JP2013009877A - Medical image display apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a medical image display apparatus which can display a medical image as the same image as medical images obtained from other medical image display apparatuses.SOLUTION: The apparatus includes a first LUT conversion processing section 62-1 to perform conversion processing according to a first conversion function, and a second LUT conversion processing section 62-2 to perform conversion processing according to a second conversion function which is used for conversion of the second medical image displayed in the other medical image display apparatus into the data of the brightness information. The display image forming section 63 selects the data converted from the first medical image data among the data D1 of brightness information provided with the first LUT conversion processing section 62-1, and selects the converted data out of data of the second medical image among data D1 of brightness information provided with the second LUT conversion processing section 62-2. Then as an image to be displayed on the display section, an image including the first medical image and the second medical image is formed.

Description

  The present invention relates to a medical image display device capable of displaying a medical image acquired by another medical image display device.

  In a medical image display device such as an X-ray CT (Computed Tomography) device, an MRI (Magnetic Resonance Imaging) device, or an ultrasonic diagnostic device, data generated based on a signal from a subject is converted into a predetermined conversion function in a display unit. The medical image converted according to the above and converted into luminance information data of the display image is displayed.

  In the X-ray CT apparatus and the MRI apparatus, a medical image converted into luminance information data by a conversion function according to a DICOM curve defined by DICOM (Digital Imaging and Communications in Medicine) standard is displayed. On the other hand, when displaying a real-time ultrasonic image in the ultrasonic diagnostic apparatus, since a DICOM format image is not displayed, a medical image converted into luminance information data by a conversion function different from that of the X-ray CT apparatus or MRI apparatus. Is displayed.

  Here, in the ultrasonic diagnostic apparatus, a medical image of another medical image display apparatus may be displayed. For example, Patent Document 1 discloses an ultrasonic diagnostic apparatus that displays a real-time ultrasonic image and a reference medical image such as an X-ray CT image or an MRI image for the same cross section of a subject.

International Publication No. WO2004-098414 Pamphlet

  As described above, when displaying an X-ray CT image taken by an X-ray CT apparatus or an MRI image taken by an MRI apparatus in an ultrasonic diagnostic apparatus, X-ray CT image data and MRI image data are converted into ultrasonic waves. It is converted into luminance information using the conversion function of the diagnostic device and displayed. Therefore, the X-ray CT image or MRI image displayed on the ultrasonic diagnostic apparatus looks different from the image displayed on the X-ray CT apparatus or MRI apparatus due to the difference in the conversion function. Also, there are cases where the conversion functions are different among ultrasonic diagnostic apparatuses, and even in this case, when an image photographed by a certain ultrasonic diagnostic apparatus is displayed by another ultrasonic diagnostic apparatus, it looks different.

  In this way, between medical image display devices having different conversion functions, when displaying a medical image captured by the other medical image display device on the display unit of one medical image display device, the difference in conversion function is different. Due to this, the image displayed on the other medical image display device is different from the image displayed.

  The invention made in order to solve the above-mentioned problem is a medical image display device including a display unit that displays a first medical image based on a signal from a subject, the first medical image data, and other A conversion processing unit that converts input data including the data of the second medical image acquired by the medical image display device into luminance data of the image displayed on the display unit according to a predetermined conversion function, and the conversion processing A display image creation unit that creates an image to be displayed on the display unit based on the luminance information data obtained by the unit, wherein the conversion processing unit performs a conversion process according to a first conversion function. A conversion processing unit, and a second conversion processing unit that performs conversion processing according to a second conversion function used to convert luminance information of the second medical image displayed on the other medical image display device into data. And said The display image creation unit selects the data converted from the data of the first medical image from the data of the luminance information obtained by the first conversion processing unit, and the luminance information obtained by the second conversion processing unit Selecting data converted from the data of the second medical image from among the data of the image and creating an image including the first medical image and the second medical image as an image displayed on the display unit. It is a medical image display device characterized.

  According to the invention of the above aspect, a first medical image based on luminance information data converted according to the first conversion function and a second medical image based on luminance information data converted according to the second conversion function are provided. A medical image is created and displayed. Since the second conversion function is a conversion function used in another medical image display device, the same image as that displayed on the other medical image display device can be displayed as the second medical image.

