JP4482289B2 - Flow image display method and ultrasonic diagnostic apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a flow image display method and an ultrasonic diagnostic apparatus, and more specifically, even if the amount of contrast medium at a measurement site varies during measurement, or even if a received signal from a tissue varies during measurement due to body movement, The present invention relates to a flow image display method and an ultrasonic diagnostic apparatus capable of appropriately displaying a background image with respect to display of a flow image.
[0002]
[Prior art]
Conventionally, in order to appropriately display a background (tissue) image relative to a flow image (contrast agent), it has been proposed to intentionally adjust the ratio of the fundamental component and the harmonic component of the signal. (For example, refer to Patent Document 1).
[0003]
[Patent Document 1]
JP 2002-238900 A ([0014])
[0004]
[Problems to be solved by the invention]
In the above prior art, the ratio between the fundamental wave component and the harmonic component is set by the user or automatically set by the measurement conditions (transmission frequency, tissue movement speed, etc.) It was not changed dynamically during measurement.
However, since the contrast agent is carried by the bloodstream and may be destroyed by ultrasonic waves, the amount of contrast agent at the measurement site varies (increases and decreases) during measurement. Also, the received signal from the tissue may fluctuate during measurement due to body movement. Therefore, the above-described conventional technique has a problem in that even if the background image is appropriately displayed at a certain time point during measurement, the background image is not appropriately displayed at another time point.
Therefore, an object of the present invention is to provide a background image for the display of a flow image even if the amount of contrast medium at the measurement site varies during measurement, or the received signal from the tissue varies during measurement due to body movement. It is an object of the present invention to provide a flow image display method and an ultrasonic diagnostic apparatus that can display appropriately.
[0005]
[Means for Solving the Problems]
In a first aspect, the present invention is a flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue, and comprising at least one sound ray Provided is a flow image display method characterized by adjusting the luminance of a background image in accordance with the average signal intensity of an ultrasonic echo of a minute.
When the amount of contrast medium at the measurement site varies during measurement, or when the received signal from the tissue varies during measurement due to body movement, the average signal intensity of at least one sound ray of the ultrasonic echo also varies.
Therefore, in the flow image display method according to the first aspect, the luminance of the background image is dynamically adjusted according to the average signal intensity of ultrasonic echoes for at least one sound ray. Thereby, a background image can be displayed moderately with respect to the display of a flow image at any time during measurement.
[0006]
In a second aspect, the present invention is a flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue, and comprising at least one sound ray A flow image display method is provided, wherein the brightness of a background image is adjusted in accordance with a change in the average signal intensity of the flow component of the minute.
When the amount of contrast medium at the measurement site varies during measurement, the average signal intensity of at least one sound ray of the flow component also varies.
Therefore, in the flow image display method according to the second aspect, the luminance of the background image is dynamically adjusted according to the average signal intensity of the flow component for at least one sound ray. Thereby, even if the amount of contrast medium in the measurement site varies during measurement, the background image can be displayed appropriately with respect to the display of the flow image.
[0007]
In a third aspect, the present invention is a flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue, and comprising at least one sound ray A flow image display method is provided that adjusts the luminance of a flow image in accordance with a change in the average signal intensity of the background component of the minute.
When the received signal from the tissue varies during measurement due to body movement, the average signal intensity of at least one sound ray of the background component also varies.
Therefore, in the flow image display method according to the third aspect, the luminance of the background image is dynamically adjusted according to the average signal intensity of the background component for at least one sound ray. Thereby, even if the received signal from the tissue fluctuates during measurement due to body movement, the background image can be displayed appropriately with respect to the display of the flow image.
[0008]
In a fourth aspect, the present invention is a flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue, and comprising at least one sound ray A flow image display method is provided, wherein the luminance of a background image is adjusted in accordance with a change in the ratio of the average signal intensity of the flow component and background component of the minute.
If the amount of contrast medium at the measurement site changes during measurement, or if the received signal from the tissue changes during measurement due to body movement, the ratio of the average signal intensity of at least one sound ray of the flow component and background component also changes. .
Therefore, in the flow image display method according to the fourth aspect, the luminance of the background image is dynamically adjusted according to the ratio of the average signal intensity of the flow component and the background component for at least one sound ray. Thereby, a background image can be displayed moderately with respect to the display of a flow image at any time during measurement.
