CN115312161A - Medical image film reading method, system, storage medium and equipment - Google Patents

Abstract

The invention provides a medical image reading method, which comprises the following steps: connecting a medical image processing system, and acquiring medical image information of a patient after an information interaction channel is established; respectively operating the two-dimensional image and the three-dimensional model of the medical image in the two-dimensional image browsing area and the three-dimensional model browsing area; and giving a film reading result according to the two-dimensional image browsing area and the marked focus condition in the three-dimensional model browsing area, and generating and outputting a film reading report. The film reading system applying the film reading method comprises the following steps: the device comprises an acquisition module, a two-dimensional image operation module, a three-dimensional model operation module and a report generation module. The invention can respectively operate the two-dimensional image and the three-dimensional image of the medical image, so that a doctor can more comprehensively, intuitively and stereoscopically view the focus condition in the medical image from a plurality of different visual angles, thereby reducing the workload of the doctor during reading.

Description

Medical image film reading method, system, storage medium and equipment

Technical Field

The invention relates to the technical field of medical image information, in particular to a medical image reading method, a medical image reading system, a storage medium and equipment.

Background

With the development of medical technology, more and more image medical devices are widely used in hospitals, and image examination becomes an essential part of diagnosis and treatment activities. Since the generated medical image may be viewed by other doctors (for example, a clinician or a resident doctor) in addition to the image department report doctor, the generated medical image is usually stored in an image reading system, and a necessary image is selected and displayed by a doctor's survey when necessary. The process of inquiring, retrieving, adjusting display parameters, measuring, marking and editing medical images is called reading. Doctors can mark the focus condition in the medical images and fill the focus condition in the form of the case report table.

Because the traditional medical images are two-dimensional images, a doctor can only view the medical images from the visual angle of a two-dimensional plane in the process of reading the film, and cannot view three-dimensional stereoscopic medical images, so that the focus condition cannot be visually viewed from different visual angles. In this case, the requirements on the clinical experience and the space construction capability of the doctor are very high, and a great workload is brought to the reading work of the doctor.

Disclosure of Invention

Aiming at the defects existing in the problems, the invention provides a medical image reading method, a medical image reading system, a storage medium and equipment, which enable a doctor to more comprehensively, intuitively and stereoscopically view the focus condition in a medical image from a plurality of different visual angles, thereby reducing the workload of the doctor in reading the medical image.

In order to achieve the above object, the present invention provides a medical image interpretation method, which comprises the following steps:

s1, docking a medical image processing system, and acquiring medical image information of a patient after an information interaction channel is established;

s2, operating the two-dimensional image and the three-dimensional model of the medical image in the two-dimensional image browsing area and the three-dimensional model browsing area respectively;

and S3, giving a film reading result according to the two-dimensional image browsing area and the marked focus condition in the three-dimensional model browsing area, and generating and outputting a film reading report.

Preferably, in step 2, the operation performed on the two-dimensional image of the medical image in the two-dimensional image browsing area includes:

in the two-dimensional image browsing area, the two-dimensional image is turned over, translated and zoomed;

in a two-dimensional image browsing area, measuring the length, angle, perimeter, area or basic parameters of a two-dimensional image;

performing multi-sequence comparison on the two-dimensional image in a two-dimensional image browsing area;

and acquiring the two-dimensional image in the two-dimensional image browsing area.

Preferably, in step 2, the operation performed on the three-dimensional model of the medical image in the three-dimensional model viewing area includes:

rotating, amplifying, reducing and translating the three-dimensional model in the three-dimensional model browsing area;

in the three-dimensional model browsing area, adjusting the gray scale and the transparency of the three-dimensional model;

in a three-dimensional model browsing area, fusing and presenting a three-dimensional model and two-dimensional images of all axial planes; performing virtual operation on the three-dimensional model by using a virtual scalpel in the three-dimensional model browsing area;

measuring the length, the angle, the perimeter and the area of the three-dimensional model in a three-dimensional model browsing area;

and in the three-dimensional model browsing area, forming a two-dimensional axial plane image of the three-dimensional model according to the selected position of the positioning line, wherein the two-dimensional axial plane image comprises a two-dimensional coronal plane image, a two-dimensional sagittal plane image and a two-dimensional transverse plane image which are obtained after the three-dimensional model is operated.

Preferably, in step 3, the interpretation report is generated, and the interpretation report is output after being checked.