It is a block diagram which shows an example of embodiment of an ultrasonic diagnosing device. It is a block diagram which shows the structure of the display part in the ultrasonic diagnosing device of 1st embodiment. It is a figure which shows the display screen of the display part on which the ultrasonic image and the medical image were displayed. It is a figure explaining preparation of the data of the display image based on the data of luminance information. It is a block diagram which shows the structure of the display part in the ultrasonic diagnosing device of 2nd embodiment. In 2nd embodiment, it is a figure explaining creation of the data of the display image based on the data of luminance information. It is a figure which shows the display screen of the display part in 2nd embodiment. It is a figure which shows the display screen of the display part in 3rd embodiment. It is a block diagram which shows the ultrasonic diagnosing device of 3rd embodiment in which the medical image data from several medical image display apparatuses are memorize | stored. It is a block diagram which shows the structure of the display part in the ultrasonic diagnosing device of 3rd embodiment. In 3rd embodiment, it is a figure explaining creation of the data of the display image based on the data of luminance information. It is a figure which shows the other example of the display screen of a display part. It is a figure which shows the other example of the display screen of a display part.

Hereinafter, embodiments of the present invention will be described.
(First embodiment)
First, a first embodiment will be described with reference to FIGS. Hereinafter, an example of an ultrasonic diagnostic apparatus will be described as an example of a medical image display apparatus according to the present invention.

  An ultrasonic diagnostic apparatus 1 shown in FIG. 1 includes an ultrasonic probe 2, a transmission / reception unit 3, an echo data processing unit 4, a display control unit 5, a display unit 6, an operation unit 7, a control unit 8, and an HDD (Hard Disk Drive) 9. Is provided.

  The transmission / reception unit 3, the echo data processing unit 4, the display control unit 5, the operation unit 7, the control unit 8, and the HDD 9 are provided in a casing constituting the apparatus main body unit 10. The ultrasonic probe 2 is connected to the apparatus main body 10 via a cable (not shown). Further, the display unit 6 is provided on the apparatus main body unit 10.

  Incidentally, the transmission / reception unit 3, the echo data processing unit 4, and the display control unit 5 may be realized by software.

  The ultrasonic probe 2 scans an object from a plurality of ultrasonic transducers (not shown). The ultrasonic probe 2 receives an ultrasonic echo signal.

  The ultrasonic probe 2 is provided with the magnetic sensor 11 composed of, for example, a Hall element. The magnetic sensor 11 detects the magnetism generated from the magnetism generating unit 12 constituted by, for example, a magnetism generating coil. A detection signal in the magnetic sensor 11 is input to the display control unit 5. The detection signal in the magnetic sensor 11 may be input to the display control unit 5 via a cable (not shown), or may be input to the display control unit 5 wirelessly.

  The transmission / reception unit 3 supplies an electrical signal for transmitting an ultrasonic wave from the ultrasonic probe 2 under a predetermined scanning condition to the ultrasonic probe 2 based on a control signal from the control unit 8. The transmitter / receiver 3 performs signal processing such as A / D conversion and phasing addition processing on the echo signal received by the ultrasonic probe 2.

  The echo data processing unit 4 performs processing for creating an ultrasound image on the data of the echo signal output from the transmission / reception unit 3. For example, the echo data processing unit 4 performs B mode processing such as logarithmic compression processing and envelope detection processing to create B mode data.

  The display control unit 5 has a memory (memory, not shown) for storing data input from the echo data processing unit 4, and scan-converts the data stored in the memory by a scan converter (Scan Converter). Ultrasonic image data UD is created and stored in the memory. The memory stores medical image data MD acquired by a medical image display apparatus 100 other than the ultrasonic diagnostic apparatus 1. Volume data is stored as the medical image data MD.

  The medical image display apparatus 100 may be an apparatus of another modality such as an X-ray CT apparatus or an MRI apparatus, or may be an ultrasonic diagnostic apparatus other than the ultrasonic diagnostic apparatus 1. Also good.

