CN113256088A - Automatic performance calculation and management method for hospital radiology department - Google Patents

Abstract

The invention relates to the technical field of automatic calculation, in particular to a hospital radiology department performance automatic calculation and management method. The method comprises the steps of collecting data of patient radiological examination in a preset statistical time period, then extracting corresponding examination items of the patient in a work table, establishing a corresponding part score table, and endowing the examined patient to radiological workers in a shift table. The score substitution method of the invention automatically identifies and analyzes the examination position in the work table according to the setting in the examination position score table, automatically accumulates the score, and distributes according to the scheduling information of the radiological workers set by each hospital, the whole process is automatically finished without manual intervention, thereby avoiding the interference of uncertain factors.

Description

Automatic performance calculation and management method for hospital radiology department

Technical Field

The invention relates to the technical field of automatic calculation, in particular to a hospital radiology department performance automatic calculation and management method.

Background

The hospital radiology department workload performance is a set of comprehensive assessment system which takes the workload as an accounting basis, takes the performance of work posts, technical content, risk degree, service quantity and the like as a main basis, and takes the indexes of work efficiency, benefit, work quality, patient satisfaction and the like as a core for implementing the performance.

However, the radiology departments of hospitals have multiple internal posts, dispersed technologies and different risk degrees, the radiology department examination equipment, post setting and personnel allocation of different hospitals are different, the existing RIS (radiology department information management system) cannot cope with an intricate and complex application environment, and the accurate, fair and reasonable calculation workload is difficult.

Disclosure of Invention

The invention aims to provide an automatic calculation and management method for performance of a hospital radiology department, which aims to solve the problems that the existing RIS proposed in the background technology cannot cope with complicated and intricate application environments and is difficult to accurately, fairly and reasonably calculate workload.

In order to achieve the purpose, the invention provides a hospital radiology department performance automatic calculation and management method, which comprises the following steps:

s1, collecting the data of the patient radiological examination in a preset statistical time period, and establishing a corresponding working table according to the collected radiological examination data;

s2, extracting the corresponding examination data of the patient in the workload table, and establishing a corresponding part score table;

s3, collecting scheduling information of the radiological staff in the hospital, and establishing a corresponding scheduling table;

and S4, assigning the examined patients to the radiology staff in the shift list until all the examined patients are assigned, and generating a calculation result list after all the examined patients are assigned.

As a further improvement of the present technical solution, the cardinality of the preset statistical time period in S1 is one month.

As a further improvement of the present technical solution, in S1, data acquisition of the patient radiology examination is acquired and derived through a PACS interface, and a specific PACS interface is used to establish a link with an image archiving and communication system, so as to implement transmission of data of the patient radiology examination.

As a further improvement of the technical proposal, the data of the patient radiological examination comprises the examined part, the examined item and the examined time of each patient.

As a further improvement of the technical solution, the establishment of the position score table in S2 adopts a score substitution method, which specifically includes the following steps:

s2.1, establishing comprehensive scores of parts and inspection items, and generating an inspection score table;

s2.2, extracting data of the patient radiological examination part and the examination item in the workload table;

s2.3, comparing the data of the patient radiological examination part and the examination items with an examination score table, specifically:

comparing the table headers of the check score tables, and accumulating the corresponding check scores if the table headers are the same; if not, continuously comparing the next item until the end of checking the table tail of the score table is detected;

and S2.4, outputting the accumulated value.

As a further improvement of the technical solution, the accumulation of the inspection scores in S2.3 adopts a summation formula, and the formula expression is as follows:

wherein S is an accumulated value; c_iThe check score for the same result for the ith alignment; n is the total number of check scores for the same result of the alignment.

As a further improvement of the present invention, the scheduling information in S3 includes the image examination equipment operated by the radiological staff and the working time.

As a further improvement of the technical scheme, the working time is set by an operation end, and the operation end comprises a hospital leader and a radiology staff.

As a further improvement of the present technical solution, the patient examined in S4 is given an algorithm corresponding to a time device, and the algorithm steps are as follows:

s3.1, giving the image inspection equipment a score corresponding to an item in the inspection score table;

s3.2, giving the image inspection equipment the data of the radiology staff and the working time of the radiology staff;

and S3.3, assigning the patient with the examination score in the working time period identical to the score of the image examination equipment to a radiology worker in the working time period, and generating a calculation result table.

Compared with the prior art, the invention has the beneficial effects that:

in the automatic calculation and management method for the performance of the radiology department of the hospital, the scheduling information and the score information of the inspection part are set according to the hospital requirements, so that the problem that the calculation and management mode is single, which causes the problem that the radiology department of numerous hospitals is changeable and complex, in addition, the score substitution method automatically identifies and analyzes the inspection part in the working table according to the setting in the score table of the inspection part, automatically accumulates the score, and distributes according to the scheduling information of the radiology workers set by each hospital, the whole process is automatically completed without manual intervention, so that the interference of uncertain factors is avoided, and the calculation result table and the three tables are permanently stored in a low-speed storage device of an image filing and communication system for later query.