The invention also provides a medical image reading system, which comprises:

the acquisition module is used for acquiring medical image information of a patient after the medical image processing system is connected and an information interaction channel is established;

the two-dimensional image operation module is used for operating the two-dimensional image of the medical image in the two-dimensional image browsing area;

the three-dimensional model operation module is used for operating the three-dimensional model of the medical image in the three-dimensional model browsing area;

and the report generating module gives a reading result according to the two-dimensional image browsing area and the marked focus condition in the three-dimensional model browsing area, and generates and outputs a reading report.

Preferably, the two-dimensional image manipulation module comprises:

the two-dimensional image browsing area is used for displaying a two-dimensional image of the medical image and operating the two-dimensional image in the two-dimensional image browsing area;

the two-dimensional image moving unit is used for executing the operations of page turning, translation and zooming on the two-dimensional image in the two-dimensional image browsing area;

a two-dimensional image measuring unit which measures the length, angle, perimeter and area of the two-dimensional image in the two-dimensional image browsing area;

a two-dimensional image sequence comparison unit which executes a multi-sequence comparison operation on the two-dimensional image in the two-dimensional image browsing area;

and the two-dimensional image acquisition unit intercepts and acquires the two-dimensional image in the two-dimensional image browsing area so as to lead the acquired two-dimensional image into the film reading report.

Preferably, the three-dimensional model operation module comprises:

a three-dimensional model browsing area for displaying the three-dimensional model of the medical image and operating the three-dimensional model in the three-dimensional model browsing area;

the three-dimensional model moving unit is used for performing operations of rotation, amplification, reduction, translation, window width and window level setting and pseudo color labeling on the three-dimensional model in the three-dimensional model browsing area;

the three-dimensional model color adjusting unit is used for adjusting the gray level and the transparency of the three-dimensional model in the three-dimensional model browsing area;

the image fusion unit is used for fusing and presenting the three-dimensional model and the two-dimensional images of all axial planes in the three-dimensional model browsing area;

a three-dimensional model virtual surgery unit which performs virtual surgery on the three-dimensional model by using a virtual scalpel in the three-dimensional model browsing area;

a three-dimensional model measuring unit for measuring the length, angle, perimeter and area of the three-dimensional model in the three-dimensional model browsing area;

and the two-dimensional axial plane graph forms a unit, and a two-dimensional axial plane graph of the three-dimensional model is formed according to the selected position of the positioning line.

Preferably, the two-dimensional axial plane map includes a two-dimensional coronal plane image, a two-dimensional sagittal plane image and a two-dimensional transverse plane image obtained by operating the three-dimensional model.

The invention also provides a storage medium on which a computer program is stored, which computer program, when being executed by a processor, realizes the above-mentioned slide interpreting method.

The invention also provides equipment which comprises a touch screen, a memory and a processor, wherein the touch screen is electrically connected with the processor, the memory stores a computer program, and the processor executes the film reading method when the computer program is executed by the touch screen and the processor.

Compared with the prior art, the invention has one of the following advantages:

the invention can respectively operate the two-dimensional image and the three-dimensional image of the medical image, so that a doctor can more comprehensively, intuitively and stereoscopically check the focus condition in the medical image from a plurality of different visual angles, thereby reducing the workload of the doctor during reading; in addition, the focus condition in the medical image can be more comprehensively, visually and stereoscopically observed from a plurality of different visual angles, so that the accuracy of the reading result can be improved;

because the two-dimensional image, the three-dimensional model, at least one axial plane image of the three-dimensional model and the radiograph reading result of the medical image can be introduced into the radiograph reading report, a patient can view the images of the medical image in the radiograph reading report from a plurality of visual angles, and the content in the radiograph reading report is enriched;

in the three-dimensional model browsing area, because the virtual scalpel can be used for carrying out virtual operation on the three-dimensional model, the focus can be simulated for a plurality of times before formal operation, and the success rate of the operation is improved.

Drawings

FIG. 1 is a flowchart of a scoring method according to the present invention;

FIG. 2 is a block diagram of the reading system of the present invention;

FIG. 3 is a block diagram of the embodiment of FIG. 2;

fig. 4 is a block diagram of an electronic device according to the present invention.

The main reference numbers are as follows:

1-an acquisition module; 2-a two-dimensional image manipulation module; 21-two-dimensional image browsing area; 22-a two-dimensional image moving unit; 23-a two-dimensional image measuring unit; 24-a two-dimensional image sequence comparison unit; 25-a two-dimensional image acquisition unit; 3-a three-dimensional model operation module; 31-three-dimensional model viewing area; 32-a three-dimensional model moving unit; 33-a three-dimensional model color adjustment unit; 34-a three-dimensional model virtual surgery unit; 35-a three-dimensional model measurement unit; 36-two-dimensional axial plane graph forming units; 37-an image fusion unit; 4-report generating module; 5-an electronic device; 51-a processor; 52-a memory; 53-touch screen.