[0009]
In a fifth aspect, the present invention relates to an ultrasonic probe, and drives the ultrasonic probe to transmit an ultrasonic pulse into the subject and receive and receive an ultrasonic echo from within the subject. Transmitting / receiving means for outputting data; flow image generating means for imaging a flow based on the received data; background image generating means for imaging a tissue based on the received data; Average signal intensity calculating means for calculating the average signal intensity of the sound echo, reference average signal intensity storing means for storing the reference average signal intensity designated by the operator, and a composite image obtained by combining the flow image and the background image And a composite image generating means for comparing the average signal intensity with the reference average signal intensity and adjusting the luminance of a background image in the composite image according to a comparison result; To provide an ultrasonic diagnostic apparatus characterized by comprising a display means for displaying the formed image.
In the ultrasonic diagnostic apparatus according to the fifth aspect, the flow image display method according to the first aspect can be suitably implemented.
[0010]
In a sixth aspect, the present invention relates to an ultrasonic probe, and drives the ultrasonic probe to transmit ultrasonic pulses into the subject and receive and receive ultrasonic echoes from within the subject. Transmitting / receiving means for outputting data; flow image generating means for imaging a flow based on the received data; background image generating means for imaging a tissue based on the received data; and a flow for at least one sound ray An average signal intensity calculating means for calculating the average signal intensity of the component, a reference average signal intensity storing means for storing the reference average signal intensity designated by the operator, and a composite image obtained by combining the flow image and the background image. A composite image generating means for generating and comparing the average signal intensity with the reference average signal intensity and adjusting a luminance of a background image in the composite image according to a comparison result; To provide an ultrasonic diagnostic apparatus characterized by comprising a display means for displaying an image.
In the ultrasonic diagnostic apparatus according to the sixth aspect, the flow image display method according to the second aspect can be suitably implemented.
[0011]
In a seventh aspect, the present invention relates to an ultrasonic probe, and drives the ultrasonic probe to transmit an ultrasonic pulse into the subject and receive and receive an ultrasonic echo from within the subject. Transmitting / receiving means for outputting data, flow image generating means for imaging a flow based on the received data, background image generating means for imaging a tissue based on the received data, and a back for at least one sound ray Average signal intensity calculating means for calculating the average signal intensity of the ground component, reference average signal intensity storing means for storing the reference average signal intensity designated by the operator, and a composite image obtained by synthesizing the flow image and the background image Image generating means for comparing the average signal intensity with the reference average signal intensity and adjusting the luminance of the background image in the synthesized image according to the comparison result , To provide an ultrasonic diagnostic apparatus characterized by comprising a display means for displaying the composite image.
In the ultrasonic diagnostic apparatus according to the seventh aspect, the flow image display method according to the third aspect can be suitably implemented.
[0012]
In an eighth aspect, the present invention relates to an ultrasonic probe, and driving the ultrasonic probe to transmit an ultrasonic pulse into the subject and receive and receive an ultrasonic echo from within the subject. Transmitting / receiving means for outputting data; flow image generating means for imaging a flow based on the received data; background image generating means for imaging a tissue based on the received data; and a flow for at least one sound ray Average signal intensity ratio calculating means for calculating the ratio of the average signal intensity of the component and the background component, reference average signal intensity ratio storage means for storing the reference average signal intensity ratio designated by the operator, the flow image and the background A composite image obtained by combining a ground image is generated, and the ratio of the average signal intensity and the reference average signal intensity ratio are compared, and the brightness of the background image in the composite image is determined according to the comparison result Providing a composite image generating means for adjusting the ultrasonic diagnostic apparatus characterized by comprising a display means for displaying the composite image.
In the ultrasonic diagnostic apparatus according to the eighth aspect, the flow image display method according to the fourth aspect can be suitably implemented.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
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.
[0014]
-First embodiment-
FIG. 1 is a configuration diagram of an ultrasonic diagnostic apparatus 100 according to the first embodiment.
The ultrasonic diagnostic apparatus 100 drives the ultrasonic probe 1 and the ultrasonic probe 1 to transmit a transmission pulse in a desired sound ray direction, and at the same time, uses the ultrasonic probe 1 to obtain a desired sound ray. A transmitting / receiving unit 2 that receives an ultrasonic echo from a direction and outputs a sound ray signal, a flow image generation unit 3 that generates a flow image (contrast medium image) F from the sound ray signal, and a background image from the sound ray signal (Tissue image) Background image generating unit 4 for generating B, average signal intensity calculating unit 5 for calculating the average signal intensity a of sound ray signals for one frame, and operation for storing the reference average signal intensity A calibration switch 6 operated by a person, a storage unit 7 for storing the average signal strength a output from the average signal strength calculation unit 5 as the reference average signal strength b when the calibration switch 6 is pressed, Flow image F A composite unit 8 that generates a composite image G by combining the background image B, compares the average signal intensity a with the reference average signal intensity b, and adjusts the luminance of the background image B in the composite image G according to the comparison result. And a display unit 9 for displaying the composite image G.
