JP2008148956A - Medical imaging diagnostic apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a medical imaging diagnostic apparatus which can adjust the color temperature of a monochromatic image independently of that of a color image. <P>SOLUTION: An operator sees the indicated value of color temperature in a monochromatic image on an operation board (20) to operate a button for setting the color temperature into a desired one, depending on which the content for B/M in a color temperature regulation LUT (14) is varied. The operator can adjust the color temperature for the monochromatic image independently of that for the color image to improve both the images in visibility independently of each other. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a medical image diagnostic apparatus, and more particularly to a medical image diagnostic apparatus that can adjust the color temperature of a monochrome image independently of the color temperature of a color image.

2. Description of the Related Art Conventionally, there is known an ultrasonic diagnostic apparatus in which an operator can adjust the color temperature of an ultrasonic image (see, for example, Patent Document 1).
JP 11-290319 A ([0027])

In the conventional ultrasonic diagnostic apparatus, the color temperature of the monochrome image and the color temperature of the color image are not distinguished, and both the monochrome image and the color image are affected when the operator changes the color temperature.
However, when the color temperature is adjusted to improve the visibility of the monochrome image, there is a problem that the visibility of the color image may be lowered.
Accordingly, an object of the present invention is to provide a medical image diagnostic apparatus capable of adjusting the color temperature of a monochrome image independently of the color temperature of a color image.

In a first aspect, the present invention is obtained by photographing a subject and a monochrome image data creation unit that creates monochrome image data that matches a color temperature for a monochrome image from data obtained by photographing the subject. A color image data creation unit that creates color image data that matches the color temperature for the color image from the acquired data, and a color temperature adjustment that allows the operator to adjust the color temperature for the monochrome image independently of the color temperature for the color image And a monitor for displaying a monochrome image based on the monochrome image data and a color image based on the color image data.
In the medical image diagnostic apparatus according to the first aspect, the operator can adjust the monochrome image color temperature independently of the color image color temperature by the color temperature adjustment unit. Thereby, the visibility of a monochrome image can be improved without affecting the visibility of a color image.

In a second aspect, the present invention provides the medical image diagnostic apparatus according to the first aspect, wherein the color temperature adjustment unit is a monochrome image color temperature setting unit for an operator to set the monochrome image color temperature. Provided is a medical image diagnostic apparatus characterized by
In the medical image diagnostic apparatus according to the second aspect, the monochrome image color temperature can be set directly by the operator using the monochrome image color temperature setting unit.

According to a third aspect, the present invention provides the medical image diagnostic apparatus according to the second aspect, further comprising a color temperature setting unit for a color image for an operator to set the color temperature for the color image. A medical image diagnostic apparatus is provided.
In the medical image diagnostic apparatus according to the third aspect, the color temperature for color image can be directly set by the operator by the color temperature setting unit for color image.

In a fourth aspect, the present invention relates to a monitor color temperature setting unit for an operator to set a color temperature of an image displayed on the monitor unit in the medical image diagnostic apparatus according to the second or third aspect. A medical image diagnostic apparatus characterized by comprising:
In the medical image diagnostic apparatus according to the fourth aspect, the operator can directly set the color temperature of the monitor unit by the monitor unit color temperature setting unit.

In a fifth aspect, the present invention provides the medical image diagnostic apparatus according to the first aspect, wherein the color temperature adjusting unit is a color image color temperature setting unit for the operator to set the color temperature for the color image. And a monitor color temperature setting unit for the operator to set the color temperature of the image displayed on the monitor unit.
In the medical image diagnostic apparatus according to the fifth aspect, the operator sets the color temperature of the monitor unit by the monitor unit color temperature setting unit so that the color temperature of the monochrome image is appropriate, and then the color temperature of the color image is set. If the operator sets the color temperature of the color image by the color temperature setting unit for the color image as appropriate, the operator can adjust the color temperature for the monochrome image independently of the color temperature for the color image. Become.

