CN112712869B - System and method for dynamically acquiring follow-up data from historical image structured report - Google Patents

Abstract

The invention provides a system for dynamically acquiring follow-up data from a historical image structured report, which comprises a historical report extraction module, a follow-up image detection and structure report generation module and a follow-up image detection and structure report generation module, wherein the historical report extraction module is used for extracting all historical image structured reports which are the same as detection items and detection purposes of follow-up image detection when a doctor opens a follow-up image detection and structure report interface of a patient; the history report display module displays the history image structured report in a list form; the follow-up data extraction module is used for automatically extracting the historical data under the description attribute and loading the historical data to the corresponding position of the follow-up image structural report when a doctor opens the historical image structural report and double-clicks the description attribute according to the requirement; the follow-up report generation module automatically generates a follow-up image structured report. The invention also discloses a method for dynamically acquiring the follow-up data from the historical image structured report. The invention can automatically load historical data into the follow-up report and carry out comparison analysis, thereby improving the efficiency of writing the report by doctors and reducing the requirement on the memory of the doctors.

Description

System and method for dynamically acquiring follow-up data from historical image structured report

Technical Field

The invention relates to the field of medical information, in particular to a system and a method for dynamically acquiring follow-up data from a historical image structured report.

Background

Imaging follow-up examinations are very common methods for dynamic assessment of disease progression or efficacy. The follow-up imaging report needs to refer to the site, the report contents before the diagnosis. The diagnostician needs to read the image of the current examination, then go to reference to the imaging performance and diagnosis conclusion of the previous examination before diagnosis, and finally think about the imaging performance and diagnosis conclusion of the current examination. In the background of using the traditional text report, because of the poor normalization of the natural language report description, the extraction of the information of the past report and the comparison with the current image performance is a work which particularly needs responsibility, patience and care and takes a lot of time. Many times doctors have to give up comparing because of the heavy business.

Even though past reports use a structured reporting model, it is not an easy matter to compare later. Because the imaging performance of each examination may change, it may be due to the progressive definition of the target organ, target lesion, or the progressive change of the target organ, target lesion with the progress of the condition/treatment. The object of the continuous contrast observation may be a group of objects which are constantly changing, or may be a single object; some objects may disappear and new objects may appear. It is difficult to perform a front-to-back comparison using a fixed template for a certain disease.

Some high-end image post-processing systems can provide partial pre-lesion and post-lesion contrast function, and the systems have definite limitations. Firstly, the types of focus which can be compared are less than those of a built-in comparison method, and the wide clinical business requirements can not be met; secondly, the comparison result is pictures, which cannot be stored into labels and are difficult to be used for subsequent scientific research analysis; thirdly, the system needs to push the images of the previous examination to the system together for comparison, and the patient information is required to be completely consistent, so that the use condition is severe, and the system is not easy to realize in actual business; fourth, such image post-processing systems are also particularly expensive and are difficult to popularize.

In summary, there is no convenient and flexible imaging follow-up report comparison method, and the diagnosticians have to discard the table report compared before and after writing because the diagnosticians have busy business and too much business details need to be memorized, which is very unfavorable for clinically evaluating the treatment scheme and the disease progression.

Disclosure of Invention

Therefore, the main objective of the present invention is to provide a system and a method for dynamically acquiring follow-up data from a history image structured report, which can solve the problems of low follow-up report writing efficiency, increased memory requirements of doctors, and incapability of automatically obtaining a comparison result before and after a lesion caused by incapability of comparing with a history report in the prior art.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

In one aspect, the invention provides a system for dynamically acquiring follow-up data from a historical image structured report, which comprises a historical report extraction module, a historical report display module, a follow-up data extraction module and a follow-up report generation module, wherein the historical report extraction module is connected with the historical report display module and is used for extracting all historical image structured reports with the same examination item and examination purpose as those of follow-up image examination based on preset conditions when a doctor opens a follow-up image examination structured report interface of a patient, and sending the historical image structured report to the historical report display module; the history report display module is respectively connected with the history report extraction module and the follow-up data extraction module and is used for displaying a history image structured report at the corresponding position of the follow-up image inspection structured report interface in a list form for a doctor to select; the follow-up data extraction module is respectively connected with the history report display module and the follow-up report generation module and is used for automatically extracting the history data under the description attribute when a doctor opens one of the history image structured reports and double-clicks the description attribute according to the requirement, and loading the history data as follow-up data on the corresponding position of the follow-up image structured report; and the follow-up report generation module is connected with the follow-up data extraction module and is used for automatically generating a follow-up image structured report and outputting a diagnosis result based on each follow-up data filled in by a doctor.

Preferably, the system further comprises a comparison display module which is respectively connected with the history report display module and the follow-up report generation module and is used for automatically comparing the history data with the follow-up data corresponding to the history data in the follow-up image structured report after marking when a doctor opens one of the history image structured reports and clicks one of the history data to be compared, displaying the follow-up data in the follow-up image structured report with the same mark when the follow-up data is the same as the history data, and displaying the follow-up data in the follow-up image structured report with different marks when the follow-up data is different from the history data.

Preferably, the follow-up data extraction module further comprises a matching unit, which is used for automatically matching the historical data under the description attribute in the historical image structural report when the doctor selects certain description attributes in the follow-up image structural report, and automatically loading the historical data under the description attribute to the corresponding position in the follow-up image structural report.

Preferably, the follow-up report generating module further comprises a diagnosis result evaluating unit, wherein the diagnosis result evaluating unit is used for comparing the follow-up data with the history data, automatically generating an evaluation result based on a preset logic rule and displaying the evaluation result on a follow-up image structured report interface.

On the other hand, the invention also provides a method for dynamically acquiring the follow-up data from the historical image structured report, which comprises the following steps: when a doctor opens a follow-up image examination structured report interface of a patient, the history report extraction module extracts all history image structured reports with the same examination items and examination purposes as those of the follow-up image examination based on preset conditions, and sends the history image structured reports to the history report display module; the history report display module displays the history image structured report in a list form at the corresponding position of the follow-up image inspection structured report interface for selection by doctors; when a doctor opens one of the historical image structural reports and double-clicks a certain description attribute according to the requirement, the follow-up data extraction module automatically extracts the historical data under the description attribute, and the historical data is used as follow-up data to be loaded on the corresponding position of the follow-up image structural report; the follow-up report generation module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by the doctor.