Detailed Description

As shown in fig. 1, the present invention provides a medical image reading method, which is applied in a medical device with a PACS system, and comprises the following steps:

s1, a medical image processing system is connected in an abutting mode, and medical image information of a patient is obtained after an information interaction channel is established.

And (3) butting the information of a server or a host of the PACS or other medical image processing systems, and acquiring the medical image information of the patient after an information interaction channel is established.

In a "PACS management" interface of a PACS system, the patient's image data is queried from a docked PACS system based on patient information, and the query results are displayed in a "patient information" list.

Wherein the patient information that may be entered at the time of the query includes: patient name, patient ID, examination ID, patient gender, patient age, and examination date.

In addition, the query may be performed according to a type of the inspection apparatus, and the inspection apparatus includes: CT (Computed Tomography), MRI (Magnetic Resonance Imaging), CR (Computed Radiography), DR (digital Radiography), XA (X-ray angiography), and the like.

And S2, operating the two-dimensional image and the three-dimensional model of the medical image in the two-dimensional image browsing area and the three-dimensional model browsing area respectively.

And after the medical image corresponding to the patient information is inquired, calling the medical image into the medical image browsing area.

The medical image browsing area comprises a two-dimensional image browsing area and a three-dimensional model browsing area.

In the medical image browsing area, the operation on the medical image comprises the corresponding operation on the two-dimensional image of the medical image in the two-dimensional image browsing area and the corresponding operation on the three-dimensional model of the medical image in the three-dimensional model browsing area. In the two-dimensional image browsing area and the three-dimensional model browsing area, the two-dimensional image in the two-dimensional image browsing area or the three-dimensional model in the three-dimensional model browsing area can be correspondingly operated through the touch screen.

The operation performed on the two-dimensional image of the medical image in the two-dimensional image browsing area comprises the following steps:

in a two-dimensional image browsing area, turning over, translating and zooming the two-dimensional image;

in the two-dimensional image browsing area, measuring the length, angle, perimeter, area or basic parameters of the two-dimensional image;

performing multi-sequence comparison on the two-dimensional image in a two-dimensional image browsing area;

and acquiring the two-dimensional image in the two-dimensional image browsing area.

Wherein, the mode of page through two-dimensional image includes: sliding the single finger downwards to display the next image; and sliding upwards to display the previous image.

The manner of translating the two-dimensional image includes: the single-finger touch screen can translate the image to any position of the screen.

The manner of scaling the two-dimensional image includes: the double fingers touch the screen, the double fingers separately enlarge the image, and the double fingers approach the reduced image.

The manner of acquiring the two-dimensional image includes: and intercepting and collecting the current two-dimensional image in the two-dimensional image browsing area, and importing the collected two-dimensional image into a film reading report.

The manner of measuring the two-dimensional image includes: measuring the length of the two-dimensional image, measuring the angle of the two-dimensional image, measuring the area of a rectangular region specified in the two-dimensional image, measuring the area of a circular region specified in the two-dimensional image, measuring the area of a custom region specified in the two-dimensional image, and the like.

The basic parameters of the two-dimensional image are measured, and the parameters such as CT average value and standard deviation are obtained.

The way of performing multi-sequence comparison on two-dimensional images comprises the following steps: firstly, selecting a partition in a two-dimensional image browsing area, and adding a sequence to be compared in a two-dimensional image into the partition; the slices are then adjusted for multiple sequence alignments, and the slices for each set of sequences can be adjusted individually.

The method for performing pseudo color on the two-dimensional image comprises the following steps: the black and white images of different tissues are automatically marked by specific colors.

The operation on the three-dimensional model of the medical image in the three-dimensional model browsing area comprises the following steps:

rotating, amplifying, reducing and translating the three-dimensional model in the three-dimensional model browsing area;

in the three-dimensional model browsing area, adjusting the gray level and the transparency of the three-dimensional model;

in a three-dimensional model browsing area, fusing and presenting a three-dimensional model and two-dimensional images of all axial planes;

performing virtual operation on the three-dimensional model by using a virtual scalpel in the three-dimensional model browsing area;

measuring the length, the angle, the perimeter and the area of the three-dimensional model in a three-dimensional model browsing area;

and forming a two-dimensional axial plane diagram of the three-dimensional model according to the selected position of the positioning line in the three-dimensional model browsing area. The two-dimensional axial plane image comprises a two-dimensional coronal plane image, a two-dimensional sagittal plane image and a two-dimensional transverse plane image which are obtained by operating the three-dimensional model.