In a sixth aspect, the present invention provides the medical image diagnostic apparatus according to any one of the first to fifth aspects, wherein the medical image diagnostic apparatus is an ultrasonic diagnostic apparatus, and the monochrome image data is a B-mode image. There is provided a medical image diagnostic apparatus characterized in that the color temperature for monochrome images is common to data, M-mode image data, and D-mode image data.
In the medical image diagnostic apparatus according to the sixth aspect, the operator can adjust the color temperatures of B-mode images, M-mode images, and D-mode images that are monochrome images in the ultrasonic diagnostic apparatus. Thereby, the visibility of the B-mode image, the M-mode image, and the D-mode image can be enhanced without affecting the visibility of the color image.

In a seventh aspect, the present invention provides the medical image diagnostic apparatus according to any one of the first to fifth aspects, wherein the medical image diagnostic apparatus is an ultrasonic diagnostic apparatus, and the monochrome image data is a B-mode image. Provided is a medical image diagnostic apparatus characterized in that it is at least one of data, M-mode image data, and D-mode image data, and the monochrome image color temperature corresponding to these is independent.
In the medical image diagnostic apparatus according to the seventh aspect, the operator can independently adjust the color temperature for the B mode image, the color temperature for the M mode image, and the color temperature for the D mode image, which are monochrome images in the ultrasonic diagnostic apparatus. become. Thereby, the visibility of each of the B mode image, the M mode image, and the D mode image can be independently increased.

In an eighth aspect, the present invention provides the medical image diagnostic apparatus according to the sixth aspect, wherein the color image data is CFM image data.
In the medical image diagnostic apparatus according to the eighth aspect, the visibility of the B-mode image, the M-mode image, and the D-mode image is improved without affecting the visibility of the CFM image that is a color image in the ultrasonic diagnostic apparatus. I can do it.

  According to the medical image diagnostic apparatus of the present invention, the visibility of a monochrome image (for example, a B-mode image in an ultrasonic diagnostic apparatus) can be improved without affecting the visibility of a color image (for example, a CFM image in an ultrasonic diagnostic apparatus). Can be raised.

  Hereinafter, the present invention will be described in more detail with reference to embodiments shown in the drawings. Note that the present invention is not limited thereby.

FIG. 1 is an overall configuration diagram illustrating an ultrasonic diagnostic apparatus 101 according to the first embodiment.
The ultrasonic diagnostic apparatus 101 includes an ultrasonic probe 1, an ultrasonic diagnostic apparatus main body 10 </ b> A, and a monitor unit 30.

  The ultrasonic diagnostic apparatus main body 10A drives the ultrasonic probe 1 to transmit ultrasonic waves into the subject, receives echoes from within the subject, and outputs reception signals by changing the sound ray direction. A transmission / reception unit 11 that repeats, a B / M processing unit 12 that creates B-mode image data, M-mode image data, and D-mode image data (hereinafter referred to as B / M data) based on the received signal, and B / M data B / M γ curve LUT (Look Up Table) 13 for data conversion based on B / M gamma characteristics and B / M data converted based on B / M gamma characteristics for B / M B / M color temperature adjustment LUT 14 for data conversion based on color temperature characteristics, a CFM processing unit 15 for creating CFM image data (hereinafter referred to as CFM data) based on a received signal, and CFM data for CFM Ga A CFM γ curve LUT 16 for data conversion based on the CFM characteristics, and a CFM color temperature adjustment LUT 17 for converting the CFM data converted based on the CFM gamma characteristics based on the CFM color temperature characteristics; An interface 18 that synthesizes the B / M data converted based on the color temperature characteristics for B / M and the CFM data converted based on the color temperature characteristics for CFM and outputs them as display data to the monitor unit 30; The control part 19 which controls this, and the operation part 20 which an operator operates are comprised.

  The monitor unit 30 includes a γ curve LUT 31 that converts display data input from the ultrasonic diagnostic apparatus main body 10A based on the monitor unit gamma characteristic, and a display unit that converts the display data converted based on the monitor unit gamma characteristic. A color temperature adjustment LUT 32 for data conversion based on the color temperature characteristics, and a B-mode image, an M-mode image, a D-mode image, and a CFM image are displayed based on the display data converted based on the monitor section color temperature characteristics. LCD33 which performs.