Preferably, the method further comprises: when a doctor opens one of the historical image structured reports and clicks a certain historical data to be compared, the comparison display module automatically compares the historical data with corresponding follow-up data in the follow-up image structured report after marking the historical data, when the follow-up data is identical to the historical data, the follow-up data is displayed in the follow-up image structured report with the same mark, and when the follow-up data is different from the historical data, the follow-up data is displayed in the follow-up image structured report with different marks.

Preferably, the method further comprises: when a doctor selects certain description attributes in the follow-up image structured report, a matching unit in the follow-up data extraction module automatically matches historical data under the description attributes in the historical image structured report, and automatically loads the historical data under the description attributes to corresponding positions in the follow-up image structured report.

Preferably, the method further comprises: and a diagnosis result evaluation unit in the follow-up report generation module compares the follow-up data with the history data, automatically generates an evaluation result based on a preset logic rule and displays the evaluation result on a follow-up image structured report interface.

The invention has the technical effects that:

1. Because the invention sets up the historical report and draws the module, historical report display module, follow-up data and draws the module and follow-up report generation module, when the doctor opens the structural report interface of follow-up image, can draw the structural report of the historical image of the same part of the same patient, the same check purpose to report doctor's reference, when the doctor opens one of the structural reports of historical image and double click a certain description attribute according to the demand, follow-up data draw the module and draw the historical data under the attribute of the description automatically, load the historical data as follow-up data on the corresponding position of the structural report of follow-up image; the follow-up report generation module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by a doctor; the system can simply and manually select the historical imaging presentation content and add the historical imaging presentation content into the follow-up imaging structured report, is simple and convenient to operate, improves the efficiency of composing the report by doctors, and reduces the requirement on the memory of the doctors;

2. Because the invention sets up and contrasts the display module, when doctor opens one of the structural report of historical image and clicks some historical data needing to contrasts, mark the historical data and compare with the corresponding follow-up data in the structural report of follow-up image automatically, carry on different marks to the data that the follow-up data changes, in order to remind doctor patient focus change before and after, have reduced the intensity of physical power and mental labor that a first-line doctor needs to realize a high-quality follow-up report greatly;

3. Because the matching unit is arranged, when a doctor selects certain description attributes in the follow-up image structural report, the historical data under the description attributes in the historical image structural report are automatically matched, the historical data under the description attributes are automatically loaded to the corresponding positions in the follow-up image structural report, and the system is more humanized based on the labeled data and is convenient for the doctor to operate, so that the doctor is saved from looking at the current examination image and looking at the historical image representation, and then the step of looking back at the current examination image structural report to fill in is performed;

4. The diagnosis result evaluation unit is arranged, the follow-up visit data and the history data are compared, the evaluation result is automatically generated and displayed on the follow-up visit image structured report interface based on the preset logic rule, the clear comparison analysis result can be quickly calculated and generated based on the labeled front and back follow-up visit comparison data, the clinical diagnosis and treatment service level of an image department can be greatly improved, and meanwhile precious data are accumulated for future scientific research analysis, so that the diagnosis and treatment service level evaluation method has outstanding social value and economic value.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a first embodiment of the invention;

FIG. 2 is a schematic diagram showing a system for dynamically acquiring follow-up data from a structured report of historical images according to a first embodiment of the present invention for determining whether the structured report of historical images is a structured report code;

FIG. 3 is a schematic diagram of a list of historical image structured reports for the same patient in a system for dynamically acquiring follow-up data from the historical image structured reports according to a first embodiment of the invention;

FIG. 4 is a schematic diagram showing an interface for extracting a preset condition setting of a historical image structured report from a system for dynamically acquiring follow-up data from the historical image structured report according to the first embodiment of the invention;

FIG. 5 is a schematic diagram showing an interface of a historical image structured report extracted from a system for dynamically acquiring follow-up data from the historical image structured report according to the first embodiment of the invention;

FIG. 6 is a schematic diagram of a historical image structured report interface with a CT00000287 for examination number opened by a doctor in a system for dynamically acquiring follow-up data from a historical image structured report according to one embodiment of the invention;

FIG. 7 is a schematic diagram showing an interface for loading "irregular" data into corresponding positions of a follow-up image structured report after a doctor double clicks on a "form" edit box in the history image structured report in a system for dynamically acquiring follow-up data from the history image structured report according to the first embodiment of the present invention;

fig. 8 is a schematic diagram of an interface for loading a focus, i.e. all description attribute values, to a corresponding position of a follow-up image structured report when a doctor double clicks a focus list "anterior segment of upper right lung" of the history image structured report in a system for dynamically acquiring follow-up data from the history image structured report according to the first embodiment of the present invention;

FIG. 9 is a schematic diagram showing an interface for loading all description attribute values of a title bar into corresponding positions of a follow-up image structured report by double-clicking the focus "size" title bar of the history image structured report by a doctor in a system for dynamically acquiring follow-up data from the history image structured report according to the first embodiment of the invention;

FIG. 10 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a second embodiment of the invention;

FIG. 11 is a schematic diagram showing an interface for a doctor to select "morphology" and "nature" for comparison and marking in a structured report of a history image in a system for dynamically acquiring follow-up data from a structured report of a history image according to a second embodiment of the present invention;

FIG. 12 is a schematic diagram of an interface for marking a follow-up image structured report with a front-to-back comparison of "morphology" and "nature" in a system for dynamically acquiring follow-up data from a historical image structured report according to a second embodiment of the present invention;

FIG. 13 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a third embodiment of the invention;

FIG. 14 is a schematic diagram showing an interface of a matching unit automatically displaying matched data in a history image structured report in a corresponding position when a doctor selects "right lung", "upper leaf", "front section" description attributes in the history image structured report in a system for dynamically acquiring follow-up data from the history image structured report according to the third embodiment of the present invention;

FIG. 15 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a fourth embodiment of the invention;