[0015]
The synthesis process in the synthesis unit 8 is, for example, according to the following equation in the initial state.
G = Wf · F + Wb · B (1)
Here, Wf and Wb are weights that determine the mixing ratio of the flow image F and the background image B. The Wf and Wb are such that the luminance of the background component is considerably increased so that the background component can be seen well.
[0016]
FIG. 2 is a flowchart showing a calibration process in which the storage unit 7 stores the reference average signal strength b.
In step C1, it waits for the operator to press the calibration switch 6. The operator administers the contrast agent while scanning the measurement site of the subject with the ultrasonic probe 1. As the amount of contrast agent in the measurement area increases, the brightness of the flow component increases, so the operator can switch the calibration switch when he / she thinks that the balance between the brightness of the flow component and the background brightness is favorable. Press 6. Then, it progresses to step C2.
In step C 2, the average signal strength a output from the average signal strength calculation unit 5 is stored as the reference average signal strength b, and is output to the synthesis unit 8.
[0017]
FIG. 3 is an explanatory diagram illustrating the brightness adjustment processing performed by the synthesis unit 8. This brightness adjustment process is started when the calibration switch 6 is pressed.
In step S1, the average signal strength a and the reference average signal strength b are read.
In step S2, the brightness of the background image is adjusted according to the average signal strength a and the reference average signal strength b. For example, according to the following formula.
G = Wf · F + Wb · (b / a) · B (2)
That is, when the average signal intensity a is equal to the reference average signal intensity b, the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed is equal.
When the amount of contrast medium at the measurement site increases during measurement, the average signal intensity a increases and becomes higher than the reference average signal intensity b. Then, the luminance of the background component becomes lower than the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed. As a result, a difference in luminance between the flow image F and the background image B is opened, and the flow image F is easy to see.
If there is a body movement during the measurement, the average signal strength a also increases and becomes higher than the reference average signal strength b. Then, the luminance of the background component becomes lower than the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed. Thereby, it can prevent that the brightness | luminance of the background image B goes up entirely.
When the amount of contrast medium at the measurement site decreases or body motion disappears, the average signal intensity a returns to the original value, so that the balance between the luminance of the flow component when the calibration switch 6 is pressed and the luminance of the background is restored.
[0018]
-Second Embodiment-
FIG. 4 is a configuration diagram of an ultrasonic diagnostic apparatus 200 according to the second embodiment.
The ultrasonic diagnostic apparatus 200 drives the ultrasonic probe 1 and the ultrasonic probe 1 to transmit a transmission pulse in a desired sound ray direction, and at the same time, uses the ultrasonic probe 1 to obtain a desired sound ray. A transmitting / receiving unit 2 that receives an ultrasonic echo from a direction and outputs a sound ray signal, a flow image generation unit 3 that generates a flow image F from the sound ray signal, and a background that generates a background image B from the sound ray signal An image generation unit 4; an average signal strength calculation unit 5 that calculates an average signal strength a of one frame of the flow image F; a calibration switch 6 that is operated by an operator to store a reference average signal strength; The storage unit 7 for storing the average signal strength a output from the average signal strength calculation unit 5 when the operation switch 6 is pressed as the reference average signal strength b, and the flow image F and the background image B are combined. The synthesized image G is generated, the average signal intensity a is compared with the reference average signal intensity b, and the luminance of the background image B in the synthesized image G is adjusted according to the comparison result, and the synthesized image G is displayed. The display part 9 which comprises is comprised.
[0019]
The synthesis process in the synthesis unit 8 is, for example, according to the following equation in the initial state.
G = Wf · F + Wb · B (1)
Here, Wf and Wb are weights that determine the mixing ratio of the flow image F and the background image B. The Wf and Wb are such that the luminance of the background component is considerably increased so that the background component can be seen well.
[0020]
The calibration process in which the storage unit 7 stores the reference average signal strength b is the same as that in FIG.
[0021]
The luminance adjustment process performed by the synthesis unit 8 is the same as that in FIG. 3. For example, the luminance of the background image is adjusted by the following equation.
G = Wf · F + Wb · (b / a) · B (2)
That is, when the average signal intensity a is equal to the reference average signal intensity b, the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed is equal.
