CN115579110A - Method and system for automatically saving diagnosis scene information when using image browser - Google Patents

Abstract

The invention provides a method for automatically saving diagnosis scene information when using an image browser, which comprises the following steps: acquiring a use signal sent by an operator when using a measuring tool on an image browser, and determining the time for sending the trigger condition based on the use signal; after the arrival time, the measuring tool sends the triggering condition to the image browser; saving diagnosis scene information of the focus according to the trigger condition; and sending the diagnosis scene information of the focus to a management server. The invention also discloses a system for automatically storing the diagnosis scene information when the image browser is used. The system and the method can store the relevant information of the diagnosis scene of the focus of an operator, provide verifiable evidence for the field of evaluating the key tumor medicine by using image evaluation, and solve the problem that benefit delivery possibly exists in the clinical test scene of medicine evaluation due to the fact that the prior art has no verifiable diagnosis information and no traceable quality records.

Description

Method and system for automatically saving diagnosis scene information when using image browser

Technical Field

The present invention relates to the field of medical information, and more particularly, to a method and system for automatically saving diagnosis scene information when using an image browser.

Background

More and more tumor drug evaluations end up with imaging diagnosis. In this serious clinical trial scenario of drug evaluation, benefits are significant, but technical complexity is not high, and if only the results of the diagnosis, without verifiable procedures, it is difficult for the drug administration to believe that no benefit is being delivered. A reliable imaging lesion assessment must be process verifiable to greatly increase the difficulty of counterfeiting. Currently, no image browsing software can automatically record the verifiable information in a specific occasion as the basis for quality verification.

Among the DICOM protocols, there is a GSPS (Gray Scale Presentation Status) technology that records window width/level, magnification, position of translation, measurement information, and contents of text annotation by attaching a specific small file to a measured DICOM file. The method is mainly designed for transmitting images of a diagnostician to a back clinician, cannot record a complex measuring process and automatically generate the images, needs to click a mouse every time, and is inconvenient to operate; and the function is completely unrelated to operator identity, site number and operation time, only expresses pure medical content, and cannot meet the requirement of quality check on an extremely important diagnosis process.

Disclosure of Invention

In view of the above, the main objective of the present invention is to provide a method and a system for automatically saving diagnosis scenario information when using an image browser, which associate a function of automatically saving a work scenario state with a set of specially defined standardized measurement tools, and implement automatic saving of a plurality of diagnosis scenarios while performing standardized measurement, so as to solve the problem that there is no verifiable diagnosis information and no traceable quality records in the prior art, which may cause benefit delivery in a clinical test scenario of drug evaluation.

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

in one aspect, the present invention provides a method for automatically saving diagnosis scene information when using an image browser, including: acquiring a use signal sent by an operator when using a measuring tool on an image browser, and determining the time for sending the trigger condition based on the use signal; after the arrival time, the measuring tool sends the trigger condition to the image browser; saving diagnosis scene information of the focus according to the trigger condition; and sending the diagnosis scene information of the focus to a management server.

Preferably, the measuring tool is a special measuring tool preset on the image browser and associated with the trigger condition.

Preferably, the method comprises the steps of acquiring a use signal sent by an operator when the measurement tool is used on an image browser, and determining the time for sending the trigger condition based on the use signal, wherein the specific steps comprise: when an operator clicks one end of the maximum diameter of the focus, acquiring a use signal for the first time; when the operator clicks the other end of the maximum diameter of the focus, acquiring a use signal for the second time; the time at which the usage signal is acquired for the second time is identified, and this time is sent as the time at which the trigger condition is sent.

Preferably, the diagnosis scene information of the lesion is operator information, diagnosis site information, software version information, diagnosis time information, patient information, measurement scene snapshot, and lesion measurement value information.

Preferably, the diagnosis scenario information of each lesion is saved in an XML format.

In another aspect, the present invention provides a system for automatically saving diagnosis scene information when using an image browser, the system comprising: the device comprises a determining module, a first sending module, a storage module and a second sending module, wherein the determining module is connected with the first sending module and used for acquiring a use signal sent by an operator when the operator uses a measuring tool on an image browser and determining the time for sending a trigger condition based on the use signal; the first sending module is connected with the determining module and the storing module and used for sending the triggering condition to the image browser by the measuring tool after the time is up; the storage module is connected with the first sending module and the second sending module and is used for storing the diagnosis scene information of the focus according to the trigger condition; and the second sending module is connected with the storage module and is used for sending the diagnosis scene information of the focus to the management server.