As shown in FIG. 2, the operator can set the desired color temperature for the monochrome image by operating the monochrome image color temperature setting button 22 while viewing the monochrome image color temperature display value 21 of the operation unit 20. . The contents of the B / M color temperature adjustment LUT 14 are changed in accordance with the monochrome image color temperature setting.
The operator can set a desired color image color temperature by operating the color image color temperature setting button 24 while viewing the color image color temperature display value 23 of the operation unit 20. The contents of the CFM color temperature adjustment LUT 17 are changed according to the color image color temperature setting.
Further, the operator can set a desired monitor unit color temperature by operating the monitor unit color temperature setting button 26 while viewing the monitor unit color temperature display value 25 of the operation unit 20. The contents of the color temperature adjustment LUT 32 are changed according to the setting of the monitor unit color temperature.

As shown in FIG. 3A, for example, a B-mode image is displayed based on B-mode image data that has been data-converted according to the color temperature for monochrome images.
As shown in FIG. 3B, for example, a color Doppler image is displayed based on color Doppler image data that is data-converted according to the color temperature for color images.
As shown in FIG. 3C, even when the B-mode image and the color Doppler image are displayed in an overlapping manner, the B-mode image is displayed based on the B-mode image data that has been converted according to the color temperature for monochrome images. Thus, the color Doppler image is displayed based on the color Doppler image data that has been converted according to the color temperature for the color image.

According to the ultrasonic diagnostic apparatus 101 of the first embodiment, the following effects can be obtained.
(1) The monochrome image color temperature can be adjusted by the operator independently of the color image color temperature by the monochrome image color temperature setting button 22 and the B / M color temperature adjustment LUT 14. Thereby, the visibility of a monochrome image can be improved without affecting the visibility of a color image.
(2) The color image color temperature setting button 24 and the CFM color temperature adjustment LUT 17 allow the operator to adjust the color image color temperature independently of the monochrome image color temperature. Thereby, the visibility of a color image can be improved without affecting the visibility of a monochrome image.
(3) The color temperature of the monitor unit 30 can be adjusted by the operator using the monitor unit color temperature setting button 26 and the color temperature adjustment LUT 32. Thereby, the visibility of a monochrome image and a color image can be adjusted simultaneously.

FIG. 4 shows an ultrasonic diagnostic apparatus 102 according to the second embodiment.
This ultrasonic diagnostic apparatus 102 is obtained by omitting the CFM color temperature adjustment LUT 17 from the ultrasonic diagnostic apparatus 101 according to the first embodiment.

  In the ultrasonic diagnostic apparatus 102 according to the second embodiment, the color temperature of the monitor unit 30 may be adjusted so as to improve the visibility of the color image, and then the monochrome image color temperature may be adjusted so as to improve the visibility of the monochrome image. .

FIG. 5 shows an ultrasonic diagnostic apparatus 103 according to the third embodiment.
This ultrasonic diagnostic apparatus 103 is obtained by omitting the B / M color temperature adjustment LUT 14 from the ultrasonic diagnostic apparatus 101 according to the first embodiment.

  In the ultrasonic diagnostic apparatus 103 according to the third embodiment, the color temperature of the monitor unit 30 may be adjusted so as to improve the visibility of the monochrome image, and then the color temperature for the color image may be adjusted so as to improve the visibility of the color image. . As a result, the operator can adjust the monochrome image color temperature independently of the color image color temperature.

FIG. 6 shows an ultrasonic diagnostic apparatus 104 according to the fourth embodiment.
The ultrasonic diagnostic apparatus 104 is obtained by omitting the color temperature adjustment LUT 32 from the ultrasonic diagnostic apparatus 101 according to the first embodiment.

  In the ultrasonic diagnostic apparatus 104 according to the fourth embodiment, the monochrome image color temperature and the color image color temperature can be independently adjusted.

  The B / M γ curve LUT 13 and the B / M color temperature adjustment LUT 14 may be a single LUT. Similarly, the CFM γ curve LUT 16 and the CFM color temperature adjustment LUT 17 may be combined into one LUT.

  The processing order of the B / M γ curve LUT 13 and the B / M color temperature adjustment LUT 14 may be switched. Similarly, the processing order of the CFM γ curve LUT 16 and the CFM color temperature adjustment LUT 17 may be interchanged.