FIG. 16 is a diagram showing an evaluation result interface outputted by a diagnostic result evaluation unit in a system for dynamically acquiring follow-up data from a structured report of historical images according to a fourth embodiment of the present invention;

FIG. 17 is a flow chart of a method for dynamically acquiring follow-up data from a structured report of historical images according to a fifth embodiment of the invention;

FIG. 18 is a schematic diagram showing a method for dynamically acquiring follow-up data from a structured report of a historical image according to a fifth embodiment of the present invention;

FIG. 19 is a schematic view showing a list of historical image structured reports of the same patient in a method for dynamically acquiring follow-up data from the historical image structured reports according to a fifth embodiment of the invention;

FIG. 20 is a schematic diagram showing an interface for extracting a preset condition setting of a structured report of a history image in a method for dynamically acquiring follow-up data from the structured report of the history image according to a fifth embodiment of the present invention;

FIG. 21 is a schematic diagram showing an interface of a history image structured report in a list form extracted from a method for dynamically acquiring follow-up data from the history image structured report according to a fifth embodiment of the present invention;

FIG. 22 is a schematic diagram showing a history image structured report interface with a CT00000287 for examination number opened by a doctor in a method for dynamically acquiring follow-up data from a history image structured report according to a fifth embodiment of the present invention;

FIG. 23 is a schematic diagram showing an interface for loading "irregular" data to corresponding positions of a follow-up image structured report after a doctor double clicks on a "form" edit box in the history image structured report in a method for dynamically acquiring follow-up data from the history image structured report according to a fifth embodiment of the present invention;

Fig. 24 is a schematic diagram of an interface for loading a focus, i.e. all description attribute values, to a corresponding position of a follow-up image structured report when a doctor double clicks a focus list "anterior segment of upper right lung" of the history image structured report in a method for dynamically acquiring follow-up data from the history image structured report according to the fifth embodiment of the invention;

FIG. 25 is a diagram showing an interface for loading all description attribute values of a title bar into corresponding positions of a follow-up image structured report by double-clicking the title bar of the focus "size" of the history image structured report by a doctor in a method for dynamically acquiring follow-up data from the history image structured report according to the fifth embodiment of the present invention;

FIG. 26 is a schematic diagram showing an interface for a doctor to select "morphology" and "nature" for comparison and marking in a structured report of a history image in a method for dynamically acquiring follow-up data from the structured report of the history image according to the fifth embodiment of the present invention;

FIG. 27 is a schematic diagram showing an interface of marking a follow-up image structured report after comparing the "form" and the "property" in the method for dynamically acquiring the follow-up data from the history image structured report according to the fifth embodiment of the invention;

FIG. 28 is a schematic diagram showing an interface of a matching unit automatically displaying matched data in a history image structured report in a corresponding position when a doctor selects "right lung", "upper leaf", "front section" description attributes in the history image structured report in a method of dynamically acquiring follow-up data from the history image structured report according to the fifth embodiment of the present invention;

Fig. 29 is a schematic diagram showing an evaluation result interface output by the diagnostic result evaluation unit in the method for dynamically acquiring follow-up data from the historical image structured report according to the fifth embodiment of the invention.

Detailed Description

The invention will be described in detail below with reference to the drawings in combination with embodiments.

Example 1

FIG. 1 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a first embodiment of the invention; as shown in fig. 1, the system includes: a history report extraction module 10, a history report display module 20, a follow-up data extraction module 30, and a follow-up report generation module 40, wherein,

The history report extracting module 10 is connected with the history report display module 20, and is used for extracting all the history image structured reports which are the same as the examination items and the examination purposes of the follow-up image examination based on the preset conditions when the doctor opens the follow-up image examination structured report interface of the patient, and sending the history image structured reports to the history report display module 20;

The system is suitable for being used when an imaging doctor starts to write an examination report after a patient completes follow-up imaging examination, is only suitable for the condition that a historical image report is a structured report, is not a structured report, and is not suitable for use.

FIG. 2 is a schematic diagram showing a system for dynamically acquiring follow-up data from a structured report of historical images according to a first embodiment of the present invention for determining whether the structured report of historical images is a structured report code; as shown in fig. 2, when a doctor opens a follow-up image structured report, the system first determines whether the patient's historical image exam report is a structured report, encoded as follows:

The design HISTORY report view V_RPT_HISTORY IS determined based on whether the structured report IS a conditional CASE_WHEN db.T_RPT_REPORT.F_STU_ID IN (SELECT F_MAIN_ID FROM T_SR_OBJECT_VALUE_CHARY) THEN ' IS ' ELSE ' END AS F_IS_SR.

FIG. 3 is a schematic diagram of a list of historical image structured reports for the same patient in a system for dynamically acquiring follow-up data from the historical image structured reports according to a first embodiment of the invention; as shown in fig. 3, the HISTORY report view v_rpt_hit includes at least the following: patient name, check item (f_stu_place), check purpose (f_stu_char 406), whether it IS a structured report (f_is_sr), patient number (f_pat_no).

FIG. 4 is a schematic diagram showing an interface for extracting a preset condition setting of a historical image structured report from a system for dynamically acquiring follow-up data from the historical image structured report according to the first embodiment of the invention; as shown in fig. 4, the value of the system parameter ID920 is set, and the query condition f_stu_place=' [; 212[; 'AND f_stu_char 406=' [; 3083[; the "andf_is_sr= 'IS" andf_pat_no=' [; 103[; 'AND_STU_NO' [; 202[; the open correlation value of the current check is used in the program to replace the variable [ ] in the query condition; 212[; the [ ] is the examination item, [; 3083[; for inspection purposes, [; 103[; patient number, [; 202[; and is the inspection number.

The number of the current inspection is not listed in the extraction history image structured report list.