  Further, the display control unit 5 is based on the magnetic detection signal from the magnetic sensor 11 and information on the position and inclination of the ultrasonic probe 2 in the coordinate system of the three-dimensional space with the magnetic generation unit 12 as the origin ( Hereinafter, it may be calculated as “probe position information”. In this case, the display control unit 5 calculates position information of the echo signal in the coordinate system of the three-dimensional space based on the probe position information.

  The display unit 6 includes, for example, an LCD (Liquid Crystal Display) or a CRT (Cathode Ray Tube). As shown in FIG. 2, the display unit 6 includes a distribution unit 61, a LUT (Look Up Table) conversion processing unit 62, and a display image creation unit 63. The display unit 6 is an example of an embodiment of a display unit in the present invention.

  The LUT conversion processing unit 62 includes a first LUT conversion processing unit 62-1 and a second LUT conversion processing unit 62-2, and the distribution unit 61 receives data output from the display control unit 5. D1 is distributed to the first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2. The data D1 is data including the ultrasonic image data UD and the medical image data MD. The distribution unit 61 is an example of an embodiment of a distribution unit in the present invention. The data D1 is input data in the present invention, the ultrasonic image data UD is data of a first medical image in the present invention, and the medical image data MD is data of a second medical image in the present invention.

  The first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2 store the data input from the distribution unit 61 in the luminance information of the image displayed on the display screen 6a of the display unit 6. Convert to data. The first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2 perform conversion processing of luminance information into data according to a predetermined LUT. The first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2 perform conversion processing according to different LUT1 and LUT2. Details will be described later. The LUT conversion processing unit 62 is an example of an embodiment of a conversion processing unit in the present invention, and the first LUT conversion processing unit 62-1 is an example of an embodiment of a first conversion processing unit in the present invention. The two LUT conversion processing unit 62-2 is an example of an embodiment of the second conversion processing unit in the present invention. The LUT is a conversion function in the present invention, the LUT1 is a first conversion function in the present invention, and the LUT2 is a second conversion function in the present invention.

  The display image creation unit 63 selects and combines predetermined data from the output data of the first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2, and displays it on the display screen 6a. Create an image to be played. Details will be described later. The display image creation unit 63 is an example of an embodiment of a display image creation unit in the present invention.

  The operation unit 7 includes a keyboard and a pointing device (not shown) for an operator to input instructions and information. The operation unit 7 is an example of an embodiment of an input unit in the present invention.

  The control unit 8 includes a CPU (Central Processing Unit) (not shown). The control unit 8 reads a control program stored in the HDD 9 and executes functions in each unit of the ultrasonic diagnostic apparatus 1.

  Now, the operation of the ultrasonic diagnostic apparatus 1 of this example will be described. As shown in FIG. 3, the display control unit 5 displays an image G in which a real-time ultrasonic image UG based on the ultrasonic image data UD and a medical image MG based on the medical image data MD are arranged. 6 on the display screen 6a. The display control unit 5 displays the ultrasonic image UG and the medical image MG of the same cross section in the subject. The ultrasonic image UG is the first medical image in the present invention, and the medical image MG is the second medical image in the present invention.

  Incidentally, in the image G, a symbol XG indicating a portion other than the ultrasonic image UG and the medical image MG is a character display space in which character information (not shown) is displayed.

  In displaying the ultrasonic image UG and the medical image MG of the same cross section, first, alignment processing of the coordinate system of the ultrasonic image UG and the coordinate system of the medical image MG is performed. Specifically, while comparing the ultrasonic image UG displayed on the display unit 6 with the medical image MG, the operator moves the cross section of one or both images, and the ultrasonic image of the same cross section is obtained. The UG and the medical image MG are displayed. When the ultrasonic image UG and the medical image MG for the same cross section are displayed, the operator designates an arbitrary point of the ultrasonic image UG using the trackball of the operation unit 7 or the like. The operator also designates a point in the reference medical image MG that seems to be the same position as the point designated in the ultrasonic image UG. The operator designates such points for different cross sections.

