JP2002034987A - B-mode image generating method, and ultrasonograph - Google Patents

Abstract

PROBLEM TO BE SOLVED: To form a B-mode image of blood vessels more clearly than in conventional devices. SOLUTION: A scan converter 16 generates a B-mode image by performing processes such as coordinates conversion, image interpolation, processing between frames, etc., a blood vessel range is determined based on flow information (f), and picture element values for the B-mode image are adjusted in such a that picture elements corresponding to the blood vessel range are shown in black on an image surface. The blood vessels can thus be clearly shown in black even when artifacts reach a wide range of B-mode data. Thin blood vessels which cannot be shown in conventional B-mode images can thus be shown.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a B-mode image generating method and an ultrasonic diagnostic apparatus, and more particularly, to a B-mode image generating method and an ultrasonic diagnostic apparatus capable of delineating blood vessels more clearly than before. .

[0002]

2. Description of the Related Art Blood vessels should be displayed in black in a B-mode image, but may be displayed to some extent bright. That is, the image may have poor cyst omission. This is considered to be an artifact caused by multiple reflection on the blood vessel wall.

According to Utility Model Registration No. 2558062, if the ratio of B-mode data corresponding to a pixel around a certain pixel of interest to a predetermined value or less is higher than a predetermined ratio, the pixel value is adjusted to be displayed in black. This improves cyst dropout.

[0004]

[Problems to be Solved by the Invention] Utility model registration No. 255
In the technique of No. 8062, since the processing is performed using only the B-mode data, there is a problem that the cyst omission cannot be sufficiently improved in a case where the artifact covers a wide range of the B-mode data. Further, the B mode data has a higher S value than the flow information such as the power Doppler data.
Since the N ratio (Signal to Noise ratio) and the resolution were low, there was a problem that thin blood vessels could not be drawn. Therefore,
An object of the present invention is to provide a B-mode image generation method and an ultrasonic diagnostic apparatus capable of delineating blood vessels more clearly than in the past.

[0005]

According to a first aspect, the present invention provides a method for scanning a subject with ultrasonic waves to obtain a received signal, generating B-mode data from the received signal, and generating the B-mode data. Is a B-mode image generation method for generating a B-mode image based on an image, and acquires flow information by scanning the inside of a subject with ultrasonic waves, determines a blood vessel region based on the flow information, and corresponds to the blood vessel region. Provided is a B-mode image generation method, which comprises adjusting a pixel value of a B-mode image so that pixels are displayed in black on a screen. In the B-mode image generation method according to the first aspect, a blood vessel region is determined using flow information, and the pixel value of the B-mode image is adjusted so that pixels corresponding to the blood vessel region are displayed in black on a screen. Therefore, even in a case where an artifact affects a wide range of B-mode data, cyst omission can be sufficiently improved.
Further, the flow information is compared with the B-mode data by SN
Since the ratio and resolution are high, thin blood vessels can also be drawn.

In a second aspect, the present invention provides a method for scanning a subject with ultrasonic waves to obtain a received signal, and obtaining a B signal from the received signal.
A B-mode image generation method for generating mode data and generating a B-mode image based on the B-mode data, wherein the inside of the subject is scanned with ultrasonic waves to obtain flow information, and based on the flow information, There is provided a B-mode image generation method characterized by adjusting a B-mode data generation gain so that pixels corresponding to a blood vessel region are displayed in black on a screen. In the B-mode image generation method according to the second aspect, the B-mode data generation gain is adjusted based on the flow information so that the pixels corresponding to the blood vessel region are displayed in black on the screen. Even in the case where artifacts are present, the cyst dropout can be sufficiently improved. Furthermore, the flow information has a higher SN ratio and higher resolution than B-mode data, so that thin blood vessels can be drawn.

In a third aspect, the present invention provides an ultrasonic probe, a transmitting / receiving means for scanning an inside of a subject using the ultrasonic probe, receiving an echo and generating a received signal, and B-mode processing means for generating B-mode data from the received signal, flow information processing means for generating flow information from the received signal, and generating a B-mode image from the B-mode data and determining a blood vessel region from the flow information B so that the pixel corresponding to the blood vessel region is displayed in black on the screen.
An ultrasonic diagnostic apparatus comprising: a B-mode image generating unit that adjusts a pixel value of a mode image. The ultrasonic diagnostic apparatus according to the third aspect can suitably implement the B-mode image generation method according to the first aspect. As a result, blood vessels can be more clearly depicted than before.