The history report display module 20 is respectively connected with the history report extraction module 10 and the follow-up data extraction module 30, and is used for displaying a history image structured report in a list form at a corresponding position of a follow-up image inspection structured report interface for selection by a doctor;

FIG. 5 is a schematic diagram showing an interface of a historical image structured report extracted from a system for dynamically acquiring follow-up data from the historical image structured report according to the first embodiment of the invention; as shown in fig. 5, based on the preset conditions, the history examination report conforming to the preset conditions is shown in the list of fig. 5, and the doctor can click on "report", open the corresponding report interface, and also view the image. The list shows the date and time of examination, the examination number, the examination item, the examination purpose, the age, the patient number, and the status name (whether the initial report or the audit report)

The follow-up data extraction module 30 is respectively connected with the history report display module 20 and the follow-up report generation module 40, and is used for automatically extracting the history data under the description attribute when a doctor opens one of the history image structured reports and double-clicks the description attribute according to the requirement, and loading the history data as follow-up data on the corresponding position of the follow-up image structured report;

FIG. 6 is a schematic diagram of a historical image structured report interface with a CT00000287 for examination number opened by a doctor in a system for dynamically acquiring follow-up data from a historical image structured report according to one embodiment of the invention; referring to fig. 6, the doctor may select a report in the history image structured report list, click on the report button, load the history image structured report interface (Page title displays the history image structured report examination number), and display the examination number "CT00000287" in the upper right corner of fig. 6, and display the structured report related data of the examination number after the Page interface is opened. The interface displays image-related image representations of the patient examined on day 9 and 12 of 2020, for example, the images display various controls under the "other types of lesions" corresponding to the anterior segment of the upper right lung, such as morphology: irregularities; the properties are real, the size is 1mm multiplied by 2mm multiplied by 3mm, the three-dimensional radial line is 6mm ³.

The content to be compared is selected from the historical image report, and can be selected from three levels: 1. the minimum unit may describe the attribute for the CDE (Common DATA ELEMENT) of a lesion; 2. a single lesion (and CDE of all its attributes), or multiple homogeneous lesions, may be selected; 3. a structured report independent Section (Section) may be included for a variety of different types of lesions. The selected structured portion, including its semantic information and information of the historic lesions, is loaded into the follow-up report in its entirety and generates similar CDE attributes as the follow-up report to fill out the comparison.

FIG. 7 is a schematic diagram showing an interface for loading "irregular" data into corresponding positions of a follow-up image structured report after a doctor double clicks on a "form" edit box in the history image structured report in a system for dynamically acquiring follow-up data from the history image structured report according to the first embodiment of the present invention; as shown in FIG. 7, the historical data is loaded by the minimum unit CDE, the upper right corner of FIG. 7 shows "content" to represent that the interface is the current follow-up image examination structured report interface, when the doctor double clicks the "form" description attribute, the value "irregularity" is loaded into the current follow-up report, then the doctor carries out modification on the image data at the current interface according to the follow-up examination image if the doctor needs to modify.

Fig. 8 is a schematic diagram of an interface for loading a focus, i.e. all description attribute values, to a corresponding position of a follow-up image structured report when a doctor double clicks a focus list "anterior segment of upper right lung" of the history image structured report in a system for dynamically acquiring follow-up data from the history image structured report according to the first embodiment of the present invention; as shown in fig. 8, a single focus and CDE of all its attributes are selected, the doctor double clicks on the "anterior segment of upper right lung" of the history report focus list, the focus and all the history data describing the attributes are loaded into the current follow-up report, the "right lung", "upper leaf" and "anterior segment" are selected in the current report interface, and the "other types of focus" are selected, for example, the data corresponding to the morphological, property and size related description attributes are also loaded into the current follow-up report.

FIG. 9 is a schematic diagram showing an interface for loading all description attribute values of a title bar into corresponding positions of a follow-up image structured report by double-clicking the focus "size" title bar of the history image structured report by a doctor in a system for dynamically acquiring follow-up data from the history image structured report according to the first embodiment of the invention; referring to fig. 9, the doctor double clicks on the focus "size" title bar in the history report, and loads all the description attribute values of the title bar into the current follow-up report.

The follow-up report generating module 40 is connected to the follow-up data extracting module 30, and is configured to automatically generate a follow-up image structured report based on each of the follow-up data filled in by the doctor and output a diagnosis result.

The embodiment of the invention is provided with a history report extraction module, a history report display module, a follow-up data extraction module and a follow-up report generation module, when a doctor opens a follow-up image structured report interface, the history image structured report of the same part of the same patient and the same examination purpose can be extracted for a reporting doctor to refer to, when the doctor opens one of the history image structured reports and double clicks a certain description attribute according to the requirement, the follow-up data extraction module automatically extracts the history data under the description attribute, and the history data is used as follow-up data to be loaded on the corresponding position of the follow-up image structured report; the follow-up report generation module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by a doctor; the system can simply and manually select the historical imaging presentation content and add the historical imaging presentation content into the follow-up imaging structured report, is simple and convenient to operate, improves the efficiency of composing the report by doctors, and reduces the requirement on the memory of the doctors.

Example two

FIG. 10 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a second embodiment of the invention; as shown in fig. 10, the system further includes a comparison display module 50 respectively connected to the history report display module 20 and the follow-up report generating module 40, and configured to, when a doctor opens one of the history image structured reports and clicks on a certain history data to be compared, automatically compare the history data with the corresponding follow-up data in the follow-up image structured report after marking the history data, when the follow-up data is identical to the history data, display the follow-up data in the follow-up image structured report with the same mark, and when the follow-up data is different from the history data, display the follow-up data in the follow-up image structured report with different marks.

When a doctor fills out a current follow-up report, in the process of describing certain imaging performance, if parts with the same parts and the same imaging performance are found in a history report, the parts are automatically referred to the current follow-up report.

FIG. 11 is a schematic diagram showing an interface for a doctor to select "morphology" and "nature" for comparison and marking in a structured report of a history image in a system for dynamically acquiring follow-up data from a structured report of a history image according to a second embodiment of the present invention; in the history report, as shown in fig. 11, when the mouse clicks the related control, the description attribute to be compared is selected or cancelled, the selected description attribute is automatically marked, and the marking mode can be a frame with different colors, as shown in fig. 11, when the mouse clicks the description attribute "form" and "property" to be compared, the values of the "form" and the "property" are marked as blue frames, so that the doctor can conveniently look.

