JP5725950B2 - Medical image display device and medical image storage system - Google Patents

Description

  Embodiments described herein relate generally to a medical image display device and a medical image storage system.

  Annotation is used as a useful tool for interpretation of medical images. Annotation is a general term for graphics, characters, and symbols attached to a medical image for later observation of the medical image again or for observation by another person. For example, the annotation is a region of interest, a straight line, an arrow, or a measurement result. Annotation data may be stored and managed independently of medical image data as data that does not conform to the DICOM standard for some time after the spread of DICOM (Digital Imaging and Communications in Medicine) standard. Many.

  When a device or system in which these data are stored is migrated (replaced) to a new device or system, the data is migrated. However, normally, annotation data that does not conform to the DICOM standard is lost without being converted into data that conforms to the DICOM standard. The lack of annotation data is a waste of information assets and a great loss. Alternatively, annotation data that does not conform to the DICOM standard is created separately as captured image (color DICOM two-dimensional image (hereinafter referred to as SC image)) data of an overlay image of an annotation and a medical image. Is stored as SC image data.

  The SC image data is defined by 8 × 8 × 8 gradation RGB mode image data. On the other hand, the original medical image data is normally defined in 16-bit gray scale. Therefore, the SC image data has lost the gradation information of the original medical image data. Further, since the SC image data is captured image data, annotation data is incorporated into the pixel data of the SC image data. Therefore, the annotation cannot be removed from the SC image, and the partial area of the SC image that overlaps the annotation cannot be displayed. Further, the SC image data is stored in a different series from the original medical image data due to the difference in properties from the original medical image data. Therefore, it is necessary to compare the original medical image and the SC image at the time of interpretation, and the display operation becomes complicated. Furthermore, it is necessary to store SC image data having a data amount of 24 bits separately from the original medical image data. Therefore, an enormous data storage area is required to store SC image data.

JP 2010-57903 A

  The embodiment has been made to solve the above-described problems. The annotation data is converted into data conforming to the DICOM standard while preventing deterioration of the image quality of medical image data and suppressing an increase in the storage data area. An object of the present invention is to provide a medical image display device and a medical image storage system that can be used.

The medical image display apparatus according to the present embodiment is related to the DICOM standard having medical image data compliant with the DICOM standard and DICOM supplementary information, and is not compliant with the DICOM standard associated with the medical image data. A storage unit that stores annotation data; a display unit that displays a superimposed image of a medical image corresponding to the medical image data and an annotation corresponding to the annotation data; and a specific color value from the superimposed image An extraction unit for extracting a pixel area; and image data corresponding to the extracted pixel area is converted into annotation data compliant with the DICOM standard, and the annotation data compliant with the DICOM standard is converted into a medical image file compliant with the DICOM standard. a conversion unit incorporated in the Comprising a storage unit for storing medical image file that conforms to the DICOM standard annotation data that conforms to ICOM standard is incorporated, the.

The figure which shows the structure of the medical image display apparatus which concerns on 1st Embodiment. The figure which shows the flow of the annotation data conversion process performed under control of the control part of FIG. The figure for demonstrating the 1st extraction process performed by the extraction part in step S3 of FIG. The figure for demonstrating the 2nd extraction process performed by the extraction part in step S3 of FIG. The figure which shows the data structure of the medical image file in which the DICOM annotation data containing the overlay data produced | generated by the conversion part in FIG.2 S4 was integrated. The figure which shows the structure of the medical image storage system which concerns on 2nd Embodiment.

  Hereinafter, a medical image display apparatus and a medical image storage system according to the present embodiment will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a diagram illustrating a configuration of a medical image display apparatus 1 according to the first embodiment. The medical image display device 1 may be a computer device (so-called viewer) for displaying medical images or a computer device (so-called server) for storing and managing medical image data. Further, the medical image display device 1 may be incorporated in a medical image imaging device for capturing a medical image. The medical imaging apparatus includes all existing modalities such as an X-ray diagnostic apparatus, an X-ray computed tomography apparatus, a magnetic resonance imaging apparatus, an ultrasonic diagnostic apparatus, a SPECT apparatus, and a PET apparatus.

