis flow on the sampled person sample conveyed to the detection analysis point so as to obtain detection data and an analysis result; And generating a detection report according to the detection data, the analysis result and the corresponding basic information, and sending the detection report to a medical care terminal triggering the sampling initiation instruction so that medical staff of the medical care terminal can acquire the detection report.
  2. 2. The intelligent blood sampling management method according to claim 1, wherein the sorting and conveying the sampled sample to the corresponding detection analysis point according to the binding relation and the preset classification basis comprises: analyzing target detection analysis points which are required to be accessed by the sampled sample according to the binding relation and a preset classification basis; if the target detection analysis point is unique, the sampled person sample is sorted and conveyed to the corresponding target detection analysis point; And if the target detection analysis points are not unique, planning a circulation path for sequentially accessing all the target detection analysis points corresponding to the sampled sample for the corresponding sampled sample based on a preset path planning strategy, and sequentially conveying the sampled sample to the target detection analysis points contained in the circulation path according to the circulation path.
  3. 3. The intelligent blood sampling management method according to claim 2, wherein the planning a circulation path for the sample of the sampled person to sequentially access all target detection analysis points corresponding to the sample of the sampled person based on a preset path planning strategy comprises: Load state information of each target detection analysis point corresponding to the sampled person is obtained in real time, wherein the load state information at least comprises waiting time of a newly added sample estimated by the target detection analysis point; And taking the overall completion time of the sampled sample as a target, and predicting the waiting time of a newly added sample according to the target detection analysis points, and determining the optimal sequence for accessing all the target detection analysis points of the sampled sample so as to generate the circulation path.
  4. 4. The intelligent blood sampling management method according to claim 3, wherein, The method further comprises the steps of: Real-time state and time stamp of the sampled sample in the process of being circulated according to a circulation path are recorded in real time, the detection report completion time of the sampled sample is predicted based on the time stamp of the real-time state, the circulation path and the real-time load state information of each target detection analysis point contained in the circulation path, state update information with the latest real-time state and the latest predicted detection report completion time of the sampled sample is generated in real time, and the state update information is sent to the sampled terminal, wherein the real-time state at least comprises the sorted and arrived detection analysis points.
  5. 5. The intelligent blood collection management method of claim 3, wherein the method further comprises: collecting and analyzing historical sampling data, and identifying common sampling item combinations, wherein the common sampling item combinations refer to combinations formed by sampling items which are simultaneously and repeatedly appeared in the same basic information; And generating an adjustment suggestion for optimizing the physical layout of the detection analysis points based on the common sampling item combination and the corresponding target detection analysis points, wherein the core principle of the adjustment suggestion is that a plurality of target detection analysis points corresponding to the common sampling item combination are arranged adjacently in space.
  6. 6. The intelligent blood sampling management method according to claim 3, wherein the sampling items in the basic information acquired in response to the sampling initiation instruction are primary sampling items; The method further comprises the steps of: Before a detection report is generated, inputting the detection data, the analysis result and the corresponding basic information into a preset clinical decision model, and judging whether the reflex detection needs to be triggered or not through the clinical decision model; If the reflectivity detection is judged to be required to be triggered, taking a sampling item corresponding to the reflectivity detection to be triggered as a secondary sampling item, establishing a binding relation between the secondary sampling item and a sample of a sampled person so as to update the binding relation of a sample plate of the sampled person, and sorting and conveying the sample of the sampled person to a corresponding detection analysis point according to the updated binding relation and a preset classification basis; The generating a detection report according to the detection data, the analysis result and the corresponding basic information comprises the following steps: And integrating the detection data and the analysis result corresponding to the sampled person and the corresponding basic information to generate a detection report, wherein the detection data and the analysis result corresponding to the sampled person refer to the detection data and the analysis result corresponding to all sampling items with binding relation with the sampled person.
  7. 7. The intelligent blood sampling management method according to claim 6, wherein the inputting the test data, the analysis result and the corresponding basic information into a preset clinical decision model before generating the test report comprises: inputting the detection data and the analysis result and the corresponding basic information into a preset clinical decision model when any detection analysis point completes the corresponding detection analysis flow and obtains the detection data and the analysis result; the step of sorting the sampled sample according to the updated binding relation and the preset classification basis and conveying the sample to a corresponding detection analysis point comprises the following steps: if the primary sampling item of the sampled sample is unique, sorting and conveying the sampled sample to a detection analysis point corresponding to the secondary sampling item obtained by current determination; If the sampled sample corresponds to the circulation path, the circulation path of the sampled sample is re-planned according to the detection analysis point corresponding to the secondary sampling item, and then the sampled sample is sequentially conveyed to the detection analysis point contained in the circulation path according to the circulation path.