The operation of moving the three-dimensional model includes rotating, enlarging, reducing, and translating the three-dimensional model. The single finger slides in the three-dimensional model browsing area to rotate the three-dimensional model in the three-dimensional model browsing area; and the double fingers slide in the three-dimensional model browsing area to realize the amplification, reduction or translation of the three-dimensional model in the three-dimensional model browsing area.

The operation of adjusting the gray scale and the transparency of the three-dimensional model comprises the step of adjusting the gray scale and the transparency of the three-dimensional model by adopting a three-finger operation mode.

The manner of measuring the three-dimensional model includes: measuring the length of the three-dimensional model, measuring the angle of the three-dimensional model, measuring the area of a rectangular region specified in the three-dimensional model, measuring the area of a circular region specified in the three-dimensional model, measuring the area of a self-defined region specified in the three-dimensional model, and the like, measuring the average value of the three-dimensional model, measuring the perimeter of the three-dimensional model, and measuring the standard deviation of the three-dimensional model.

The operation of fusing and presenting the three-dimensional model and the two-dimensional images of the axial planes comprises the following steps: and displaying a layer corresponding to the two-dimensional image of the three-dimensional image area being browsed in the three-dimensional model browsing area through a two-dimensional image and three-dimensional image fusion function.

The mode of the virtual scalpel for performing virtual operation on the three-dimensional model comprises the following steps:

performing virtual cutting on the three-dimensional model: virtual cutting: the function of a scalpel is simulated, and a target area is cut off or reserved, so that the region of interest can be conveniently observed;

performing virtual excision of the three-dimensional model: deleting the selected three-dimensional model part and reserving other parts in the three-dimensional model;

preservation of a portion of the three-dimensional model: optionally, the excised portion of the three-dimensional model is retained, or the remaining portion of the three-dimensional model after excision is retained.

The manner of forming a two-dimensional axial view of the three-dimensional model from the selected positions of the location lines includes:

forming a two-dimensional coronal plane image of the three-dimensional model, wherein the coronal plane position of the three-dimensional model is adjusted through a coronal plane positioning line in the three-dimensional model, so as to form a two-dimensional coronal plane image of the three-dimensional image;

forming a two-dimensional sagittal plane image of the three-dimensional model, and adjusting the section position of the three-dimensional model through a sagittal plane positioning line in the three-dimensional model so as to form a two-dimensional sagittal plane image of the three-dimensional image;

and forming a two-dimensional cross section image of the three-dimensional model, and adjusting the section position of the three-dimensional model through the cross section positioning line in the three-dimensional model so as to form the two-dimensional cross section image of the three-dimensional image.

And S3, giving a film reading result according to the two-dimensional image browsing area and the marked focus condition in the three-dimensional model browsing area, and generating and outputting a film reading report.

In step 3, the interpretation report is generated, and the interpretation report is output after being checked.

As shown in fig. 2 and fig. 3, the present invention further provides a medical image reading system, which is applied in a medical device with a PACS system, and includes:

the acquisition module 1 is used for acquiring medical image information of a patient after the medical image processing system is connected and an information interaction channel is established.

And the information of a server or a host of the PACS or other medical image processing systems is butted, and after an information interaction channel is established, the medical image information of the patient is obtained.

The two-dimensional image manipulation module 2 manipulates the two-dimensional image of the medical image in the two-dimensional image viewing area 21.

The two-dimensional image manipulation module 2 includes:

a two-dimensional image browsing area 21 for displaying a two-dimensional image of the medical image and operating the two-dimensional image in the two-dimensional image browsing area 21;

a two-dimensional image moving unit 22 that performs operations of page turning, panning, and zooming on the two-dimensional image in the two-dimensional image browsing area 21;

a two-dimensional image measuring unit 23 that measures the length, angle, perimeter, area, or basic parameter of the two-dimensional image in the two-dimensional image viewing area 21;

a two-dimensional image collation unit 24 that performs an operation of multi-collation on the two-dimensional image in the two-dimensional image viewing area 21;

and the two-dimensional image acquisition unit 25 intercepts and acquires the two-dimensional image in the two-dimensional image browsing area 21 so as to lead the acquired two-dimensional image into the interpretation report.