Preferably, the measuring tool is a special measuring tool preset on the image browser and associated with the trigger condition.

Preferably, the determining module comprises: the device comprises an acquisition unit and an identification unit, wherein the acquisition unit is connected with the identification unit and is used for acquiring a use signal for the first time when an operator clicks one end of the maximum diameter of the focus and acquiring the use signal for the second time when the operator clicks the other end of the maximum diameter of the focus; and the identification unit is connected with the acquisition unit and used for identifying the time for acquiring the use signal for the second time, and the time is used as the time for sending the trigger condition.

Preferably, the diagnosis scene information of the lesion is operator information, diagnosis site information, software version information, diagnosis time information, patient information, measurement scene snapshot, and lesion measurement value information.

Preferably, the diagnosis scenario information of each lesion is saved in an XML format.

The invention has the technical effects that:

1. the method can acquire the use signal sent by an operator when using the measuring tool on the image browser, and determines the time for sending the trigger condition based on the use signal; after the arrival time, the measuring tool sends the triggering condition to the image browser; saving diagnosis scene information of the focus according to the trigger condition; the information of the diagnosis scene of the focus is sent to the management server, so that the relevant information of the diagnosis scene of the focus can be stored by an operator, verifiable evidence is provided for the field of evaluating the key tumor medicine by using image evaluation, and the problem that benefit delivery is possible in the clinical test scene of medicine evaluation due to the fact that the prior art has no verifiable diagnosis information and no traceable quality records can be solved; the method automatically records the diagnosis scene information of the focuses, and has positive significance for improving the working efficiency and the working quality;

2. the method of the invention sets measuring tools in advance on the image browser, the measuring tools are associated with the triggering conditions, have specific standardized measuring tools, and send the triggering conditions to the image browser after identifying the time of reaching the triggering conditions, so that the image browser can save the diagnosis process in real time, and the method is convenient for an operator to use;

3. the diagnosis scene information of the focus stored by the image browser not only comprises the process of an operator for diagnosing the focus, such as scene snapshot of focus measurement and focus measurement value information, but also comprises the information of the operator, diagnosis site information, software version information, diagnosis time information, patient information and the like, and the stored data is comprehensive, so that comprehensive data is provided for a later checker to extract;

4. in the method, the diagnosis scene information of the focus stored by the image browser is stored in an XML format, so that a user can check the diagnosis scene information by using a common browser, the analysis is simple and convenient, and the compatibility is better.

Drawings

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

FIG. 1 is a flowchart illustrating a method for automatically saving diagnostic context information when using an image browser according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating a measurement tool installed on an image browser according to an embodiment of the present invention;

fig. 3 is a schematic view illustrating a measured length of a lesion 1 displayed after an operator clicks the lesion 1 in a method for automatically saving diagnosis scene information using an image viewer according to an embodiment of the present invention;

fig. 4 is a schematic diagram illustrating a diagnosis scene information XML file of a lesion generated and transmitted to a management server in a method for automatically saving diagnosis scene information when using an image browser according to an embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a diagnosis scene information XML file of a lesion is generated and then saved in a computer folder in a method for automatically saving the diagnosis scene information when using an image browser according to an embodiment of the present invention;

FIG. 6 is a diagram illustrating an XML file opened by a browser in a method for automatically saving diagnostic context information when using a video browser according to an embodiment of the present invention;

fig. 7 is a schematic diagram illustrating an interface presented to a user after parsing an XML file in a method for automatically saving diagnosis scene information when using an image browser according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating a second embodiment of the present invention, in which diagnostic scene information is automatically saved when using an image browser;

FIG. 9 is a diagram illustrating a third embodiment of the present invention, in which diagnostic scene information is automatically saved when using a video browser;