  Here, the medical image data MD has position information. Therefore, as described above, when a point that is considered to be the same position in the ultrasonic image UG and the medical image MG is designated, the corresponding position between the coordinate system of the ultrasonic image UG and the coordinate system of the medical image MG is specified. The A plurality of corresponding points between the coordinate system of the ultrasonic image UG and the coordinate system of the medical image MG are specified, so that the coordinate conversion between the coordinate system of the ultrasonic image UG and the coordinate system of the medical image MG is performed. Is possible. This completes the alignment process.

  When the alignment process is completed, the display control unit 5 causes the display unit 6 to display the ultrasonic image UG and the medical image MG having the same cross section in the subject as well as the real-time ultrasonic image UG. The display control unit 5 displays a medical image MG having the same cross section as the ultrasonic image UG based on the magnetic detection signal of the magnetic sensor 11. Specifically, the display control unit 5 performs coordinate conversion of the position information of the echo signal calculated based on the magnetic detection signal of the magnetic sensor 11 into the position information of the coordinate system of the medical image MG, and volume data An area corresponding to the position of the echo signal is specified in the medical image data MD. The display control unit 5 outputs medical image data MD of the cross section of the specified area to the display unit 6. The display control unit 5 outputs real-time ultrasonic image data UD to the display unit 6. Accordingly, the display unit 6 receives the data D1 including the ultrasonic image data UD and the medical image data MD of the same cross section in the subject, and the image G including the ultrasonic image UG and the medical image MG is displayed on the display screen. 6a.

The display of the image G on the display unit 6 will be described in detail. The data D1 input from the display image control unit 5 is output from the distribution unit 61 to the first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2. The first LUT conversion processing unit 62-1 converts the data D1 to the data _{D B} 1 of the luminance information in accordance with the LUT 1. Further, the second LUT conversion processing unit 62-2 converts the data D1 to the data _{D B} 2 of the luminance information in accordance with the LUT 2.

  Here, the LUT1 and LUT2 will be described. First, the LUT 2 is an LUT used to convert the medical image data MD into luminance information data in the medical image display apparatus 100 from which the medical image data MD has been acquired. That is, in the medical image display device 100, the medical image MG obtained by converting the medical image data MD into luminance information data by the LUT 2 is displayed.

  On the other hand, the LUT 1 is an LUT set in the ultrasonic diagnostic apparatus 1 and is an LUT suitable for displaying an ultrasonic image in the ultrasonic diagnostic apparatus 1. The LUT1 is a different LUT from the LUT2.

  Incidentally, the LUT1 and LUT2 may be set in advance by default, or may be set by the operator in the operation unit 7. Further, the LUT 2 may be acquired from the medical image display device 100.

The data _D B 1 of the luminance information output from each LUT conversion processing unit 62-1 and 62-2, _{D B} 2, the ultrasound image data UD is converted from the data _{D B} as shown in FIG. 4 U1 and D _B U2 and data D _B M1 and D _B M2 converted from the medical image data MD. The luminance information data D _B 1 and D _B 2 include data D _B X1 and D _B X2 converted from data of portions other than the ultrasonic image data UD and the medical image data MD. .

Incidentally, in FIG. 4, the data D _B U1 and D _B U2 are schematically illustrated. The data D _B X1 and D _B X2 include character information, and an image based on the data D _B X1 and D _B X2 is an image of the character display space XG.

The luminance information data D _B 1 and D _B 2 are written in memories (not shown) of the first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2. In this memory, it is assumed that the addresses to which the data D _B U1, D _B U2, D _B M1, D _B M2, D _B X1, and D _B X2 are written are fixed in advance.

The display image creating unit 63 preliminarily stores the luminance information data D _B 1 and D _B 2 written in the memories of the first LUT conversion processing unit 62-1 and the second LUT conversion processing unit 62-2. Reads data written to the set address. In this example, an address to which the data D _B U1 and D _B X1 are written is set as an address of data read from the memory of the first LUT conversion processing unit 62-1. Further, as the address of data read out from the memory of the second LUT conversion processing unit 62-2, addresses the data D _B M2 is written is set. Accordingly, the data D _B U1 and D _B X1 are selected from the first LUT conversion processing unit 62-1 as data read by the display image creation unit 63, and the second LUT conversion processing unit 62-2 selects the data D _B U1 and D _B X1. The data D _B M2 is selected.