  8. 8. An intelligent blood sampling management system is characterized by comprising, The sampling initiating module (301) is used for responding to a sampling initiating instruction triggered by the medical care terminal and acquiring basic information, wherein the basic information at least comprises identity information of a sampled person and sampling items; The sampling execution module (302) is used for responding to a sampling execution instruction triggered by a sampling person, providing the basic information for the sampling person, and binding a sampled person sample acquired by the sampling person with the basic information to form a binding relation; the sorting and conveying module (303) is used for sorting the sampled samples according to the binding relation and a preset sorting basis and conveying the sampled samples to corresponding detection and analysis points; The detection analysis module (304) is used for executing a corresponding detection analysis flow on the sampled person sample conveyed to the detection analysis point according to the sampling items in the binding relation at the detection analysis point so as to obtain detection data and analysis results; And the report feedback module (305) is used for generating a detection report according to the detection data, the analysis result and the corresponding basic information, and sending the detection report to the medical care terminal triggering the sampling initiation instruction so that medical staff of the medical care terminal can acquire the detection report.
  9. 9. An intelligent blood collection management device comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method of any of claims 1 to 7.
  10. 10. A computer readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which performs the method according to any of claims 1 to 7.

Description

Intelligent blood sampling management method and management system Technical Field The application relates to the technical field of blood sampling inspection, in particular to an intelligent blood sampling management method and system. Background In the existing medical inspection process, especially in the large-scale blood sampling scene (such as physical examination center and clinic), the management and analysis process of the sample usually have many links depending on manual operation, which results in low overall efficiency and easy error. The traditional process is generally as follows, a doctor opens an inspection application form (possibly paper or electronic), a sampled person holds the application form to a blood sampling table, a nurse manually checks the identity of the sampled person and an inspection item and then performs blood sampling, and a bar code containing information of the sampled person is stuck on a sample container (such as a vacuum blood sampling tube). After that, the samples are collected intensively and sorted manually, and the samples of different detection items (such as biochemistry, immunity and blood convention) are collected respectively and then conveyed to different laboratory departments. The conventional process has the problems that the sample sorting is completely dependent on the identification of labels or bar codes on test tubes by naked eyes of sorting staff, so that the speed is low, and the error is easily caused by fatigue at Gao Fengqi. Meanwhile, sorting personnel need to have certain medical inspection knowledge to identify different projects, and the labor cost is high, so that improvement is needed. Disclosure of Invention In order to reduce the human intervention quantity of the blood sampling test flow and improve the efficiency of the blood sampling test flow, the application provides an intelligent blood sampling management method and system. In a first aspect, the present application provides an intelligent blood sampling management method, including: Responding to a sampling initiation instruction triggered by the medical care terminal, and acquiring basic information, wherein the basic information at least comprises identity information of a sampled person and sampling items; Responding to a sampling execution instruction triggered by a sampling person, providing the basic information for the sampling person, and binding a sampled person sample acquired by the sampling person with the basic information to form a binding relation; Sorting the sampled person samples according to the binding relation and a preset sorting basis, and conveying the sampled person samples to corresponding detection analysis points; at a detection analysis point, according to the sampling items in the binding relation, executing a corresponding detection analysis flow on the sampled person sample conveyed to the detection analysis point so as to obtain detection data and an analysis result; And generating a detection report according to the detection data, the analysis result and the corresponding basic information, and sending the detection report to a medical care terminal triggering the sampling initiation instruction so that medical staff of the medical care terminal can acquire the detection report. By adopting the technical scheme, the basis of secondary verification is provided for sampling personnel by providing basic information after responding to the sampling execution instruction, and the risk of human errors is reduced. More importantly, the sorting equipment is automatically controlled based on the binding relation and the preset rule, the traditional manual identification and sorting are replaced, the sorting speed is improved by orders of magnitude, the accuracy of nearly 100% is realized, and the labor cost and the manual error rate are obviously reduced. The sample is directly conveyed to the corresponding detection analysis point through intelligent sorting, so that the accurate distribution of detection tasks is realized. The trouble that detection personnel repeatedly enter projects and search samples is avoided, backlog and round-trip transportation of the samples at error detection points are also avoided, detection equipment and analysis personnel can concentrate on detection per se, and overall detection flux and efficiency are improved. In addition, detection data and analysis results are automatically obtained, and are automatically matched with and report synthesized with basic information (such as the ID, name and detection item of a sampled person) which is already bound, so that a structured detection report is generated and automatically pushed to the billing medical terminal. The process does not need manual intervention, so that the reporting period is greatly shortened, medical staff and sampled persons can acquire diagnosis basis more quickly, and diagnosis and treatment efficiency is improved. Optionally, the sorting the sampled sa