  As illustrated in FIG. 1, the medical image display device 1 includes a storage unit 2, a display unit 3, an extraction unit 4, a conversion unit 5, a storage unit 6, an operation unit 7, and a control unit 8.

  The storage unit 2 stores a medical image file having a data format conforming to the DICOM (Digital Imaging and Communications in Medicine) standard. The medical image file has medical image data and DICOM supplementary information associated with each other. The medical image data includes data obtained by encoding a medical image related to a patient according to the DICOM standard. For example, medical image data is a collection of pixel data relating to each pixel constituting a medical image. For example, the pixel data represents the coordinates of each pixel constituting the medical image and the gray value or color value corresponding to the display color of each pixel. The DICOM supplementary information includes, for example, information normally used in the DICOM standard such as patient ID, examination ID, series ID, image ID, image size, image capturing date and time to which medical image data belongs.

  The storage unit 2 stores annotation data having a data format that does not conform to the DICOM standard (hereinafter referred to as non-DICOM annotation data). The non-DICOM annotation data is described in, for example, a data format defined by the manufacturer or sales company of the medical image display apparatus 1, that is, a vendor. The non-DICOM annotation data consists of data obtained by encoding an annotation attached to a medical image according to the non-DICOM standard. Non-DICOM annotation data is, for example, a collection of pixel data related to each pixel constituting the annotation. This pixel data represents, for example, the coordinates of each pixel constituting the annotation and the display color of the annotation. The non-DICOM annotation data is created by an old device such as the medical image display device 1, for example. The non-DICOM annotation data is associated with the medical image data by the storage unit 2.

  Note that the annotation is a general term for graphics, characters, and symbols attached to a medical image for later observation of the medical image again or for observation by another person. For example, the annotation is a region of interest, a straight line, an arrow, or a measurement result.

  In addition, the storage unit 2 stores a data conversion program for DICOM standardization of annotations to be described later.

  The display unit 3 displays a medical image corresponding to the medical image data on the display device according to the medical image data. The display unit 3 displays an annotation corresponding to the non-DICOM annotation data on the display device in accordance with the non-DICOM annotation data. More specifically, the display unit 3 superimposes the annotation on the medical image and displays it on the display device. Hereinafter, a display image in which an annotation is superimposed on a medical image is referred to as a superimposed image. At this time, the superimposed image is displayed on the display unit 3 in a color mode such as an RGB mode. Examples of the display device include a CRT display, a liquid crystal display, an organic EL display, and a plasma display.

  The extraction unit 4 extracts a pixel region having a color value of a specific display color from the displayed superimposed image. The specific display color is defined as the display color of the annotation. Therefore, the extracted pixel region is regarded as an annotation. Here, the image data relating to the extracted pixel region is referred to as annotation image data. The annotation image data is a set of pixel data related to each pixel constituting the extracted pixel region. The annotation image data consists of data encoded according to the data format of the non-DICOM standard.

  The conversion unit 5 converts the extracted annotation image data into data having a data format conforming to the DICOM standard. In other words, the conversion unit 5 standardizes the extracted annotation image data with DICOM. The DICOM standardized annotation image data will be referred to as DICOM annotation data.

  The storage unit 6 stores (stores) the DICOM annotation data in association with the medical image data. The storage unit 6 and the storage unit 2 may be realized by separate hardware, or may be realized by the same hardware.

  The operation unit 7 receives various commands and information input from the user via the input device. Examples of the input device include a pointing device such as a mouse and a trackball, a selection device such as a switch button, or a keyboard.

  The control unit 8 functions as the center of the medical image display device 1. Specifically, the control unit 8 reads a data conversion program from the storage unit 2 and controls each unit. Thereby, the annotation data conversion process for converting the data format of the annotation data from the non-DICOM standard data format to the DICOM standard data format is executed.

  Hereinafter, an operation example of the medical image display apparatus 1 according to the present embodiment will be described.

  The annotation data conversion process performed under the control of the control unit 8 according to the first embodiment is provided at the time of data conversion of medical data when the old device is transferred to the new device. The medical image display device 1 according to the first embodiment is applicable to both the old device and the new device, but typically corresponds to the old device.