When the amount of contrast medium at the measurement site increases during measurement, the average signal intensity a increases and becomes higher than the reference average signal intensity b. Then, the luminance of the background component becomes lower than the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed. As a result, a difference in luminance between the flow image F and the background image B is opened, and the flow image F is easy to see.
When the amount of contrast medium at the measurement site decreases, the average signal intensity a returns to the original value, so that the balance between the luminance of the flow component when the calibration switch 6 is pressed and the luminance of the background is restored.
[0022]
-Third embodiment-
FIG. 5 is a configuration diagram of an ultrasonic diagnostic apparatus 300 according to the third embodiment.
The ultrasonic diagnostic apparatus 300 drives the ultrasonic probe 1 and the ultrasonic probe 1 to transmit a transmission pulse in a desired sound ray direction, and at the same time, uses the ultrasonic probe 1 to obtain a desired sound ray. A transmitting / receiving unit 2 that receives an ultrasonic echo from a direction and outputs a sound ray signal, a flow image generation unit 3 that generates a flow image F from the sound ray signal, and a background that generates a background image B from the sound ray signal An image generation unit 4, an average signal strength calculation unit 5 that calculates an average signal strength a of one frame of the background image B, a calibration switch 6 that is operated by an operator to store a reference average signal strength, A storage unit 7 that stores the average signal strength a output from the average signal strength calculation unit 5 when the calibration switch 6 is pressed, as a reference average signal strength b, and a flow image F and background A combining unit 8 that generates a combined image G by combining the image B, compares the average signal intensity a with the reference average signal intensity b, and adjusts the luminance of the background image B in the combined image G according to the comparison result; And a display unit 9 for displaying the composite image G.
[0023]
The synthesis process in the synthesis unit 8 is, for example, according to the following equation in the initial state.
G = Wf · F + Wb · B (1)
Here, Wf and Wb are weights that determine the mixing ratio of the flow image F and the background image B. The Wf and Wb are such that the luminance of the background component is considerably increased so that the background component can be seen well.
[0024]
The calibration process in which the storage unit 7 stores the reference average signal strength b is the same as that in FIG.
[0025]
The luminance adjustment process performed by the synthesis unit 8 is the same as that in FIG. 3. For example, the luminance of the background image is adjusted by the following equation.
G = Wf · F + Wb · (b / a) · B (2)
That is, when the average signal intensity a is equal to the reference average signal intensity b, the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed is equal.
If there is a body movement during the measurement, the average signal intensity a increases and becomes higher than the reference average signal intensity b. Then, the luminance of the background component becomes lower than the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed. Thereby, it can prevent that the brightness | luminance of the background image B goes up entirely.
When the amount of contrast medium at the measurement site decreases or body motion disappears, the average signal intensity a returns to the original value, so that the balance between the luminance of the flow component when the calibration switch 6 is pressed and the luminance of the background is restored.
[0026]
-Fourth Embodiment-
FIG. 6 is a configuration diagram of an ultrasonic diagnostic apparatus 400 according to the fourth embodiment.
The ultrasonic diagnostic apparatus 400 drives the ultrasonic probe 1 and the ultrasonic probe 1 to transmit a transmission pulse in a desired sound ray direction, and at the same time, uses the ultrasonic probe 1 to obtain a desired sound ray. A transmitting / receiving unit 2 that receives an ultrasonic echo from a direction and outputs a sound ray signal, a flow image generation unit 3 that generates a flow image (contrast medium image) F from the sound ray signal, and a background image from the sound ray signal (Tissue image) A background image generation unit 4 that generates B, and an average signal intensity ratio c is calculated by dividing the average signal intensity of one frame of the flow image F by the average signal intensity of one frame of the background image B. From the average signal strength ratio calculating section 15, the calibration switch 6 operated by the operator to store the reference average signal strength ratio, and the average signal strength ratio calculating section 15 when the calibration switch 6 is pressed. A storage unit 7 that stores the average signal strength ratio c being applied as a reference average signal strength ratio d, and a composite image G that combines the flow image F and the background image B are generated, and the average signal strength ratio c and the reference Comparing the average signal intensity ratio d and adjusting the luminance of the background image B in the composite image G according to the comparison result, and a display unit 9 for displaying the composite image G are provided. .
[0027]
The synthesis process in the synthesis unit 8 is, for example, according to the following equation in the initial state.