FIG. 10 is a diagram illustrating a system for automatically saving information of a diagnosis scenario when using an image browser according to a third embodiment of the present invention to set a measurement tool on the image browser;

fig. 11 is a view illustrating a measured length of a lesion 1 displayed after an operator clicks the lesion 1 in a system for automatically saving diagnosis scene information while using an image viewer according to a third embodiment of the present invention;

fig. 12 is a diagram illustrating a diagnosis scene information XML file of a lesion in a system for automatically saving diagnosis scene information when using an image browser according to a third embodiment of the present invention, which is transmitted to a management server after being generated;

fig. 13 is a diagram illustrating a diagnosis scene information XML file of a lesion in a system for automatically saving diagnosis scene information when using an image browser according to a third embodiment of the present invention is generated and then saved in a computer folder;

fig. 14 is a diagram illustrating an XML file opened by a browser in a system for automatically saving diagnostic scene information when using a video browser according to a third embodiment of the present invention;

fig. 15 is a schematic diagram illustrating an interface presented to a user after parsing an XML file in a system for automatically saving diagnosis scene information when using a video browser according to a third embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example one

FIG. 1 is a flowchart illustrating a method for automatically saving diagnostic context information when using an image browser according to an embodiment of the present invention; as shown in fig. 1, the method comprises the steps of:

step S101, acquiring a use signal sent by an operator when using a measuring tool on an image browser, and determining the time for sending a trigger condition based on the use signal;

the measuring tool is a special measuring tool which is preset on an image browser and is associated with the triggering condition.

The method comprises the following steps of acquiring a use signal sent by an operator when using a measuring tool on an image browser, and determining the time for sending a trigger condition based on the use signal, wherein the method comprises the following specific steps:

when an operator clicks one end of the maximum diameter of the focus, acquiring a use signal for the first time;

when the operator clicks the other end of the maximum diameter of the focus, acquiring a use signal for the second time;

the time at which the usage signal is acquired for the second time is identified, and this time is sent as the time at which the trigger condition is sent.

FIG. 2 is a schematic diagram illustrating a measurement tool installed on an image browser according to a first embodiment of the present invention, wherein the method automatically saves information of a diagnosis scene when the image browser is used; as shown in fig. 2, a set of standardized measuring tools, i.e. special measuring tools, is configured, and includes three measuring buttons, i.e. "focus 1 maximum diameter measurement", "focus 2 maximum diameter measurement", and "focus 3 maximum diameter measurement", respectively, inside.

The setting of the special measuring tool can be set according to actual requirements, and the number and the form are not limited.

Step S102, after the time is reached, the measuring tool sends the triggering condition to the image browser;

step S103, saving diagnosis scene information of the focus according to the trigger condition;

the diagnosis scene information of the focus is operator information, diagnosis site information, software version information, diagnosis time information, patient information, measurement scene snapshot and focus measurement value information. Regarding the diagnosis scene information of the lesion, in the setting process, the information field content corresponding to the diagnosis scene information of the lesion is generally displayed in a form corresponding to a list in advance, as shown in the following table:

the diagnosis scene information of the focus is coded by RADLEX or SNOMED, and the total code number does not exceed 100 items.

In the above table, except that the measurement scene snapshot is a picture, other information is data tag information, that is, a specific value.

Wherein the diagnosis scene information of each lesion is saved in an XML format so as to be displayed using a general browser. Each XML file takes the site number and the time as index naming files.

And step S104, transmitting the diagnosis scene information of the focus to a management server.

After the diagnosis scene XML file of each focus is generated, the diagnosis scene XML file is automatically sent to a management server through an HL7 message by a browser.

Fig. 3 is a schematic view illustrating a measured length of a lesion 1 displayed after an operator clicks the lesion 1 in a method for automatically saving diagnosis scene information while using an image viewer according to an embodiment of the present invention; as shown in fig. 3, an operator (typically, a imaging physician for image diagnosis) clicks the "lesion 1" button, then turns over the image to find the maximum diameter of the lesion, and then clicks both ends of the maximum diameter to measure the length of one line segment.

When the mouse clicks one end of the maximum diameter of the focus 1 in the graph 3, the using signal is obtained for the first time, when the mouse clicks the other end, the using signal is obtained for the second time, the time for sending the trigger condition is determined, at the moment, the measuring scene snapshot is taken, and the image browser stores the diagnosis scene information of all the focuses.