The display image creation unit 63 creates data D2 including the data D _B U1, D _B X1, and D _B M2, and displays an image G based on the data D2 on the display screen 6a. Therefore, as shown in FIG. 3, an image G including an ultrasonic image UG based on the data D _B U1 and a medical image MG based on the data D _B M2 is displayed on the display screen 6a.

  According to the ultrasonic diagnostic apparatus 1 of the present example, the medical image MG is an image based on data converted into luminance information in accordance with the LUT 2 used in the medical image display apparatus 100, and therefore is displayed on the medical image display apparatus 100. The same image as that to be displayed can be displayed.

A modification of the first embodiment will be described. The display image creation unit 63 may read the D _B M1 in addition to the data D _B U1 and D _B X1 from the first LUT conversion processing unit 62-1. In this case, the display image generation unit 63, by rewriting the data _D B M1 to the data _D B M2 read from the second LUT conversion processing unit 62-2, the data _D B _{U1, D} B _X1, Data D2 composed of D _B M2 is created.

(Second embodiment)
Next, a second embodiment will be described. However, description of the same matters as in the first embodiment is omitted.

  In this example, as shown in FIG. 5, a plurality of the first LUT conversion processing units 62-1 are provided (first LUT conversion processing units 62-1a and 62-1b). The first LUT conversion processing unit 62-1a performs conversion processing according to the LUT 1a. The first conversion processing unit 62-1b performs conversion processing according to the LUT 1b. The LUT 1a is an LUT suitable for displaying an ultrasonic image in the ultrasonic diagnostic apparatus 1. The LUT 1b is different from the LUT 1a, and is an LUT suitable for displaying character information in the character display space XG.

In this example, the data D1 is output from the distribution unit 61 to the first LUT conversion processing units 62-1a and 62-1b and the second LUT conversion processing unit 62-2. The first LUT conversion processing section 62-1a converts the data D1 to the data _D B 1a luminance information in accordance with the LUT1a. The first LUT conversion processing unit 62-1b converts the data D1 to the data _D B 1b luminance information in accordance with the LUT1b. The second LUT conversion processing unit 62-2 converts the data D1 to the data _{D B} 2 of the luminance information in accordance with the LUT 2.

As shown in FIG. 6, the luminance information data D _B 1a, D _B 1b, and D _B 2 are the data D _B U1a, D _B U1b, D _B U2, and the medical image converted from the ultrasonic image data UD. Data D _B M1a, D _B M1b, and D _B M2 converted from the data MD are included. The luminance information data D _B 1a, D _B 1b, and D _B 2 are data D _B X1a, D _B X1b, converted from data other than the ultrasonic image data UD and the medical image data MD, D _B X2 is included. The data D _B X1a, D _B X1b, and D _B X2 include character information.

The luminance information data D _B 1a, D _B 1b, and D _B 2 are stored in memories (not shown) of the first LUT conversion processing units 62-1a and 62-2b and the second LUT conversion processing unit 62-2. Written. Also in this embodiment, in the memory, the data _{D B U1a, D B U1b,} D B U2, D B M1a, D B M1b, D B M2, D B X1a, D B X1b, the _{address D} B X2 are written It is fixed in advance.

The display image creation unit 63 reads the data D _B U1a written in the memory of the first LUT conversion processing unit 62-1a, and the data written in the memory of the second LUT conversion processing unit 62-1b. D _B X1b is read, and the data D _B M2 written in the memory of the second LUT conversion processing unit 62-2 is read. The display image creation unit 63 creates data D2 including the data D _B U1a, D _B X1b, and D _B M2, and displays an image G based on the data D2 on the display screen 6a. Accordingly, as shown in FIG. 7, an image G including an ultrasonic image UG based on the data D _B U1a and a medical image MG based on the data D _B M2 is displayed on the display screen 6a. Thus, as in the first embodiment, the medical image MG based on the data D _B M2 converted according to the LUT 2 is displayed, so that the same image as that displayed on the medical image display device 100 is displayed. Can do.