  When the content of the B / M γ curve LUT 13 is changed, the content of the B / M color temperature adjustment LUT 14 may be changed accordingly. Similarly, when the content of the CFM γ curve LUT 16 is changed, the content of the CFM color temperature adjustment LUT 17 may be changed accordingly.

  One or both functions of the B / M γ curve LUT 13 and the B / M color temperature adjustment LUT 14 may be performed in a DSC (Digital Scan Converter) function. Similarly, one or both functions of the CFM γ curve LUT 16 and the CFM color temperature adjustment LUT 17 may be performed in a DSC (Digital Scan Converter) function.

  The visibility of a monochrome image and a color image in the medical image diagnostic apparatus can be improved.

1 is an overall configuration diagram illustrating an ultrasonic diagnostic apparatus according to Embodiment 1. FIG. It is a schematic diagram which shows a color temperature setting part. It is a schematic diagram which shows the B mode image and color Doppler image from which color temperature differs. 1 is an overall configuration diagram illustrating an ultrasonic diagnostic apparatus according to a second embodiment. FIG. 6 is an overall configuration diagram illustrating an ultrasonic diagnostic apparatus according to a third embodiment. FIG. 6 is an overall configuration diagram illustrating an ultrasonic diagnostic apparatus according to a fourth embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ultrasonic probe 10A-10C Ultrasonic diagnostic apparatus main body 11 Transmission / reception part 12 B / M processing part 13 Gamma curve LUT for B / M
14 B / M color temperature adjustment LUT
15 CFM processor 16 Gamma curve LUT for CFM
17 Color temperature adjustment LUT for CFM
18 Interface 19 Control Unit 20 Operation Unit 21 Color Temperature Display Value for Monochrome Image 22 Color Temperature Setting Button for Monochrome Image 23 Color Temperature Display Value for Color Image 24 Color Temperature Setting Button for Color Image 25 Monitor Unit Color Temperature Display Value 26 Monitor Unit Color temperature setting buttons 101-104 Ultrasonic diagnostic equipment

Claims (8)

A monochrome image data creation unit that creates monochrome image data that matches the color temperature for monochrome images from the data obtained by imaging the subject, and a color image that matches the color temperature for color images from the data obtained by imaging the subject Based on the monochrome image data, a color image data creation unit that creates color image data, a color temperature adjustment unit that allows an operator to adjust the color temperature for the monochrome image independently of the color temperature for the color image, and the monochrome image data A medical image diagnostic apparatus comprising a monitor unit that displays a monochrome image and displays a color image based on the color image data. The medical image diagnosis apparatus according to claim 1, wherein the color temperature adjusting unit is a monochrome image color temperature setting unit for an operator to set the monochrome image color temperature. apparatus. The medical image diagnostic apparatus according to claim 2, further comprising a color temperature setting unit for a color image for an operator to set the color temperature for the color image. 4. The medical image diagnostic apparatus according to claim 2, further comprising a monitor color temperature setting unit for an operator to set a color temperature of an image displayed on the monitor unit. Diagnostic device. The medical image diagnostic apparatus according to claim 1, wherein the color temperature adjusting unit includes: a color image color temperature setting unit for an operator to set the color image color temperature; and an image displayed on the monitor unit. A medical image diagnostic apparatus comprising a monitor color temperature setting unit for an operator to set a color temperature. 6. The medical image diagnostic apparatus according to claim 1, wherein the medical image diagnostic apparatus is an ultrasonic diagnostic apparatus, and the monochrome image data is B-mode image data, M-mode image data, and D-mode image. A medical image diagnostic apparatus, which is data and has the same color temperature for monochrome images. 6. The medical image diagnostic apparatus according to claim 1, wherein the medical image diagnostic apparatus is an ultrasonic diagnostic apparatus, and the monochrome image data is B-mode image data, M-mode image data, and D-mode image. A medical diagnostic imaging apparatus, wherein the monochrome image color temperature corresponding to at least one of the data is independent. 7. The medical image diagnostic apparatus according to claim 6, wherein the color image data is CFM image data.

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