Taking an example that 3 main entity occupying lesions are found in a certain solid tumor at a baseline time, for each solid tumor, a CT/MR image needs to be browsed, the maximum diameter of each solid tumor in a certain direction on an axial image is found and measured, then the 3 maximum diameters are automatically added to form a measurement result of the measurement, the result is automatically compared with the measurement result at the baseline time, and an evaluation conclusion is automatically given according to the evaluation standard logic according to the numerical change of the result. (i.e., comparison of pre-and post-administration of a patient, pre-administration image diagnosis is also stored and recorded according to the method of the invention)

In fig. 3, when the lesion 1 is measured, the measurement tool sends a trigger condition for saving a scene to the image browser, and the image browser is triggered to complete information saving and automatically sends the information to the management server through an HL7 message. The operation process of the rest 2 focus buttons is similar, when all the 3 focus buttons are measured, the background judgment system automatically extracts the measured values to accumulate based on HL7 information, and automatically compares the measured values with the baseline data to generate a diagnosis conclusion. The background automatic judgment system is not a component of the image browser, is a management module specially developed for the business, can be flexibly modified according to the change of the business, and does not influence the use of the image browser.

To be specifically noted: the operator does not save the diagnosis scene by using the measuring tool which is not preset on the image browser and is associated with the triggering condition, and only the operator uses the measuring tool which is associated with the triggering condition to save the diagnosis scene.

After the measurement is finished, the image browser automatically generates an XML file of a scene.

Fig. 4 is a schematic diagram illustrating a diagnosis scene information XML file of a lesion generated and transmitted to a management server in a method for automatically saving diagnosis scene information when using an image browser according to an embodiment of the present invention; fig. 5 is a schematic diagram illustrating a diagnosis scene information XML file of a lesion is generated and then saved in a computer folder in a method for automatically saving the diagnosis scene information when using an image browser according to an embodiment of the present invention; as shown in fig. 4 and 5, after the scene XML file is generated, the scene XML file is automatically transmitted to the management server by the video browser through an HL7 message.

FIG. 6 is a diagram illustrating an XML file opened by a browser in a method for automatically saving diagnostic context information when using a video browser according to an embodiment of the present invention; as shown in fig. 6.

FIG. 7 is a schematic diagram illustrating an interface presented to a user after parsing an XML file in a method for automatically saving diagnosis scene information when using an image browser according to an embodiment of the present invention; as shown in fig. 7, if the file for storing the record is viewed, the XML file needs to be parsed and displayed, which is a separate exe file and is displayed in the form of a form or a list. The scene of the imaging physician when measuring the lesion, such as the diagnostician ID, diagnostician, site information, patient name, lesion number, etc., can be clearly seen from the figure.

The embodiment of the invention can acquire the use signal sent by an operator when using the measuring tool on the image browser, and determines the time for sending the trigger condition based on the use signal; after the arrival time, the measuring tool sends the triggering condition to the image browser; saving diagnosis scene information of the focus according to the trigger condition; the system has the advantages that the diagnosis scene information of the focus is sent to the management server, the relevant information of the diagnosis scene of the focus can be stored by an operator, the verifiable evidence is provided for the field of image evaluation for researching the key tumor drug evaluation, and the problem that benefit delivery is possible in the clinical test scene of drug evaluation caused by the absence of verifiable diagnosis information and traceable quality records in the prior art can be solved; the method can automatically record the diagnosis scene information of the focuses, and has positive significance for improving the working efficiency and the working quality; the embodiment of the invention presets measuring tools on the image browser, the measuring tools are associated with trigger conditions, the measuring tools have specific standardized measuring tools, and the trigger conditions are sent to the image browser after the time of reaching the trigger conditions is identified, so that the image browser can store the diagnosis process in real time, and an operator can use the measuring tools conveniently; the diagnosis scene information of the focus stored by the image browser in the embodiment of the invention not only comprises the process of diagnosing the focus by an operator, such as scene snapshot of focus measurement and focus measurement value information, but also comprises the information of the operator, diagnosis site information, software version information, diagnosis time information, patient information and the like, and the stored data is comprehensive, so that comprehensive data is provided for a later checker to extract; in the embodiment of the invention, the diagnosis scene information of the focus stored by the image browser is stored in an XML format, so that a user can check the diagnosis scene information by using a common browser, the analysis is simple and convenient, and the compatibility is better.