In this example, the data D _B X1b is data converted into luminance information in accordance with the LUT 1b suitable for displaying character information, so that the character information in the character display space XG is easy to see.

(Third embodiment)
Next, a third embodiment will be described. However, description of the same matters as those in the first and second embodiments is omitted.

  In this example, a plurality of medical images MGA and MGB acquired by a plurality of medical image display devices 100 having different LUTs are displayed on the display screen 6a of the display unit 6 as shown in FIG.

  More specifically, the memory of the display control unit 5 stores medical image data MDA and MDB from a plurality of medical image display devices 100A and 100B shown in FIG. Further, the display unit 6 is provided with a plurality of the second LUT conversion processing units 62-2 as shown in FIG. 10 (second LUT conversion processing units 62-2a and 62-2b). The second LUT conversion processor 62-2a performs conversion processing according to the LUT 2a. The second conversion processing unit 62-2b performs conversion processing according to the LUT 2b. The LUT 2a is an LUT used in the medical image display apparatus 100A, and the LUT 2b is an LUT used in the medical image display apparatus 100B. The LUT 2a and the LUT 2b are different from each other.

In this example, the data D1 is output from the distribution unit 61 to the first LUT conversion processing unit 62-1 and the second LUT conversion processing units 62-2a and 62-2b. The first LUT conversion processing unit 62-1 converts the data D1 to the data _{D B} 1 of the luminance information in accordance with the LUT 1. The second LUT conversion processing section 62-2a converts the data D1 to the data _D B 2a of the luminance information according to the LUT2a. The second LUT conversion processing unit 62-2b converts the data D1 to the data _D B 2b of luminance information according to the LUT2b.

As shown in FIG. 11, the brightness information data D _B 1, D _B 2a, and D _B 2b are data D _B U1, D _B U2a, D _B U2b, and the medical image converted from the ultrasonic image data UD. data _D B _MA1 converted from data _{MDA, D B MA2a, D B} MA2b, the medical image data MDB data converted from _D B _{MB1, D} B MB2a, has a D B MB2b. The luminance information data D _B 1, D _B 2a, and D _B 2b are data D _B X1, D _B converted from data other than the ultrasound image data UD and the medical image data MDA, MDB. X2a, D _B X2b. The data D _B X1, D _B X2a, and D _B X2b include character information.

The brightness information data D _B 1, D _B 2a, and D _B 2b are stored in memories (not shown) of the first LUT conversion processing unit 62-1 and the second LUT conversion processing units 62-2a and 62-2b. Written. Also in this example, in this memory, the data D _B U1, D _B U2a, D _B U2b, D _B MA1, D _B MB1, D _B MA2a, D _B MB2a, D _B MA2b, D _B MB2b, D _B X1, Addresses to which D _B X2a and D _B X2b are written are fixed in advance.

The display image creation unit 63 reads the data D _B U1 and D _B X1 written in the memory of the first LUT conversion processing unit 62-1, and writes the data to the memory of the second LUT conversion processing unit 62-2a. reading the data _D B MA2a which reads the data _D B MB2b written in the memory of the second LUT conversion processing unit 62-2B. The display image generation unit 63, the data _{D B U1, D B X1,} D B MA2a, creates data D2 consisting of D B MB2b, to display an image G based on the data D2 on the display screen 6a. Accordingly, as shown in FIG. 8, the ultrasound image UG based on the data _D B U1, the data _D B and the medical image MGA based on MA2a, image G and a medical image MGB based on the data _D B MB2b is It is displayed on the display image 6a. Thus, the data _D B MA2a that has been converted in accordance with the LUT2a of the medical image display devices 100A, the medical image display apparatus 100B of the LUT2b medical image based on the converted data _D B MB2b according MGA, MGB is displayed Therefore, the same image as that displayed on the medical image display devices 100A and 100B can be displayed.

A modification of the third embodiment will be described. The display image creation unit 63 may read the data D _B MA1 and D _B MB1 in addition to the data D _B U1 and D _B X1 from the first LUT conversion processing unit 62-1. In this case, the display image generation unit 63, the rewrite data _D B MA1 to said data _D B MA2a read from the second LUT conversion processing section 62-2A, the data _D B the second LUT conversion processing MB1 by rewriting the data _D B MB2b read from section 62-2B, creates the data _{D B U1, D B X1,} D B MA2a, data D2 consisting of D B MB2b.