The three-dimensional model operation module 3 operates the two-dimensional image of the medical image in the three-dimensional model viewing area 31.

The three-dimensional model operation module 3 includes:

a three-dimensional model viewing area 31 for displaying a three-dimensional model of the medical image and operating the three-dimensional model in the three-dimensional model viewing area 31;

a three-dimensional model moving unit 32 that performs operations of rotation, enlargement, reduction, and translation on the three-dimensional model in the three-dimensional model viewing area 31;

a three-dimensional model color adjusting unit 33 that adjusts the gradation and transparency of the three-dimensional model in the three-dimensional model viewing area 31;

a three-dimensional model virtual surgery unit 34 that performs a virtual surgery on the three-dimensional model with a virtual scalpel in the three-dimensional model viewing area 31;

a three-dimensional model measuring unit 35 that measures the length, angle, circumference, and area of the three-dimensional model in the three-dimensional model viewing area 31;

the two-dimensional axial plane graph forming unit 36 forms a two-dimensional axial plane graph of the three-dimensional model according to the selected position of the positioning line.

The two-dimensional axial plane image comprises a two-dimensional coronal plane image, a two-dimensional sagittal plane image and a two-dimensional transverse plane image which are obtained by operating the three-dimensional model.

The image fusion unit 37 fuses and presents the three-dimensional model and the two-dimensional images of the respective axial planes in the three-dimensional model viewing area.

The operation of fusing and presenting the three-dimensional model and the two-dimensional images of the axial planes comprises the following steps: and displaying a layer corresponding to the two-dimensional image of the three-dimensional image area being browsed in the three-dimensional model browsing area through a two-dimensional image and three-dimensional image fusion function.

And the report generating module 4 gives an interpretation result according to the lesion condition marked in the two-dimensional image browsing area 21 and the three-dimensional model browsing area 31, generates an interpretation report and outputs the interpretation report.

The implementation steps of the above-mentioned slide reading system can refer to the slide reading method described in fig. 1, and are not repeated herein.

The present invention also provides a storage medium, such as a flash memory, a hard disk, a multimedia card, a card-type memory (e.g., SD or DX memory, etc.), a Random Access Memory (RAM), a Read Only Memory (ROM), an optical disc, a server, an App application mall, etc., on which a computer program is stored, which when executed by one or more processors, can implement the regional intelligent film reading method described in fig. 1.

The specific application process of the above method steps can refer to the area intelligent film reading method described in fig. 1, and will not be described repeatedly here.

As shown in fig. 4, the present invention also provides an apparatus 5 comprising: the electronic device comprises a processor 51, a memory 52, a touch screen 53 and a bus, wherein the touch screen 53 is electrically connected with the processor 51, the memory 52 stores machine-readable instructions executable by the processor 51, when the electronic device runs, the touch screen 53, the processor 51 and the memory 52 are communicated through the bus, and the machine-readable instructions are executed by the processor 51 to execute the area intelligent film reading method disclosed in the figure 1.

Specifically, the touch screen 53, the memory 52 and the processor 51 are general touch screens, memories and processors, and are not limited herein, and when the processor 51 runs a computer program stored in the memory 52, the touch screen 53 operates on corresponding program instructions, and the processor executes the area intelligent interpretation method in the storage medium.

The foregoing is merely a preferred application of the present invention and is intended to be illustrative, rather than limiting, of the present invention. It will be understood by those skilled in the art that various changes, modifications and equivalents may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A medical image interpretation method is characterized by comprising the following steps:

s1, docking a medical image processing system, and acquiring medical image information of a patient after an information interaction channel is established;

s2, operating the two-dimensional image and the three-dimensional model of the medical image in the two-dimensional image browsing area and the three-dimensional model browsing area respectively;

and S3, giving a film reading result according to the two-dimensional image browsing area and the marked focus condition in the three-dimensional model browsing area, and generating and outputting a film reading report.

2. The medical image interpretation method according to claim 1, wherein in step 2, the operation performed on the two-dimensional image of the medical image in the two-dimensional image viewing area comprises:

in a two-dimensional image browsing area, turning and reading, translating and zooming, setting a window width and a window level and marking pseudo colors on a two-dimensional image;

in the two-dimensional image browsing area, measuring the length, angle, perimeter, area or basic parameters of the two-dimensional image;

performing multi-sequence comparison on the two-dimensional image in a two-dimensional image browsing area;

and acquiring the two-dimensional image in the two-dimensional image browsing area.