  FIG. 2 is a diagram illustrating a flow of annotation data conversion processing performed under the control of the control unit 8 according to the first embodiment.

  First, the control unit 8 accepts, for example, a data conversion process start request from the user via the operation unit 7. When the start request is made (step S1: YES), the control unit 8 reads the data conversion program from the storage unit 2 and starts executing the annotation data conversion process according to the data conversion program.

  In the annotation data conversion process, the control unit 8 first causes the display unit 3 to perform display processing (step S2). In step S <b> 2, the display unit 3 reads the annotation data and the medical image data that are the data conversion process target from the storage unit 1. The annotation data and the medical image data to be subjected to data conversion processing are specified by the user via the operation unit 7, for example. Next, the display unit 3 displays the annotation corresponding to the read annotation data on the display device so as to overlap the medical image corresponding to the read medical image data. At this time, the medical image and the annotation are displayed in the original matrix size (XY size) of the medical image. The display unit 3 displays a superimposed image of the medical image and the annotation in the RGB mode. The annotation is displayed with priority over the medical image. That is, the annotation is displayed in the RGB mode on the pixel on the display device where the annotation exists, and the medical image is displayed on the pixel on the display device where the annotation does not exist. That is, the partial area of the medical image that overlaps the annotation is not displayed. As for the color value corresponding to gray, for example, (R, G, B) = (200, 200, 200), the R, G, B gradation values are all set to substantially the same value. As for the color value corresponding to yellow, for example, as in (255, 255, 0), the gradation value of R and the gradation value of B are set to the same value, and the gradation value of B is set to approximately 0. Has been.

  When step S2 is performed, the control unit 8 causes the extraction unit 4 to perform extraction processing (step S3). In step S3, the extraction unit 4 extracts the pixel area displayed in the display color of the annotation from the superimposed image displayed in step S2. The extraction process by the extraction unit 4 is roughly divided into a first extraction process and a second extraction process according to the difference in extraction method. Hereinafter, each extraction process will be described.

[First extraction process]
FIG. 3 is a diagram for explaining the first extraction process by the extraction unit 4. As shown in FIG. 3, a superimposed image I2 of the medical image I1 and the annotation AN is displayed on the display device of the display unit 3. In the first extraction process, the extraction unit 4 searches for a plurality of pixels constituting the displayed superimposed image I2, and detects pixels having color values of the display color of the annotation AN as pixels constituting the annotation AN (hereinafter referred to as “annotation AN”). , Will be referred to as annotation pixels). The display color or color value of the annotation AN is set by the user via the operation unit 7 or automatically. Typically, the color value of the annotation AN is set for each medical image display apparatus 1 and is included in the non-DICOM annotation data stored in the storage unit 2 as described above. Therefore, typically, the extraction unit 4 can automatically set the color value of the annotation AN by referring to the storage unit 2. For example, when the color value of the annotation AN is (R, G, B) = (255, 255, 0), that is, the display color is yellow, this (R, G, B) = (255, 255, 0) The color value is set as the extraction condition. The extraction unit 4 is assigned a pixel that satisfies the extraction condition, in this case, a color value of (R, G, B) = (255, 255, 0) among a plurality of pixels constituting the superimposed image I2. Specified pixels as annotation pixels.

  More specifically, the extraction unit 4 first captures a superimposed image displayed on the display device, and generates bitmap-format image data related to the superimposed image. Hereinafter, the generated bitmap image data is referred to as bitmap data. Bitmap data is data representing the spatial distribution of color values of a plurality of pixels included in a displayed superimposed image. When bitmap data is generated, the extraction unit 4 searches for a plurality of pixels included in the bitmap data and identifies annotation pixels. When all the annotation pixels are specified in this way, the extraction unit 4 extracts a pixel area composed of a plurality of annotation pixels as an annotation. Image data (annotation image data) relating to the extracted pixel area is a set of pixel data relating to each pixel constituting the annotation. This pixel data represents the coordinates and color value of the annotation pixel. Alternatively, the pixel data expresses the coordinates of the annotation pixel and information about whether the pixel is an annotation pixel. The annotation image data is encoded according to the data format of the non-DICOM standard.