G = Wf · F + Wb · B (1)
Here, Wf and Wb are weights that determine the mixing ratio of the flow image F and the background image B. The Wf and Wb are such that the luminance of the background component is considerably increased so that the background component can be seen well.
[0028]
FIG. 7 is a flowchart showing a calibration process in which the storage unit 7 stores the reference average signal intensity ratio d.
In step D1, it waits for the operator to press the calibration switch 6. The operator administers the contrast agent while scanning the measurement site of the subject with the ultrasonic probe 1. As the amount of contrast agent in the measurement area increases, the brightness of the flow component increases, so the operator can switch the calibration switch when he / she thinks that the balance between the brightness of the flow component and the background brightness is favorable. Press 6. Then, it progresses to step D2.
In step D <b> 2, the average signal strength ratio c output from the average signal strength ratio calculation unit 15 is stored as the reference average signal strength ratio d and output to the synthesis unit 8.
[0029]
FIG. 8 is an explanatory diagram showing luminance adjustment processing performed by the synthesis unit 8. This brightness adjustment process is started when the calibration switch 6 is pressed.
In step R1, the average signal strength ratio c and the reference average signal strength ratio d are read.
In step R2, the luminance of the background image is adjusted according to the average signal intensity ratio c and the reference average signal intensity ratio d. For example, according to the following formula.
G = Wf · F + Wb · (c / d) · B (2)
That is, when the average signal strength ratio c is equal to the reference average signal strength ratio d, the balance of the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed is equal.
When the amount of contrast medium at the measurement site increases during measurement, the average signal intensity of the flow image F increases, so the average signal intensity ratio c increases and becomes higher than the reference average signal intensity ratio d. As a result, the luminance of the background component also increases. Thereby, the difference in luminance between the flow image F and the background image B is not opened, and the balance between the luminance of the flow component and the luminance of the background when the calibration switch 6 is pressed is substantially maintained.
If there is a body movement during measurement, the average signal intensity of the background image B increases, so the average signal intensity ratio c decreases and becomes lower than the reference average signal intensity ratio d. Then, the luminance of the background component is lowered. Thereby, it can prevent that the brightness | luminance of the background image B goes up entirely.
When the amount of contrast medium at the measurement site decreases or body motion disappears, the average signal intensity a returns to the original value, so that the balance between the luminance of the flow component when the calibration switch 6 is pressed and the luminance of the background is restored.
[0030]
-Other embodiments-
In the above embodiment, a display mode in which the display area of the flow image F and the display area of the background image B are not separated as in CHA (Coded Harmonic Angio) is assumed. The present invention can also be applied to a display mode in which the B display area is separated. In that case, the following equations (3) and (4) may be used instead of the above equations (1) and (2).
G = r · Wf · F + (r−1) · Wb · B (3)
G = r · Wf · F + (r−1) · Wb · (b / a) · B (4)
Here, r = 1 in the flow image display area of the screen, and r = 0 in the background image display area.
[0031]
In the above embodiment, the average signal intensity a and the average signal intensity ratio c for one frame are used. However, an average signal intensity and an average signal intensity ratio for at least one sound ray may be used.
[0032]
【The invention's effect】
According to the flow image display method and the ultrasonic diagnostic apparatus of the present invention, even if the amount of contrast medium at the measurement site varies during measurement or the received signal from the tissue varies during measurement due to body movement, A background image can be displayed moderately with respect to the display.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a first embodiment.
FIG. 2 is a flowchart showing calibration processing according to the first embodiment.
FIG. 3 is a flowchart showing luminance adjustment processing according to the first embodiment.
FIG. 4 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a second embodiment.
FIG. 5 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a third embodiment.
FIG. 6 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a fourth embodiment.
FIG. 7 is a flowchart showing calibration processing according to a fourth embodiment.