Drawings

FIG. 1 is a flow chart of the overall process of the present invention;

FIG. 2 is a flow chart of the score assignment method of the present invention.

Detailed Description

Example 1

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution:

the invention provides a hospital radiology department performance automatic calculation and management method, which comprises the following steps:

s1, collecting the data of the patient radiological examination in a preset statistical time period, and establishing a corresponding working table according to the collected radiological examination data;

s2, extracting the corresponding examination data of the patient in the workload table, and establishing a corresponding part score table;

s3, collecting scheduling information of the radiological staff in the hospital, and establishing a corresponding scheduling table;

and S4, assigning the examined patients to the radiology staff in the shift list until all the examined patients are assigned, and generating a calculation result list after all the examined patients are assigned.

In addition, the base number of the preset statistical time period in the S1 is one month, and the hospital can set the preset statistical time period by itself when in use, and the set preset statistical time period is a multiple of one month.

Further, data acquisition of the patient radiology examination in S1 is acquired and derived through a PACS interface, and the PACS interface is specifically used for establishing a link with an image archiving and communication system to realize transmission of data of the patient radiology examination, and specifically, the data of the patient radiology examination includes a part of each patient examination, an item of the examination, and a time of the examination, wherein: the image filing and communication system adopts hierarchical storage, divides data storage into an online storage structure and an offline storage structure, uses two storage media with different performances to respectively meet the requirements of high capacity and high efficiency, and uses low-speed storage equipment as permanent storage; the high-speed storage device is used for online data storage to ensure extremely high-efficiency access of online data, in addition, data of patient radiological examination is stored by a DICOM file, the DICOM file is composed of a plurality of data sets, the data sets are used for reflecting relevant attributes of data objects, such as patient names, sexes, heights, weights and the like, the data sets are composed of data elements, and the data elements contain values of the attributes of the data objects to be coded and are uniquely identified by data element labels; the data element has three structures, two of which have type representation VR, the difference being in the way of its length representation, and the other of which does not include type representation, the type representation indicating which type the data in the data element is, which is a length-2 string, for example, VR of a data element is FL, indicating that the type of data stored in the data element is floating point type.

The tags use 16-bit unsigned integer pairs, arranged in order including group number and element number, it is worth noting that the data elements in the data set are organized in increasing order of data element tag number, and occur at most once in one data set.

Example 2

In order to calculate the inspection score and establish a part score table, the embodiment is different from embodiment 1 in that please refer to fig. 1, in which: the establishment of the position score table in S2 adopts a score substitution method, and the concrete steps are as follows:

s2.1, establishing comprehensive scores of parts and inspection items, and generating an inspection score table;

s2.2, extracting data of the patient radiological examination part and the examination item in the workload table;

s2.3, comparing the data of the patient radiological examination part and the examination items with an examination score table, specifically:

comparing the table headers of the check score tables, and accumulating the corresponding check scores if the table headers are the same; if not, continuously comparing the next item until the end of checking the table tail of the score table is detected;

and S2.4, outputting the accumulated value.

In addition, the accumulation of the inspection scores in S2.3 adopts a summation formula, and the formula expression is as follows:

wherein S is an accumulated value; c_iThe check score for the same result for the ith alignment; n is the total number of check scores for the same result of the alignment.

When the embodiment works, firstly, the comprehensive scores of the parts and the examination items are established, and the comprehensive scores of the parts and the examination items are defined as follows (the following comprehensive scores are examples, and a specific comprehensive score hospital can set the comprehensive scores by itself): the chest X-ray examination is 1, the chest CT examination is 2, the abdominal MR examination is 4, and then data of the patient radiological examination site and examination items in the work table are extracted, assuming that the work table extraction result set a { (patient 1 ═ chest X-ray examination + chest CT examination), (patient 2 ═ chest CT examination), (patient 3 ═ abdominal MR examination), (patient 4 ═ chest CT examination), (patient 5 ═ chest X-ray examination) }, at this time, the table head is (patient 1 ═ chest X-ray examination), and the table tail is (patient 5 ═ chest X-ray examination), and a comparative example is performed (patient 1 ═ chest X-ray examination), which is specifically as follows:

comparing the chest X-ray examination and the chest CT examination with the chest X-ray examination of 1 score, and scoring 1 if the results are the same;

comparing the chest X-ray examination and the chest CT examination with the chest CT examination in a score of 2, wherein the result is the same and the score is 0;

comparing the chest X-ray examination and the chest CT examination with the abdominal MR examination for 4 points, wherein the result is the same and the score is 4;

and finally, calculating to obtain:

the scores for patient 2, patient 3 and patient 4 were found to be 2, 4 and 1, respectively, followed by the site score table set B (patient 1+ 4-5, patient 2-2, patient 3-4, patient 4-1).