3. The method for interpreting medical images according to claim 2, wherein in step 2, the operation performed on the three-dimensional model of the medical image in the three-dimensional model viewing area includes:

in a three-dimensional model browsing area, rotating, amplifying, reducing, translating, setting window width and window level and marking pseudo colors on the three-dimensional model;

in the three-dimensional model browsing area, adjusting the gray level and the transparency of the three-dimensional model;

fusing and presenting the three-dimensional model and the two-dimensional images of all axial planes in the three-dimensional model browsing area;

performing virtual operation on the three-dimensional model by using a virtual scalpel in the three-dimensional model browsing area;

in a three-dimensional model browsing area, measuring the length, angle, perimeter and area of the three-dimensional model;

and in the three-dimensional model browsing area, forming a two-dimensional axial plane image of the three-dimensional model according to the selected position of the positioning line, wherein the two-dimensional axial plane image comprises a two-dimensional coronal plane image, a two-dimensional sagittal plane image and a two-dimensional transverse plane image which are obtained after the three-dimensional model is operated.

4. The method for interpreting medical images according to claim 3, wherein in step 3, an interpretation report is generated, and the interpretation report is output after being checked.

5. An image interpretation system applying the image interpretation method of the medical image according to any one of claims 1 to 4, comprising:

the acquisition module is used for acquiring medical image information of a patient after the medical image processing system is connected and an information interaction channel is established;

the two-dimensional image operation module is used for operating the two-dimensional image of the medical image in the two-dimensional image browsing area;

the three-dimensional model operation module is used for operating the three-dimensional model of the medical image in the three-dimensional model browsing area;

and the report generating module gives a reading result according to the two-dimensional image browsing area and the marked focus condition in the three-dimensional model browsing area, and generates and outputs a reading report.

6. The system for medical image interpretation according to claim 5, wherein the two-dimensional image manipulation module comprises:

a two-dimensional image browsing area for displaying a two-dimensional image of the medical image and operating the two-dimensional image in the two-dimensional image browsing area;

the two-dimensional image moving unit is used for executing the operations of page turning, translation and zooming on the two-dimensional image in the two-dimensional image browsing area;

a two-dimensional image measuring unit that measures a length, an angle, a circumference, an area, or a basic parameter of the two-dimensional image in the two-dimensional image viewing area;

a two-dimensional image sequence comparison unit which executes a multi-sequence comparison operation on the two-dimensional image in the two-dimensional image browsing area;

and the two-dimensional image acquisition unit intercepts and acquires the two-dimensional image in the two-dimensional image browsing area so as to lead the acquired two-dimensional image into the film reading report.

7. The system for medical image interpretation according to claim 6, wherein the three-dimensional model operation module comprises:

a three-dimensional model browsing area for displaying the three-dimensional model of the medical image and operating the three-dimensional model in the three-dimensional model browsing area;

the three-dimensional model moving unit is used for performing operations of rotation, amplification, reduction, translation, window width and window level setting and pseudo color labeling on the three-dimensional model in the three-dimensional model browsing area;

the three-dimensional model color adjusting unit is used for adjusting the gray scale and the transparency of the three-dimensional model in the three-dimensional model browsing area;

the image fusion unit is used for fusing and presenting the three-dimensional model and the two-dimensional images of all axial planes in the three-dimensional model browsing area;

a three-dimensional model virtual surgery unit which performs virtual surgery on the three-dimensional model by using a virtual scalpel in the three-dimensional model browsing area;

a three-dimensional model measuring unit for measuring the length, angle, perimeter and area of the three-dimensional model in the three-dimensional model browsing area;

and the two-dimensional axial plane graph forms a unit, and a two-dimensional axial plane graph of the three-dimensional model is formed according to the selected position of the positioning line.

8. The system for interpreting medical images as claimed in claim 7, wherein said two-dimensional axial plane image comprises a two-dimensional coronal plane image, a two-dimensional sagittal plane image and a two-dimensional transverse plane image obtained by operating a three-dimensional model.

9. A storage medium on which a computer program is stored, wherein the computer program, when being executed by a processor, implements the radiographing method according to any one of claims 1 to 4.

10. An apparatus comprising a touch screen, a memory and a processor, the touch screen being electrically connected to the processor, the memory having stored therein a computer program, wherein the computer program, when executed by the touch screen and the processor, causes the processor to perform the scoring method of any one of claims 1 to 4.

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