FIG. 12 is a schematic diagram of an interface for marking a follow-up image structured report with a front-to-back comparison of "morphology" and "nature" in a system for dynamically acquiring follow-up data from a historical image structured report according to a second embodiment of the present invention; as shown in fig. 12, the morphology value in the current follow-up report is "regular" and the property is "real", so that the contrast display module highlights the "morphology" value with a red border and the "property" is also displayed with a blue border in the current follow-up report, which is convenient for the doctor to operate and contrast.

The form of the marking description attribute can be set individually according to the research and development requirements and the requirements of each medical institution, and is not limited in any way.

According to the embodiment of the invention, the contrast display module is arranged, when a doctor opens one of the historical image structured reports and clicks a certain historical data to be compared, the historical data is automatically compared with the corresponding follow-up data in the follow-up image structured report after being marked, and the data with changed follow-up data are marked differently, so that the doctor is reminded of the change of the focus of the patient before and after the focus, and the intensity of physical and mental labor required by a first-line doctor for realizing a high-quality follow-up report is greatly reduced.

Example III

FIG. 13 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a third embodiment of the invention; as shown in fig. 13, the follow-up data extraction module 30 further includes a matching unit 302, configured to, when a doctor selects some description attribute in the follow-up image structural report, automatically match the history data under the description attribute in the history image structural report, and automatically load the history data under the description attribute to a corresponding position in the follow-up image structural report.

Fig. 14 is a schematic diagram of an interface in which, when a doctor selects the description attributes of "right lung", "upper leaf", "front section" in a follow-up image structured report, the matching unit automatically displays the matched data in the history image structured report in a corresponding position in the system for dynamically acquiring follow-up data from the history image structured report according to the third embodiment of the invention, as shown in fig. 14, when the doctor fills in the current follow-up report, the matching unit automatically matches the focus value in the history report according to the filled attribute value, and automatically introduces the matched value into a part not filled in the current follow-up report, as shown in fig. 14, when the doctor clicks "right lung", "upper leaf", "front section", the matching unit automatically fills in the matched history report focus, and the matched focus of "other types", "forms", "properties", "sizes" into the current follow-up report.

According to the embodiment of the invention, the matching unit is arranged, when a doctor selects certain description attributes in the follow-up image structural report, the history data under the description attributes in the history image structural report are automatically matched, the history data under the description attributes are automatically loaded to the corresponding positions in the follow-up image structural report, and the system is more humanized based on the labeled data and is convenient for the doctor to operate, so that the doctor is saved from looking at the inspection image first and looking at the history image representation, and then the step of looking back at the inspection image structural report to fill in is performed.

Example IV

FIG. 15 is a schematic diagram of a system for dynamically acquiring follow-up data from a structured report of historical images according to a fourth embodiment of the invention; as shown in fig. 15, the follow-up report generating module 40 further includes a diagnosis result evaluating unit 402, configured to compare the follow-up data with the history data, automatically generate an evaluation result based on a preset logic rule, and display the evaluation result on the follow-up image structured report interface.

For different comparison projects, different evaluation methods are used, in the description of chapters and focus, the actual concept is very clear, the follow-up evaluation method is relatively clear, and a conventional analysis method can be automatically applied to automatically generate a chart or a logic conclusion; for certain CDE attributes, there may be a possibility to use RECIST, iRECIST, irRECIST or other different evaluation methods. This allows the diagnostician to manually select the evaluation method to generate the evaluation analysis.

FIG. 16 is a diagram showing an evaluation result interface outputted by a diagnostic result evaluation unit in a system for dynamically acquiring follow-up data from a structured report of historical images according to a fourth embodiment of the present invention; as shown in fig. 16, the lesion can be reported according to the comparison history, and the related diagnosis content can be generated by automatically applying logic or manually editing. As shown in fig. 16: historical report "anterior segment of upper right lung" lesion volume 1mm×2mm×3mm (6 mm ³), new report changed to 2mm×2mm (8 mm ³), applied logic in image description, automatically generated "report before comparison, volume increase: 2mm ³).

The embodiment of the invention is provided with the diagnosis result evaluation unit, compares the follow-up visit data with the history data, automatically generates the evaluation result based on the preset logic rule and displays the evaluation result on the follow-up visit image structured report interface, can quickly calculate and generate a clear comparison analysis result based on the labeled front and back follow-up visit comparison data, can greatly improve the clinical diagnosis and treatment service level of an image department, accumulates precious data for future scientific research analysis, and has outstanding social value and economic value.

Example five

FIG. 17 is a flow chart of a method for dynamically acquiring follow-up data from a structured report of historical images according to a fifth embodiment of the invention; as shown in fig. 17, the method includes the steps of:

step S501, when a doctor opens a follow-up image examination structured report interface of a patient, a history report extraction module extracts all history image structured reports which are the same as examination items and examination purposes of the follow-up image examination based on preset conditions, and sends the history image structured reports to a history report display module;

The method is suitable for being used when an imaging doctor starts to write an examination report after a patient completes follow-up imaging examination, and is only suitable for the condition that a historical image report is a structured report, and is not suitable for the condition that the historical image report is not the structured report.

FIG. 18 is a schematic diagram showing a method for dynamically acquiring follow-up data from a structured report of a historical image according to a fifth embodiment of the present invention; as shown in fig. 18, when a doctor opens a follow-up image structured report, the system first determines whether the patient's historical image exam report is a structured report, encoded as follows:

The design HISTORY report view V_RPT_HISTORY IS determined based on whether the structured report IS a conditional CASE_WHEN db.T_RPT_REPORT.F_STU_ID IN (SELECT F_MAIN_ID FROM T_SR_OBJECT_VALUE_CHARY) THEN ' IS ' ELSE ' END AS F_IS_SR.

FIG. 19 is a schematic view showing a list of historical image structured reports of the same patient in a method for dynamically acquiring follow-up data from the historical image structured reports according to a fifth embodiment of the invention; as shown in fig. 19, the HISTORY report view v_rpt_hit includes at least the following: patient name, check item (f_stu_place), check purpose (f_stu_char 406), whether it IS a structured report (f_is_sr), patient number (f_pat_no).