  In the above description, the annotation is displayed in a single display color. However, in this embodiment, the annotation may be displayed in a plurality of display colors. In this case, the extraction unit 4 sets a combination of a plurality of color values respectively corresponding to a plurality of display colors as an extraction condition, and a pixel to which any one of the plurality of color values is assigned is used as an annotation pixel. Identify. Further, the extraction unit 4 may set a color value range including a plurality of display colors as an extraction condition, and specify a pixel to which a color value included in this color value range is assigned as an annotation pixel.

[Second extraction process]
FIG. 4 is a diagram for describing the second extraction process by the extraction unit 4. As shown in FIG. 4, in the second extraction process, the display unit 3 displays the medical image I1 together with the superimposed image I2 of the medical image I1 and the annotation AN on the display device. The medical image I1 is displayed in the original matrix size (XY size), and is displayed in the RGB color mode, similarly to the superimposed image I2.

  When the superimposed image I2 and the medical image I1 are displayed, the extraction unit 4 generates a difference image between the superimposed image I2 and the medical image I1. Specifically, the extraction unit 4 calculates a color value difference value between the pixel of the superimposed image I2 and the pixel of the medical image I1 having the same coordinates. Pixels having color values (R, G, B) = (0, 0, 0) on the difference image are set to pixels that do not constitute an annotation, and color values (R, G, B) = (0, 0, Pixels that do not have 0) are set as pixels that make up the annotation AN. That is, the extraction unit 4 extracts the pixel area of the annotation AN from the superimposed image I2 by generating a difference image between the superimposed image I2 and the medical image I1. The extracted data regarding the pixel area (annotation image data) is a set of pixel data regarding each pixel constituting the annotation AN. This pixel data represents the coordinates of the annotation pixel and the color value on the difference image or the superimposed image. Alternatively, the pixel data expresses the coordinates of the annotation pixel and information about whether the pixel is an annotation pixel. The annotation image data is encoded according to the data format of the non-DICOM standard.

  When step S3 is performed, the control unit 8 causes the conversion unit 5 to perform conversion processing (step S4). In step S4, the conversion unit 5 converts the annotation image data regarding the pixel region of the annotation extracted in step S3 into DICOM annotation data. Details of step S4 will be described later.

  When step S4 is performed, the control unit 8 causes the storage unit 6 to perform a storage process (step S5). In step S5, the storage unit 6 stores the DICOM annotation data in association with the medical image data. Hereinafter, the processes in steps S4 and S5 will be described in detail according to the type of conversion process. The conversion process is roughly divided into a first conversion process and a second conversion process depending on the data format.

[First conversion processing and storage processing]
In the first conversion process, the conversion unit 5 converts the annotation image data into DICOM annotation data including overlay data compliant with the DICOM standard (step S4). Then, the conversion unit 5 incorporates the DICOM annotation data into a medical image file that conforms to the DICOM standard stored in the storage unit 2. The storage unit 2 stores this medical image file (step S5). In other words, the storage unit 2 stores the DICOM annotation data in association with the medical image data.

  FIG. 5 is a diagram showing a data structure of a medical image file in which DICOM annotation data D2 including overlay data D22 is incorporated. As shown in FIG. 5, the medical image file has DICOM supplementary information D1, DICOM annotation data D2, and medical image data D3 that are associated with each other. The medical image data D3 is data associated in the storage unit 2 with annotation data derived from the DICOM annotation data D2. The DICOM supplementary information D1 is associated with the medical image data D3. The DICOM annotation data D2 is generated by the conversion unit 5 based on the annotation image data. The DICOM annotation data D2 includes overlay data D22 and overlay accompanying information D21. The overlay data D22 is defined by 1-bit information for each pixel. That is, the overlay data D22 has information on whether or not each pixel is an annotation pixel. The overlay data D22 is bitmap data representing the spatial distribution of annotation. The overlay data D22 is managed by a data element tag (60xx, 3000) defined in the DICOM standard. The overlay accompanying information D21 includes accompanying information related to the annotation such as the color value of the display color of the annotation, the matrix size (XY size), and the reference position.