FIG. 8 is a flowchart showing luminance adjustment processing according to the fourth embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Ultrasonic probe 2 Transmission / reception part 3 Flow image generation part 4 Background image generation part 5 Average signal strength calculation part 6 Calibration switch 7 Storage part 8 Synthesis | combination part 9 Display apparatus 15 Average signal intensity ratio calculation part 100-400 Ultrasonic diagnostic equipment

Claims (10)

A flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue,
A reference average signal strength b is determined,
Calculating an average signal intensity a of ultrasonic echoes corresponding to at least one sound ray corresponding to an image to be displayed;
By multiplying the weight of the background image at the time of the synthesis by a coefficient of (b / a), the luminance of the background image is adjusted according to the change in the average signal intensity of the ultrasonic echo for at least one sound ray. A flow image display method characterized by the above. A flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue,
A flow image display method comprising adjusting the luminance of a background image in accordance with a change in average signal intensity of a flow component of at least one sound ray. A flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue,
A flow image display method comprising adjusting the luminance of a background image according to a change in a ratio of an average signal intensity of a flow component and a background component for at least one sound ray. A flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue,
A flow image display method comprising adjusting the luminance of a flow image according to a change in average signal intensity of a background component of at least one sound ray. An ultrasound probe,
Transmitting / receiving means for driving the ultrasonic probe to transmit ultrasonic pulses into the subject and receiving ultrasonic echoes from within the subject and outputting received data;
Flow image generation means for imaging a flow based on the received data;
Background image generation means for imaging the tissue based on the received data;
Average signal intensity calculating means for calculating an average signal intensity a of ultrasonic echoes for at least one sound ray;
Reference average signal strength storage means for storing the reference average signal strength b designated by the operator;
A composite image is generated by multiplying the flow image and the background image by a predetermined constant weight and adding the multiplied values, and a constant (b / a) is added to the constant of the background weight. A composite image generating means for adjusting the brightness of the background image in the composite image by multiplying by a coefficient of
An ultrasonic diagnostic apparatus comprising: display means for displaying the composite image. An ultrasound probe,
Transmitting / receiving means for driving the ultrasonic probe to transmit ultrasonic pulses into the subject and receiving ultrasonic echoes from within the subject and outputting received data;
Flow image generation means for imaging a flow based on the received data;
Background image generation means for imaging the tissue based on the received data;
Average signal strength calculating means for calculating an average signal strength of a flow component of at least one sound ray;
Reference average signal strength storage means for storing a reference average signal strength instructed by an operator;
A composite that generates a composite image by combining the flow image and the background image, compares the average signal intensity with the reference average signal intensity, and adjusts the luminance of the background image in the composite image according to the comparison result Image generating means;
An ultrasonic diagnostic apparatus comprising: display means for displaying the composite image. An ultrasound probe,
Transmitting / receiving means for driving the ultrasonic probe to transmit ultrasonic pulses into the subject and receiving ultrasonic echoes from within the subject and outputting received data;
Flow image generation means for imaging a flow based on the received data;
Background image generation means for imaging the tissue based on the received data;
An average signal intensity ratio calculating means for calculating a ratio of an average signal intensity of a flow component and a background component of at least one sound ray;
Reference average signal strength ratio storage means for storing a reference average signal strength ratio instructed by an operator;
A composite image is generated by combining the flow image and the background image, and the ratio of the average signal intensity and the reference average signal intensity ratio are compared, and the luminance of the background image in the composite image is determined according to the comparison result. A composite image generating means to adjust;
An ultrasonic diagnostic apparatus comprising: display means for displaying the composite image. An ultrasound probe,
Transmitting / receiving means for driving the ultrasonic probe to transmit ultrasonic pulses into the subject and receiving ultrasonic echoes from within the subject and outputting received data;
Flow image generation means for imaging a flow based on the received data;
Background image generation means for imaging the tissue based on the received data;
Average signal strength calculating means for calculating an average signal strength of a background component for at least one sound ray;
Reference average signal strength storage means for storing a reference average signal strength instructed by an operator;
A composite image generating unit that generates a composite image by combining the flow image and the background image and adjusts the luminance of the background image in the composite image according to a ratio between the average signal intensity and the reference average signal intensity. When,
An ultrasonic diagnostic apparatus comprising: display means for displaying the composite image. A flow image display method for combining and displaying a flow image obtained by imaging a flow using a contrast agent and a background image obtained by imaging a tissue,
A flow image display method comprising adjusting a luminance of a background image according to a change in an average signal intensity of ultrasonic echoes for one sound ray. An ultrasound probe,
Transmitting / receiving means for driving the ultrasonic probe to transmit ultrasonic pulses into the subject and receiving ultrasonic echoes from within the subject and outputting received data;
A flow image generating means for imaging a flow based on the received data; a background image generating means for imaging a tissue based on the received data;
Average signal intensity calculating means for calculating the average signal intensity of ultrasonic echoes for one sound ray;
Reference average signal strength storage means for storing a reference average signal strength instructed by an operator;
A composite that generates a composite image by combining the flow image and the background image, compares the average signal intensity with the reference average signal intensity, and adjusts the luminance of the background image in the composite image according to the comparison result Image generating means;
An ultrasonic diagnostic apparatus comprising: display means for displaying the composite image.

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