FIG. 20 is a schematic diagram showing an interface for extracting a preset condition setting of a structured report of a history image in a method for dynamically acquiring follow-up data from the structured report of the history image according to a fifth embodiment of the present invention; as shown in fig. 20, the value of the system parameter ID920 is set, and the query condition f_stu_place=' [; 212[; 'AND f_stu_char 406=' [; 3083[; the "andf_is_sr= 'IS" andf_pat_no=' [; 103[; 'AND_STU_NO' [; 202[; the open correlation value of the current check is used in the program to replace the variable [ ] in the query condition; 212[; the [ ] is the examination item, [; 3083[; for inspection purposes, [; 103[; patient number, [; 202[; and is the inspection number.

The number of the current inspection is not listed in the extraction history image structured report list.

Step S502, a history report display module displays a history image structured report in a list form at a corresponding position of a follow-up image inspection structured report interface for a doctor to select;

FIG. 21 is a schematic diagram showing an interface of a history image structured report in a list form extracted from a method for dynamically acquiring follow-up data from the history image structured report according to a fifth embodiment of the present invention; as shown in fig. 21, based on the preset conditions, the history examination report conforming to the preset conditions is shown in the list of fig. 5, and the doctor can click on "report", open the corresponding report interface, and also view the image. The list shows the date and time of examination, the examination number, the examination item, the examination purpose, the age, the patient number, and the status name (whether the initial report or the audit report)

Step S503, when a doctor opens one of the historical image structural reports and double-clicks a certain description attribute according to the requirement, the follow-up data extraction module automatically extracts the historical data under the description attribute, and the historical data is used as follow-up data to be loaded on the corresponding position of the follow-up image structural report;

FIG. 22 is a schematic diagram showing a history image structured report interface with a CT00000287 for examination number opened by a doctor in a method for dynamically acquiring follow-up data from a history image structured report according to a fifth embodiment of the present invention; referring to fig. 22, a doctor may select a report in the history image structured report list, click on the report button, load the history image structured report interface (Page title displays the history image structured report examination number), and display the examination number "CT00000287" in the upper right corner of fig. 22, and display the structured report related data of the examination number after the Page interface is opened. The interface displays image-related image representations of the patient examined on day 9 and 12 of 2020, for example, the images display various controls under the "other types of lesions" corresponding to the anterior segment of the upper right lung, such as morphology: irregularities; the properties are real, the size is 1mm multiplied by 2mm multiplied by 3mm, the three-dimensional radial line is 6mm ³.

The content to be compared is selected from the historical image report, and can be selected from three levels: 1. the minimum unit may describe the attribute for the CDE (Common DATA ELEMENT) of a lesion; 2. a single lesion (and CDE of all its attributes), or multiple homogeneous lesions, may be selected; 3. a structured report independent Section (Section) may be included for a variety of different types of lesions. The selected structured portion, including its semantic information and information of the historic lesions, is loaded into the follow-up report in its entirety and generates similar CDE attributes as the follow-up report to fill out the comparison.

FIG. 23 is a schematic diagram showing an interface for loading "irregular" data to corresponding positions of a follow-up image structured report after a doctor double clicks on a "form" edit box in the history image structured report in a method for dynamically acquiring follow-up data from the history image structured report according to a fifth embodiment of the present invention; as shown in fig. 23, the history data is loaded by the minimum CDE, and the display of "content" in the upper right corner of fig. 23 represents that the interface is the current follow-up image examination structured report interface, when the doctor double clicks the "form" description attribute, the value "irregularity" is loaded into the current follow-up report, and then the doctor carries out modification on the image data at the current interface according to the follow-up examination image if the doctor needs to modify.

Fig. 24 is a schematic diagram of an interface for loading a focus, i.e. all description attribute values, to a corresponding position of a follow-up image structured report when a doctor double clicks a focus list "anterior segment of upper right lung" of the history image structured report in a method for dynamically acquiring follow-up data from the history image structured report according to the fifth embodiment of the invention; as shown in fig. 24, a single lesion and CDE of all its attributes are selected, the doctor double clicks on the "anterior segment of upper right lung" of the history report lesion list, the lesion and all the history data describing the attributes are loaded into the current follow-up report, the "right lung", "upper leaf" and "anterior segment" are selected in the current report interface, and the "other types of lesions" are selected, for example, the data corresponding to the morphological, property and size related description attributes are also loaded into the current follow-up report.

FIG. 25 is a diagram showing an interface for loading all description attribute values of a title bar into corresponding positions of a follow-up image structured report by double-clicking the title bar of the focus "size" of the history image structured report by a doctor in a method for dynamically acquiring follow-up data from the history image structured report according to the fifth embodiment of the present invention; as shown in fig. 25, referring to the description attribute under the Section, the doctor double clicks on the focus "size" title bar in the history report, and loads all description attribute values of the title bar into the current follow-up report.

Step S504, the follow-up report generating module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by the doctor.

Wherein the method further comprises: when a doctor opens one of the historical image structured reports and clicks a certain historical data to be compared, the comparison display module automatically compares the historical data with corresponding follow-up data in the follow-up image structured report after marking the historical data, when the follow-up data is identical to the historical data, the follow-up data is displayed in the follow-up image structured report with the same mark, and when the follow-up data is different from the historical data, the follow-up data is displayed in the follow-up image structured report with different marks.

When a doctor fills out a current follow-up report, in the process of describing certain imaging performance, if parts with the same parts and the same imaging performance are found in a history report, the parts are automatically referred to the current follow-up report.

FIG. 26 is a schematic diagram showing an interface for a doctor to select "morphology" and "nature" for comparison and marking in a structured report of a history image in a method for dynamically acquiring follow-up data from the structured report of the history image according to the fifth embodiment of the present invention; in the history report, as shown in fig. 26, when the mouse clicks the related control, the description attribute to be compared is selected or cancelled, the selected description attribute is automatically marked, and the marking mode can be a frame with different colors, as shown in fig. 26, when the mouse clicks the description attribute "form" and "property" to be compared, the values of the "form" and the "property" are marked as blue frames, so that the doctor can conveniently look.