[Second conversion processing and storage processing]
In the second conversion process, the conversion unit 5 converts the annotation image data extracted in Step S3 into DICOM / GSPS (Gray Scale Presentation State) data compliant with the DICOM standard (Step S4). . More specifically, the conversion unit 5 performs image recognition processing on the annotation image data, and specifies the shape and position of the annotation. The position of the annotation is defined by the coordinates of a plurality of feature points corresponding to the shape of the annotation. For example, when the annotation is a triangle, the coordinates of a plurality of feature points are defined as the coordinates of three vertices. The conversion unit 5 encodes the shape and position of the identified annotation according to the DICOM / GSPS data format. Data generated by this encoding is handled as DICOM / GSPS data. Then, the conversion unit 5 incorporates (merges) the DICOM / GSPS data into a medical image file compliant with the DICOM standard stored in the storage unit 2. The storage unit 2 stores the DICOM / GSPS data in association with the medical image data (step S5).

  The DICOM / GSPS data may not be incorporated into the medical image file as long as it is stored in association with the medical image data. For example, the DICOM / GSPS data may be managed and stored in a file different from the medical image file.

  In some cases, display conditions for medical images are managed in a data format that does not conform to the DICOM standard. In this case, the storage unit 2 stores display condition data in association with medical image data. When the annotation image data is converted into DICOM / GSPS data, the conversion unit 5 may convert the display condition into DICOM / GSPS data. The display condition includes data obtained by encoding image rotation, image inversion, black and white inversion, and WW (Window Width) / WL (Window Level) according to a data format not conforming to the DICOM standard. The conversion unit 5 converts the display condition data of the non-DICOM standard into DICOM / GSPS data. The storage unit 6 stores the display condition data converted to DICOM / GSPS data in association with the medical image data. Thereby, the display condition data of the non-DICOM standard can be converted to the DICOM standard.

  When step S5 ends in this way, the control unit 8 ends the annotation data conversion process.

  According to the first embodiment, the medical image display apparatus 1 includes a storage unit 2, a display unit 3, an extraction unit 4, a conversion unit 5, and a storage unit 6. The storage unit 2 stores medical image data having a data format conforming to the DICOM standard and annotation data not conforming to the DICOM standard (non-DICOM annotation data). The display unit 3 displays the annotation corresponding to the non-DICOM annotation data on the display device by superimposing the annotation on the medical image corresponding to the medical image data. The extraction unit 4 extracts an annotation having a specific display color from the superimposed image of the medical image and the annotation. The conversion unit 5 converts the extracted annotation image data (annotation image data) into annotation data (DICOM annotation data) having a data format conforming to the DICOM standard. The storage unit 6 stores the DICOM annotation data in association with the medical image data associated with the non-DICOM annotation data derived from the DICOM annotation data in the storage unit 2.

  With the configuration as described above, since the annotation is DICOM standardized, it is possible to reproduce the annotation in a system or apparatus compliant with the DICOM standard. Therefore, the medical image display apparatus 1 according to the present embodiment can avoid deterioration in interpretation quality and loss of past information assets. In addition, it becomes easy to replace the system or device with another manufacturer or to make it multi-vendor.

  Further, with the above-described configuration, annotation data is stored as a part of a medical image file by DICOM overlaying, or is stored as DICOM / GSPS data linked to the medical image file. With such a data storage format, the medical image display apparatus 1 according to the present embodiment can display the annotation only by the medical image display operation, and can reduce the complexity of the annotation display operation. Thereby, smooth interpretation is performed. Further, the medical image data associated with the DICOM standardized annotation data has the same image quality as the original medical image data. Therefore, the medical image display apparatus 1 according to the present embodiment can prevent the image quality of medical image data from being reduced due to the DICOM standardization of annotation data.

  Also, with the above-described configuration, medical image data (more specifically, pixel data) and DICOM standardized annotation data are handled as separate data sets. Therefore, the display / non-display of the annotation (overlay) can be designated by the user. Thereby, the medical image display apparatus 1 according to the present embodiment selectively displays a partial region of the medical image where the annotation overlaps by hiding the annotation in the medical image on which the annotation is superimposed. I can.