  As mentioned above, although this invention was demonstrated by the said embodiment, of course, this invention can be variously implemented in the range which does not change the main point. For example, in the above embodiment, the distribution unit 61, the first LUT conversion processing units 62-1, 62-1a, 62-2b, the second LUT conversion processing units 62-2, 62-2a, 62-2b, The display image creation unit 63 may be provided not on the display unit 6 but on the rear stage side of the display control unit 5 in the apparatus main body unit 10.

  Furthermore, the image G displayed on the display screen 6a of the display unit 6 is not limited to that described in the above embodiments. For example, as shown in FIG. 12, a thumbnail image SMG may be displayed as the medical image MG. Even in this case, the thumbnail image SMG displayed on the display screen 6a of the ultrasonic diagnostic apparatus 1 is converted using the LUT that converts the luminance information of the image displayed on the medical image display apparatus 100 from which the thumbnail image has been acquired. Conversion to luminance information is performed. Incidentally, as thumbnail images, images acquired by a plurality of medical image display devices 100 may be displayed.

  As shown in FIG. 13, in the medical image MG, when there is a space XG ′ in which characters or the like are displayed, an LUT for converting the image in the space XG ′ into luminance information of the medical image MG. You may display the image based on the data converted into brightness | luminance information using LUT different from.

  The present invention is not limited to an ultrasonic diagnostic apparatus, but can be applied to a medical image display apparatus such as an X-ray CT apparatus or an MRI apparatus.

1 Ultrasonic diagnostic device 6 Display unit 7 Operation unit (input unit)
DESCRIPTION OF SYMBOLS 10 Apparatus main body part 61 Distribution part 62 LUT conversion process part 62-1, 62-1a, 62-1b 1st LUT conversion process part 62-2, 62-2a, 62-2b 2nd LUT conversion process part 63 Display image preparation Unit 100, 100A, 100B Medical image display device (other medical image display device)

Claims (8)

A medical image display device comprising a display unit for displaying a first medical image based on a signal from a subject,
The input data including the data of the first medical image and the data of the second medical image acquired by another medical image display device is converted into luminance information data of the image displayed on the display unit according to a predetermined conversion function. A conversion processing unit to convert;
A display image creation unit that creates an image to be displayed on the display unit based on the luminance information data obtained by the conversion processing unit;
The conversion processing unit is used to convert luminance information of the second medical image displayed on the other medical image display device into data, the first conversion processing unit performing conversion processing according to a first conversion function. A second conversion processing unit that performs conversion processing according to a two-conversion function,
The display image creation unit selects data converted from the data of the first medical image from the data of luminance information obtained by the first conversion processing unit, and the luminance obtained by the second conversion processing unit Selecting data converted from the data of the second medical image from information data, and creating an image including the first medical image and the second medical image as an image to be displayed on the display unit; A medical image display device characterized by the above.   The medical image display apparatus according to claim 1, further comprising a distribution unit that distributes the input data to the first conversion processing unit and the second conversion processing unit.   The medical image display apparatus according to claim 1, wherein the conversion processing unit and the display image creation unit are provided in the display unit. The display unit is provided in the apparatus main body,
The medical image display device according to claim 1, wherein the conversion processing unit and the display image creation unit are provided in the device main body unit.   5. The medical image display device according to claim 1, wherein the medical image display device includes a plurality of the second conversion processing units, and each second conversion processing unit performs conversion processing according to a different second conversion function. .   The medical image display apparatus according to any one of claims 1 to 5, wherein the first conversion function and the second conversion function are preset by default.   The medical image display device according to any one of claims 1 to 5, further comprising an input unit for an operator to set at least one of the first conversion function and the second conversion function.   The medical image display apparatus according to claim 1, wherein the medical image display device includes a plurality of the first conversion processing units, and each first conversion processing unit performs conversion processing according to different first conversion functions. .

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