Example 3

In order to quickly allocate the scheduling information and the score information of the examination part, this embodiment is implemented on the basis of embodiment 2, specifically:

the scheduling information in S3 includes the imaging examination equipment operated by the radiological staff and the working hours, and the working hours are set by the operation side including the hospital leader and the radiological staff.

In addition, the patient examined in S4 is assigned to adopt a time-device correspondence algorithm, which comprises the following steps:

s3.1, giving the image inspection equipment a score corresponding to an item in the inspection score table;

s3.2, giving the image inspection equipment the data of the radiology staff and the working time of the radiology staff;

and S3.3, assigning the patient with the examination score in the working time period identical to the score of the image examination equipment to a radiology worker in the working time period, and generating a calculation result table.

When the present embodiment works specifically, first, the image inspection apparatus is given a score corresponding to an item in the inspection score table, that is: the chest X-ray examination device is 1 point, the chest CT examination device is 2 points, the abdomen MR examination device is 4 points, and then the radiological worker 1 (work time 8-11 points) is assigned to the chest X-ray examination device and the chest CT examination device, the radiological worker 2 (work time 15-18 points) is assigned to the chest X-ray examination device, the radiological worker 3 (work time 15-18 points) is assigned to the chest CT examination device, and the radiological worker 4 (work time 8-11 points and 15-18 points) is assigned to the abdomen MR examination device; in this case, the radiologist 1 and the radiologist 4 are assigned with the patient 1 at examination time 9-10 points, the radiologist 3 is assigned with the patient 2 at examination time 17 points, the radiologist 4 is assigned with the patient 3 at examination time 16 points, and the radiologist 2 is assigned with the patient 4 at examination time 16 points.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A hospital radiology department performance automatic calculation and management method is characterized by comprising the following steps:

s1, collecting the data of the patient radiological examination in a preset statistical time period, and establishing a corresponding working table according to the collected radiological examination data;

s2, extracting the corresponding examination data of the patient in the workload table, and establishing a corresponding part score table;

s3, collecting scheduling information of the radiological staff in the hospital, and establishing a corresponding scheduling table;

and S4, assigning the examined patients to the radiology staff in the shift list until all the examined patients are assigned, and generating a calculation result list after all the examined patients are assigned.

2. The automated performance calculation and management method for hospital radiology departments according to claim 1, characterized in that: the base number of the preset statistical time period in S1 is one month.

3. The automated performance calculation and management method for hospital radiology departments according to claim 1, characterized in that: the data acquisition of the patient radiology examination in S1 is acquired and exported through the PACS interface.

4. The automated performance calculation and management method for hospital radiology departments according to claim 3, characterized in that: the patient radiology data includes the location of each patient examination, the items examined, and the time of the examination.

5. The automated performance calculation and management method for hospital radiology departments according to claim 1, characterized in that: the establishment of the position score table in the S2 adopts a score substitution method, and the specific steps are as follows:

s2.1, establishing comprehensive scores of parts and inspection items, and generating an inspection score table;

s2.2, extracting data of the patient radiological examination part and the examination item in the workload table;

s2.3, comparing the data of the patient radiological examination part and the examination items with an examination score table, specifically:

comparing the table headers of the check score tables, and accumulating the corresponding check scores if the table headers are the same; if not, continuously comparing the next item until the end of checking the table tail of the score table is detected;

and S2.4, outputting the accumulated value.

6. The automated hospital radiology performance computing and managing method of claim 5, wherein: the accumulation of the inspection scores in S2.3 adopts a summation formula, and the formula expression is as follows:

wherein S is an accumulated value; c_iThe check score for the same result for the ith alignment; n is the total number of check scores for the same result of the alignment.

7. The automated hospital radiology performance computing and managing method of claim 5, wherein: the scheduling information in S3 includes the image examination equipment operated by the radiological staff and the working hours.

8. The automated hospital radiology performance computing and managing method of claim 7, wherein: the working time is set by an operation end, and the operation end comprises a hospital leader and a radiology worker.

9. The automated hospital radiology performance computing and managing method of claim 8, wherein: the patient examined in S4 is assigned to adopt a time device correspondence algorithm, which comprises the following steps:

s3.1, giving the image inspection equipment a score corresponding to an item in the inspection score table;

s3.2, giving the image inspection equipment the data of the radiology staff and the working time of the radiology staff;

and S3.3, assigning the patient with the examination score in the working time period identical to the score of the image examination equipment to a radiology worker in the working time period, and generating a calculation result table.

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