Example two

FIG. 8 is a diagram illustrating a second embodiment of the present invention, in which diagnostic scene information is automatically saved when using an image browser; as shown in fig. 8, the system includes: a determination module 10, a first sending module 20, a saving module 30 and a second sending module 40, wherein,

the determining module 10 is connected with the first sending module 20 and is used for acquiring a use signal sent by an operator when the measuring tool is used on the image browser and determining the time for sending the trigger condition based on the use signal;

the measuring tool is a special measuring tool which is preset on an image browser and is associated with the triggering condition.

The first sending module 20 is connected with the determining module 10 and the storing module 30, and is used for sending the triggering condition to the image browser by the measuring tool after the arrival time;

the storage module 30 is connected with the first sending module 20 and the second sending module 40 and is used for storing the diagnosis scene information of the focus according to the trigger condition;

the diagnosis scene information of the focus is operator information, diagnosis site information, software version information, diagnosis time information, patient information, measurement scene snapshot and focus measurement value information. Regarding the diagnosis scene information of the lesion, in the setting process, the information field content corresponding to the diagnosis scene information of the lesion is generally displayed in a form corresponding to a list in advance, as shown in the following table:

the diagnosis scene information of the focus is coded by RADLEX or SNOMED, and the total code number does not exceed 100 items.

In the above table, except that the measurement scene snapshot is a picture, other information is data tag information, that is, a specific value.

Wherein the diagnosis scene information of each lesion is saved in an XML format so as to be displayed using a general browser. Each XML file takes the site number and the time as index naming files.

And a second sending module 40, connected to the saving module 30, for sending the information of the diagnosis scene of the lesion to the management server.

After the diagnosis scene XML file of each focus is generated, the diagnosis scene XML file is automatically sent to the management server through HL7 messages by the browser.

The embodiment of the invention can acquire the use signal sent by an operator when using the measuring tool on the image browser, and determines the time for sending the trigger condition based on the use signal; after the arrival time, the measuring tool sends the trigger condition to the image browser; saving diagnosis scene information of the focus according to the trigger condition; the system has the advantages that the diagnosis scene information of the focus is sent to the management server, the relevant information of the diagnosis scene of the focus can be stored by an operator, the verifiable evidence is provided for the field of image evaluation for researching the key tumor drug evaluation, and the problem that benefit delivery is possible in the clinical test scene of drug evaluation caused by the absence of verifiable diagnosis information and traceable quality records in the prior art can be solved; the method automatically records the diagnosis scene information of the focuses, and has positive significance for improving the working efficiency and the working quality; the embodiment of the invention presets measuring tools on the image browser, the measuring tools are associated with trigger conditions, the measuring tools have specific standardized measuring tools, and the trigger conditions are sent to the image browser after the time of reaching the trigger conditions is identified, so that the image browser can store the diagnosis process in real time, and an operator can use the measuring tools conveniently; the diagnosis scene information of the focus stored by the image browser in the embodiment of the invention not only comprises the process of diagnosing the focus by an operator, such as scene snapshot of focus measurement and focus measurement value information, but also comprises the information of the operator, diagnosis site information, software version information, diagnosis time information, patient information and the like, and the stored data is comprehensive, so that comprehensive data is provided for a later checker to extract; in the embodiment of the invention, the diagnosis scene information of the focus stored by the image browser is stored in an XML format, so that a user can check the diagnosis scene information by using a common browser, the analysis is simple and convenient, and the compatibility is better.

EXAMPLE III

FIG. 9 is a diagram illustrating a third embodiment of the present invention, in which diagnostic scene information is automatically saved when using a video browser; as shown in fig. 9, the determination module 10 includes: an acquisition unit 102 and a recognition unit 104, wherein,

the acquisition unit 102 is connected with the recognition unit 104 and is used for acquiring the use signal for the first time when an operator clicks one end of the maximum diameter of the focus and acquiring the use signal for the second time when the operator clicks the other end of the maximum diameter of the focus;

and the identifying unit 104 is connected with the acquiring unit 102 and is used for identifying the time of acquiring the use signal for the second time, and the time is used as the time of sending the trigger condition.