  Further, as described above, DICOM overlay data has a data amount of 1 bit. On the other hand, the SC image data generated in the conventional annotation data conversion process has a data amount of 24 bits. Therefore, since the medical image display apparatus 1 according to the present embodiment does not generate SC image data, the data storage capacity after data conversion can be reduced as compared with the conventional case.

  Thus, according to the first embodiment, it is possible to convert annotation data into data conforming to the DICOM standard while preventing deterioration of the image quality of medical image data and suppressing an increase in the storage data area.

[Second Embodiment]
In the first embodiment, the medical image display device realized by a single computer device has been described. In the second embodiment, a medical image storage system including a medical image display device and a medical image storage device will be described. In the following description, components having substantially the same functions as those in the first embodiment are denoted by the same reference numerals, and redundant description is provided only when necessary.

  FIG. 6 is a diagram illustrating a configuration of a medical image storage system 20 according to the second embodiment. As shown in FIG. 6, the medical image storage system 20 includes a medical image display device 30 and a medical image storage device 40 that are connected to each other via a network. For example, the medical image display device 30 corresponds to a so-called viewer, and the medical image storage device 40 corresponds to a so-called server. Thus, the medical image display device 30 and the medical image storage device 40 construct a PACS (Picture Archiving and Communication System). The medical image display apparatus 30 may be incorporated in a medical image imaging apparatus for capturing a medical image. The medical imaging apparatus includes all existing modalities such as an X-ray diagnostic apparatus, an X-ray computed tomography apparatus, a magnetic resonance imaging apparatus, an ultrasonic diagnostic apparatus, a SPECT apparatus, and a PET apparatus.

  As illustrated in FIG. 6, the medical image display device 30 includes a storage unit 2, a display unit 3, an extraction unit 4, a conversion unit 5, an operation unit 7, a transmission unit 9, and a control unit 10.

  The transmission unit 9 stores the DICOM annotation data and the medical image data associated with the non-DICOM annotation data derived from the annotation data in the storage unit 2 via a network using a communication method compliant with the DICOM standard. Transmit to device 40.

  The control unit 10 functions as the center of the medical image display device 30. Specifically, the control unit 10 reads out a data conversion program from the storage unit 2 and controls each unit. Thereby, the annotation data conversion process for converting the data format of the annotation data from the non-DICOM standard data format to the DICOM standard data format is executed.

  As illustrated in FIG. 6, the medical image storage device 40 includes a reception unit 11, a storage unit 6, and a control unit 12.

  The receiving unit 11 receives DICOM annotation data and medical image data transmitted from the medical image display device 30 via a network by a communication method compliant with the DICOM standard. The received DICOM annotation data and medical image data are stored in association with each other by the storage unit 6.

  Since the annotation data data conversion process by the medical image storage system 20 is the same as that of the first embodiment, the description thereof is omitted.

  According to the second embodiment, the medical image storage system 20 includes a storage unit 2, a display unit 3, an extraction unit 4, a conversion unit 5, and a storage unit 6. The storage unit 2 stores medical image data having a data format conforming to the DICOM standard and annotation data not conforming to the DICOM standard (non-DICOM annotation data). The display unit 3 displays the annotation corresponding to the non-DICOM annotation data on the display device by superimposing the annotation on the medical image corresponding to the medical image data. The extraction unit 4 extracts an annotation having a specific display color from the superimposed image of the medical image and the annotation. The conversion unit 5 converts the extracted annotation image data (annotation image data) into annotation data (DICOM annotation data) having a data format conforming to the DICOM standard. The storage unit 6 stores the DICOM annotation data in association with the medical image data associated with the non-DICOM annotation data derived from the DICOM annotation data in the storage unit 2.

  According to the second embodiment, the medical image storage system 20 includes the medical image display device 30 and the medical image storage device 40. The medical image display device 30 includes a storage unit 2, a display unit 3, an extraction unit 4, a conversion unit 5, and a transmission unit 9. The transmission unit 9 transmits the DICOM annotation data and the medical image data associated with the non-DICOM annotation data derived from the DICOM annotation data in the storage unit 2 to the medical image storage device 40. The medical image storage device 40 includes a receiving unit 11 and a storage unit 6. The receiving unit 11 receives the DICOM annotation and medical image data from the medical image display device 30. The storage unit 6 stores the received DICOM annotation and medical image data in association with each other.