FIG. 27 is a schematic diagram showing an interface of marking a follow-up image structured report after comparing the "form" and the "property" in the method for dynamically acquiring the follow-up data from the history image structured report according to the fifth embodiment of the invention; as shown in fig. 27, the morphology values in the current follow-up report are "regular" and the property is "real", so that the comparison display module highlights the "morphology" values with a red border and the "property" is also displayed with a blue border in the current follow-up report, which is convenient for the doctor to operate and compare.

The form of the marking description attribute can be set individually according to the research and development requirements and the requirements of each medical institution, and is not limited in any way.

Wherein the method further comprises: when a doctor selects certain description attributes in the follow-up image structured report, a matching unit in the follow-up data extraction module automatically matches historical data under the description attributes in the historical image structured report, and automatically loads the historical data under the description attributes to corresponding positions in the follow-up image structured report.

Fig. 28 is an interface schematic diagram of a matching unit automatically displaying matched data in a history image structured report in a corresponding position when a doctor selects "right lung", "upper leaf", "front section" description attributes in the history image structured report in a method for dynamically acquiring follow-up data from the history image structured report according to the fifth embodiment of the invention, as shown in fig. 28, when the doctor fills in the current follow-up report, the matching unit automatically matches a focus value in the history report according to the filled attribute values, and automatically introduces the matched values into a part which is not filled in the current follow-up report, as shown in fig. 28, when the doctor clicks "right lung", "upper leaf", "front section", the matching unit automatically fills in the matched history report focus, and the matched "other types of focus", "form", "property", "size" into the current follow-up report.

Wherein the method further comprises: and a diagnosis result evaluation unit in the follow-up report generation module compares the follow-up data with the history data, automatically generates an evaluation result based on a preset logic rule and displays the evaluation result on a follow-up image structured report interface.

For different comparison projects, different evaluation methods are used, in the description of chapters and focus, the actual concept is very clear, the follow-up evaluation method is relatively clear, and a conventional analysis method can be automatically applied to automatically generate a chart or a logic conclusion; for certain CDE attributes, there may be a possibility to use RECIST, iRECIST, irRECIST or other different evaluation methods. This allows the diagnostician to manually select the evaluation method to generate the evaluation analysis.

FIG. 29 is a schematic diagram showing an evaluation result interface outputted by a diagnostic result evaluation unit in a method for dynamically acquiring follow-up data from a structured report of historical images according to a fifth embodiment of the present invention; as shown in fig. 29, the lesion can be reported according to the comparison history, and the related diagnosis content can be generated by automatically applying logic or manually editing. As shown in fig. 29: historical report "anterior segment of upper right lung" lesion volume 1mm×2mm×3mm (6 mm ³), new report changed to 2mm×2mm (8 mm ³), applied logic in image description, automatically generated "report before comparison, volume increase: 2mm ³).

The history report extraction module, the history report display module, the follow-up data extraction module and the follow-up report generation module in the embodiment of the invention can extract the history image structured report with the same part and the same examination purpose of the same patient for reporting the doctor to refer when the doctor opens the follow-up image structured report interface, and automatically extract the history data under the description attribute when the doctor opens one of the history image structured report and double-clicks a certain description attribute according to the requirement, and load the history data as follow-up data on the corresponding position of the follow-up image structured report; the follow-up report generation module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by a doctor; the system can simply and manually select the historical imaging presentation content and add the historical imaging presentation content into the follow-up imaging structured report, is simple and convenient to operate, improves the efficiency of composing the report by doctors, and reduces the requirement on the memory of the doctors; when a doctor opens one of the historical image structured reports and clicks a certain historical data to be compared, the historical data is automatically compared with corresponding follow-up data in the follow-up image structured report after being marked, and the data with changed follow-up data are marked differently so as to remind the doctor of the change of the front and back of the focus of the patient, thereby greatly reducing the intensity of physical and mental labor required by a first-line doctor to realize a high-quality follow-up report; when a doctor selects certain description attributes in the follow-up image structured report, the matching unit automatically matches the history data under the description attributes in the history image structured report, automatically loads the history data under the description attributes to the corresponding positions in the follow-up image structured report, and automatically adds the history data based on the labeled data, so that the system is more humanized, the doctor can conveniently operate, the doctor is saved from looking at the inspection image at this time and looking at the history image representation at this time, and then the doctor returns to the step of filling the inspection image structured report; the diagnosis result evaluation unit compares the follow-up visit data with the history data, automatically generates an evaluation result based on a preset logic rule and displays the evaluation result on the follow-up visit image structured report interface, can quickly calculate and generate a clear comparison analysis result based on labeled front and rear follow-up visit comparison data, can greatly improve the clinical diagnosis and treatment service level of an image department, accumulates precious data for future scientific research analysis, and has outstanding social value and economic value.

From the above description, it can be seen that the above embodiments of the present invention achieve the following technical effects: the embodiment of the invention is provided with a history report extraction module, a history report display module, a follow-up data extraction module and a follow-up report generation module, when a doctor opens a follow-up image structured report interface, the history image structured report of the same part of the same patient and the same examination purpose can be extracted for a reporting doctor to refer to, when the doctor opens one of the history image structured reports and double clicks a certain description attribute according to the requirement, the follow-up data extraction module automatically extracts the history data under the description attribute, and the history data is used as follow-up data to be loaded on the corresponding position of the follow-up image structured report; the follow-up report generation module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by a doctor; the system can simply and manually select the historical imaging presentation content and add the historical imaging presentation content into the follow-up imaging structured report, is simple and convenient to operate, improves the efficiency of composing the report by doctors, and reduces the requirement on the memory of the doctors; the embodiment of the invention is provided with the contrast display module, when a doctor opens one of the historical image structured reports and clicks a certain historical data to be compared, the historical data is automatically compared with the corresponding follow-up data in the follow-up image structured report after being marked, and the data with changed follow-up data is marked differently so as to remind the doctor of the change of the front and back of the focus of a patient, thereby greatly reducing the intensity of physical and mental labor required by a first-line doctor to realize a high-quality follow-up report; according to the embodiment of the invention, the matching unit is arranged, when a doctor selects certain description attributes in the follow-up image structural report, the history data under the description attributes in the history image structural report are automatically matched, the history data under the description attributes are automatically loaded to the corresponding positions in the follow-up image structural report, and the system is more humanized based on the labeled data and is convenient for the doctor to operate, so that the doctor is saved from looking at the inspection image first and looking at the history image representation, and then the step of looking back at the inspection image structural report to fill in is performed; the embodiment of the invention is provided with the diagnosis result evaluation unit, compares the follow-up visit data with the history data, automatically generates the evaluation result based on the preset logic rule and displays the evaluation result on the follow-up visit image structured report interface, can quickly calculate and generate a clear comparison analysis result based on the labeled front and back follow-up visit comparison data, can greatly improve the clinical diagnosis and treatment service level of an image department, accumulates precious data for future scientific research analysis, and has outstanding social value and economic value.