FIG. 10 is a diagram illustrating a system for automatically saving information of a diagnosis scenario when using an image browser according to a third embodiment of the present invention to set a measurement tool on the image browser; as shown in fig. 10, a set of standardized measuring tools, i.e. special measuring tools, is configured, and includes three measuring buttons, i.e. "focus 1 maximum diameter measurement", "focus 2 maximum diameter measurement", and "focus 3 maximum diameter measurement", respectively, inside.

The setting of the special measuring tool can be set according to actual requirements, and the number and the form are not limited.

Fig. 11 is a view illustrating a measured length of a lesion 1 displayed after an operator clicks the lesion 1 in a system for automatically saving diagnosis scene information while using an image viewer according to a third embodiment of the present invention; as shown in fig. 11, an operator (typically, a imaging physician who performs an imaging diagnosis) clicks the "lesion 1" button, then turns over the image to find the maximum diameter of the lesion, finds the layer, and then clicks both ends of the maximum diameter to measure the length of one line segment.

When the mouse clicks one end of the maximum diameter of the focus 1 in fig. 11, the use signal is obtained for the first time, when the mouse clicks the other end, the use signal is obtained for the second time, the time for sending the trigger condition is determined, at this time, the measurement scene snapshot is taken, and the image browser stores the diagnosis scene information of all the focuses.

Taking an example that 3 main entity occupying lesions are found in a certain solid tumor at a baseline time, for each solid tumor, a CT/MR image needs to be browsed, the maximum diameter of each solid tumor in a certain direction on an axial image is found and measured, then the 3 maximum diameters are automatically added to form a measurement result of the measurement, the result is automatically compared with the measurement result at the baseline time, and an evaluation conclusion is automatically given according to the evaluation standard logic according to the numerical change of the result. (i.e., comparison of pre-and post-administration of a patient, pre-administration image diagnosis is also stored and recorded according to the method of the invention)

In fig. 11, when the lesion 1 is measured, the measurement tool sends a trigger condition for saving a scene to the image browser, and triggers the image browser to complete information saving and automatically send the information to the management server through an HL7 message. The operation process of the rest 2 focus buttons is similar, when all the 3 focus buttons are measured, the background judgment system automatically extracts the measured values to accumulate based on HL7 information, and automatically compares the measured values with the baseline data to generate a diagnosis conclusion. The background automatic judgment system is not a component of the image browser, is a management module specially developed for the business, can be flexibly modified according to the change of the business, and does not influence the use of the image browser.

To be specifically noted: the operator does not save the diagnosis scene by using the measuring tool which is not preset on the image browser and is associated with the triggering condition, and only the operator uses the measuring tool which is associated with the triggering condition to save the diagnosis scene.

After the measurement is finished, the image browser automatically generates an XML file of a scene.

Fig. 12 is a diagram illustrating a diagnosis scene information XML file of a lesion in a system for automatically saving diagnosis scene information when using an image viewer, according to a third embodiment of the present invention, generated and then transmitted to a management server; fig. 13 is a diagram illustrating a diagnosis scene information XML file of a lesion in a system for automatically saving diagnosis scene information when using an image viewer is generated and saved in a computer folder according to a third embodiment of the present invention; as shown in fig. 12 and 13, after the scene XML file is generated, the scene XML file is automatically transmitted to the management server by the video browser through an HL7 message.

Fig. 14 is a diagram illustrating an XML file opened by a browser in a system for automatically saving diagnostic scene information when using a video browser according to a third embodiment of the present invention; as shown in fig. 14.