  Thus, according to the second embodiment, it is possible to convert annotation data into data conforming to the DICOM standard while preventing deterioration of the image quality of medical image data and suppressing an increase in the storage data area.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... Medical image display apparatus, 2 ... Memory | storage part, 3 ... Display part, 4 ... Extraction part, 5 ... Conversion part, 6 ... Storage part, 7 ... Operation part, 8 ... Control part

Claims (9)

A storage unit for storing medical image files conforming to the DICOM standard having medical image data conforming to the DICOM standard and DICOM supplementary information, and annotation data associated with the medical image data and not conforming to the DICOM standard;
A display unit that displays a superimposed image of a medical image corresponding to the medical image data and an annotation corresponding to the annotation data;
An extraction unit for extracting a pixel region having a specific color value from the superimposed image;
A conversion unit that converts image data corresponding to the extracted pixel region into annotation data conforming to the DICOM standard, and incorporating annotation data conforming to the DICOM standard into a medical image file conforming to the DICOM standard ;
A storage unit for storing a medical image file conforming to the DICOM standard in which annotation data conforming to the DICOM standard is embedded ;
A medical image display apparatus comprising:   The medical image display apparatus according to claim 1, wherein the annotation data compliant with the DICOM standard is DICOM overlay data. Annotation data conforming to the DICOM standard is DICOM / GSPS (Gray
The medical image display device according to claim 1, which is Scale Presentation State) data. The storage unit stores display condition data of the medical image data in association with the medical image data in a data format that does not conform to the DICOM standard,
The conversion unit further converts display condition data associated with the medical image data into DICOM / GSPS data ,
The storage unit stores the display condition data converted into the DICOM / GSPS data in association with the medical image data.
The medical image display apparatus according to claim 3.   The extraction unit searches a plurality of pixels included in the superimposed image, and extracts data of a pixel region having a specific color value from the plurality of pixels as annotation data having the specific color value. The medical image display device according to claim 1. The display unit displays the medical image together with the superimposed image,
The extraction unit extracts a difference image between the superimposed image and the displayed medical image as a pixel region having the specific color value;
The medical image display apparatus according to claim 1.   The medical image display device according to claim 1, wherein the display unit displays the superimposed image with an original image size of the medical image. A storage unit for storing medical image files conforming to the DICOM standard having medical image data conforming to the DICOM standard and DICOM supplementary information, and annotation data associated with the medical image data and not conforming to the DICOM standard;
A display unit that displays a superimposed image of a medical image corresponding to the medical image data and an annotation corresponding to the annotation data;
An extraction unit for extracting a pixel region having a specific color value from the superimposed image;
A conversion unit that converts image data corresponding to the extracted pixel region into annotation data conforming to the DICOM standard, and incorporating annotation data conforming to the DICOM standard into a medical image file conforming to the DICOM standard ;
A storage unit for storing a medical image file conforming to the DICOM standard in which annotation data conforming to the DICOM standard is embedded ;
A medical image storage system comprising: A medical image storage system comprising: a medical image display device for displaying a medical image; and a medical image storage device connected to the medical image display device via a network,
The medical image display device includes:
A storage unit for storing medical image files conforming to the DICOM standard having medical image data conforming to the DICOM standard and DICOM supplementary information, and annotation data associated with the medical image data and not conforming to the DICOM standard;
A display unit that displays a superimposed image of a medical image corresponding to the medical image data and an annotation corresponding to the annotation data;
An extraction unit for extracting a pixel region having a specific color value from the superimposed image;
A conversion unit that converts image data corresponding to the extracted pixel region into annotation data conforming to the DICOM standard, and incorporating annotation data conforming to the DICOM standard into a medical image file conforming to the DICOM standard ;
A transmission unit that transmits a medical image file compliant with the DICOM standard in which annotation data compliant with the DICOM standard is incorporated, to the medical image storage device;
The medical image storage device includes:
A receiving unit for receiving the transmitted medical image file ;
A storage unit for storing the received medical image file ,
A medical image storage system characterized by that.

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