It will be apparent to those skilled in the art that the modules or steps of the invention described above may be implemented in a general purpose computing device, they may be concentrated on a single computing device, or distributed across a network of computing devices, or they may alternatively be implemented in program code executable by computing devices, such that they may be stored in a memory device for execution by the computing devices, or they may be separately fabricated into individual integrated circuit modules, or multiple modules or steps within them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A system for dynamically acquiring follow-up data from a historical image structured report is characterized by comprising a historical report extraction module, a historical report display module, a follow-up data extraction module and a follow-up report generation module, wherein,

The history report extraction module is connected with the history report display module and is used for extracting all the history image structured reports which are the same as the examination items and the examination purposes of the follow-up image examination based on preset conditions when a doctor opens a follow-up image examination structured report interface of a patient, and sending the history image structured reports to the history report display module;

the history report display module is respectively connected with the history report extraction module and the follow-up data extraction module and is used for displaying the history image structured report at the corresponding position of the follow-up image inspection structured report interface in a list form for a doctor to select;

The follow-up data extraction module is respectively connected with the history report display module and the follow-up report generation module and is used for automatically extracting the history data under the description attribute when a doctor opens one of the history image structured reports and double-clicks the description attribute according to the requirement, and loading the history data as follow-up data on the corresponding position of the follow-up image structured report; wherein the descriptive attribute is one or more of the following categories: 1. CDE (Common DATA ELEMENT) description attribute with minimum unit of a certain focus; 2. selecting a single focus and CDE of all attributes thereof, or a plurality of similar focuses; 3. a structured report independent Section (Section) containing a plurality of different types of lesions; the structural part selected by double-click comprises semantic information and information of a history focus, and all the information is loaded into the follow-up image structural report and used as a follow-up report to generate similar CDE attributes;

The follow-up report generation module is connected with the follow-up data extraction module and is used for automatically generating a follow-up image structured report and outputting a diagnosis result based on each follow-up data filled by a doctor; the follow-up report generating module further comprises a diagnosis result evaluating unit, wherein the diagnosis result evaluating unit is used for comparing the follow-up data with the historical data, automatically generating an evaluation result based on a preset logic rule and displaying the evaluation result on the follow-up image inspection structured report interface.

2. The system for dynamically acquiring follow-up data from a structured report of historical images according to claim 1, further comprising a comparison display module respectively connected to the display module of historical images and the generation module of follow-up reports for automatically comparing the historical data with the corresponding follow-up data in the structured report of follow-up images after marking the historical data when a doctor opens one of the structured report of historical images and clicks on the historical data to be compared, displaying the follow-up data in the structured report of follow-up images with the same mark when the follow-up data is the same as the historical data, and displaying the follow-up data in the structured report of follow-up images with different marks when the follow-up data is different from the historical data.

3. The system for dynamically retrieving follow-up data from a structured report of historical imagery according to claim 1, wherein the follow-up data extraction module further comprises a matching unit for automatically matching historical data under a descriptive attribute in the structured report of historical imagery when a physician selects some of the descriptive attributes in the structured report of follow-up imagery, and automatically loading the historical data under the descriptive attribute to a corresponding location in the structured report of follow-up imagery.

4. A method for dynamically obtaining follow-up data from a structured report of historical images, the method comprising:

when a doctor opens a follow-up image examination structured report interface of a patient, the history report extraction module extracts all history image structured reports with the same examination items and examination purposes as those of the follow-up image examination based on preset conditions, and sends the history image structured reports to the history report display module;

the history report display module displays the history image structured report at the corresponding position of the follow-up image inspection structured report interface in a list form for a doctor to select;

When a doctor opens one of the historical image structural reports and double-clicks a certain description attribute according to the requirement, the follow-up data extraction module automatically extracts the historical data under the description attribute, and the historical data is used as follow-up data to be loaded on the corresponding position of the follow-up image structural report; wherein the descriptive attribute is one or more of the following categories: 1. CDE (Common DATA ELEMENT) description attribute with minimum unit of a certain focus; 2. selecting a single focus and CDE of all attributes thereof, or a plurality of similar focuses; 3. a structured report independent Section (Section) containing a plurality of different types of lesions; the structural part selected by double-click comprises semantic information and information of a history focus, and all the information is loaded into the follow-up image structural report and used as a follow-up report to generate similar CDE attributes;

The follow-up report generation module automatically generates a follow-up image structured report and outputs a diagnosis result based on each follow-up data filled in by a doctor; wherein the method further comprises: and a diagnosis result evaluation unit in the follow-up report generation module compares the follow-up data with the historical data, automatically generates an evaluation result based on a preset logic rule and displays the evaluation result on the follow-up image inspection structured report interface.

5. The method of dynamically retrieving follow-up data from a structured report of historical imagery of claim 4, wherein the method further comprises: when a doctor opens one of the historical image structured reports and clicks a certain historical data to be compared, the comparison display module marks the historical data and then automatically compares the historical data with the corresponding follow-up data in the follow-up image structured report, when the follow-up data is identical to the historical data, the follow-up data is displayed in the follow-up image structured report in the same mark, and when the follow-up data is different from the historical data, the follow-up data is displayed in the follow-up image structured report in the different mark.

6. The method of dynamically retrieving follow-up data from a structured report of historical imagery of claim 4, wherein the method further comprises: when a doctor selects some description attributes in the follow-up image structured report, a matching unit in the follow-up data extraction module automatically matches historical data under the description attributes in the historical image structured report, and automatically loads the historical data under the description attributes to corresponding positions in the follow-up image structured report.