FIG. 15 is a diagram illustrating an interface displayed to a user after parsing an XML file in a system for automatically saving diagnosis scene information when using an image browser according to a third embodiment of the present invention; as shown in fig. 15, if the file for storing the record is viewed, the XML file needs to be parsed and displayed, which is a separate exe file, and is displayed in the form of a form or a list. The scene of the imaging physician when measuring the lesion, such as the diagnostician ID, diagnostician, site information, patient name, lesion number, etc., can be clearly seen from the figure.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: the embodiment of the invention can acquire the use signal sent by an operator when using the measuring tool on the image browser, and determines the time for sending the trigger condition based on the use signal; after the arrival time, the measuring tool sends the triggering condition to the image browser; saving diagnosis scene information of the focus according to the trigger condition; the system has the advantages that the diagnosis scene information of the focus is sent to the management server, the relevant information of the diagnosis scene of the focus can be stored by an operator, the verifiable evidence is provided for the field of image evaluation for researching the key tumor drug evaluation, and the problem that benefit delivery is possible in the clinical test scene of drug evaluation caused by the absence of verifiable diagnosis information and traceable quality records in the prior art can be solved; the method can automatically record the diagnosis scene information of the focuses, and has positive significance for improving the working efficiency and the working quality; the embodiment of the invention presets measuring tools on the image browser, the measuring tools are associated with trigger conditions, the measuring tools have specific standardized measuring tools, and the trigger conditions are sent to the image browser after the time of reaching the trigger conditions is identified, so that the image browser can store the diagnosis process in real time, and an operator can use the measuring tools conveniently; the diagnosis scene information of the focus stored by the image browser in the embodiment of the invention not only comprises the process of diagnosing the focus by an operator, such as scene snapshot of focus measurement and focus measurement value information, but also comprises the information of the operator, diagnosis site information, software version information, diagnosis time information, patient information and the like, and the stored data is comprehensive, so that comprehensive data is provided for a later checker to extract; in the embodiment of the invention, the diagnosis scene information of the focus stored by the image browser is stored in an XML format, so that a user can check the diagnosis scene information by using a common browser, the analysis is simple and convenient, and the compatibility is better.

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

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A method for automatically saving diagnostic context information while using an image viewer, comprising:

acquiring a use signal sent by an operator when using a measuring tool on an image browser, and determining the time for sending the trigger condition based on the use signal;

after the time is reached, the measuring tool sends the triggering condition to the image browser;

saving diagnosis scene information of the focus according to the trigger condition;

and sending the diagnosis scene information of the focus to a management server.

2. The method of claim 1, wherein the measurement tool is a special measurement tool preset on the image viewer and associated with the trigger condition.

3. The method of claim 1, wherein the step of obtaining a usage signal sent by an operator when using a measurement tool on the image viewer, and determining the time for sending the trigger condition based on the usage signal comprises:

when an operator clicks one end of the maximum diameter of the focus, acquiring the use signal for the first time;

when the operator clicks the other end of the maximum diameter of the focus, acquiring the use signal for the second time;

and identifying the time for acquiring the use signal for the second time, and taking the time as the time for sending the trigger condition.

4. The method of claim 1, wherein the diagnosis scene information of the lesion is the operator information, diagnosis site information, software version information, diagnosis time information, patient information, measurement scene snapshot, lesion measurement value information.

5. The method of claim 4, wherein the diagnosis scene information of each lesion is stored in XML format.

6. A system for automatically saving diagnostic context information while using an image viewer, the system comprising: a determining module, a first sending module, a storing module and a second sending module, wherein,

the determining module is connected with the first sending module and used for acquiring a use signal sent by an operator when the operator uses the measuring tool on the image browser and determining the time for sending the trigger condition based on the use signal;

the first sending module is connected with the determining module and the storing module and used for sending the triggering condition to the image browser by the measuring tool after the time is up;

the storage module is connected with the first sending module and the second sending module and used for storing the diagnosis scene information of the focus according to the trigger condition;

and the second sending module is connected with the storage module and is used for sending the diagnosis scene information of the focus to a management server.

7. The system of claim 6, wherein the measurement tool is a special measurement tool preset on the image viewer and associated with the trigger condition.

8. The system of claim 6, wherein the determining module comprises: an acquisition unit and an identification unit, wherein,

the acquisition unit is connected with the identification unit and is used for acquiring the use signal for the first time when an operator clicks one end of the maximum diameter of the focus and acquiring the use signal for the second time when the operator clicks the other end of the maximum diameter of the focus;

and the identification unit is connected with the acquisition unit and used for identifying the time for acquiring the use signal for the second time and taking the time as the time for sending the trigger condition.

9. The system of claim 6, wherein the diagnosis scene information of the lesion is the operator information, diagnosis site information, software version information, diagnosis time information, patient information, measurement scene snapshot, lesion measurement value information.

10. The system of claim 9, wherein the diagnosis scene information of each lesion is stored in XML format.

Images