In a fourth aspect, the present invention provides an ultrasonic probe, a transmitting / receiving means for scanning an inside of a subject using the ultrasonic probe, receiving an echo and generating a received signal, and B-mode processing means for generating B-mode data from a received signal; and B-mode processing for generating flow information from the received signal and displaying pixels corresponding to a blood vessel region on the screen in black based on the flow information. An ultrasonic diagnostic apparatus comprising: a flow information processing / gain control unit for adjusting a B-mode data generation gain of a processing unit; and a B-mode image generation unit for generating a B-mode image from the B-mode data. I will provide a. The ultrasonic diagnostic apparatus according to the fourth aspect can suitably implement the B-mode image generation method according to the second aspect. As a result, blood vessels can be more clearly depicted than before.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to the embodiments shown in the drawings. Note that the present invention is not limited by this.

FIG. 1 is a block diagram showing an ultrasonic diagnostic apparatus according to a first embodiment of the present invention. This ultrasonic diagnostic apparatus 100
Ultrasonic probe 1 and beamformer 2 that scan the inside of an object with ultrasonic waves, receive ultrasonic echoes, and generate reception signals
A B-mode processing unit 3 that performs processing such as amplification, logarithmic compression, and envelope detection on the received signal to generate B-mode data b; and MTI (Moving T
arget Indication), autocorrelation, flow / variance / power calculation, etc., to generate flow information (at least one of variance, speed and power) f. A B-mode image is generated by performing processes such as coordinate transformation, image interpolation, and inter-frame processing, and a blood vessel region is determined based on the flow information f. Pixels corresponding to the blood vessel region are displayed in black on the screen. B
Scan converter 16 for adjusting pixel value of mode image
And a CRT 7 for displaying the B-mode image Ib on the screen.

FIG. 2 is a flowchart showing a B-mode image display process by the ultrasonic diagnostic apparatus 100. In step S1, the ultrasonic probe 1 and the beamformer 2 scan the inside of the subject with ultrasonic waves, obtain B-mode data b by the B-mode processing unit 13, and obtain flow information f by the flow information processing unit 4. I do. In step S2, the scan converter 16 generates a B-mode image from the B-mode data b.

In step S3, the scan converter 1
The pixel in the blood vessel region is determined from the flow information f by 6.
For example, if the values of variance, speed, and power are respectively higher than appropriate thresholds, it is determined that the pixel is in the blood vessel region.
Alternatively, if the values of the variance and the speed are each higher than the appropriate threshold and the value of the power is lower than the appropriate threshold, it is determined that the pixel is in the blood vessel region. As described above, the criterion may be different depending on the patient and the site, so if the operator can select from several criterion,
Usability can be improved. The flow information f is the latest one.
Frame data may be used, or data averaged between frames may be used.

In step S4, the scan converter 1
The pixel value of the pixel of the B-mode image determined to be in the blood vessel region in step 6 is changed to a black level or a value near the black level. If this value can be set by the operator, usability can be improved.

In step S5, a B-mode image is displayed on the CRT 7. Then, the process returns to step S1.

FIG. 3 is an illustration of a B-mode image displayed by the ultrasonic diagnostic apparatus 100. In the B-mode image Ib, even when the B-mode data over a wide area has an artifact, the blood vessel V1 can be depicted as being blackened. Furthermore, a thin blood vessel V1 that cannot be drawn with a conventional B-mode image can be drawn.

Second Embodiment FIG. 4 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a second embodiment of the present invention. This ultrasonic diagnostic apparatus 200
Ultrasonic probe 1 and beamformer 2 that scan the inside of an object with ultrasonic waves, receive ultrasonic echoes, and generate reception signals
A B-mode processing unit 13 for performing processing such as amplification, logarithmic compression, and envelope detection on the received signal to generate B-mode data b; and MTI (Moving) for the received signal.
Target information, processing such as autocorrelation, speed / variance / power calculation, and the like, flow information (at least one of variance, speed, and power) f is generated, and a pixel corresponding to a blood vessel region is generated based on the flow information f. A flow information processing / gain control section 14 for adjusting the amplification gain of the B-mode processing section 13 so that the B-mode data b is displayed in black on the screen; and a coordinate conversion, image interpolation, inter-frame processing and the like for the B-mode data b. It comprises a scan converter 6 for performing processing and generating a B-mode image Ib, and a CRT 7 for displaying the B-mode image Ib on a screen.

FIG. 5 is a flowchart showing the processing of the flow information processing / gain control unit 14. In step S11, flow information f is obtained from a reception signal obtained by scanning the inside of the subject with ultrasonic waves by the ultrasonic probe 1 and the beam former 2. In step S12, it is determined from the flow information f whether the sampling point corresponding to the flow information f is included in the blood vessel region. If the sampling point is not included in the blood vessel region, the process proceeds to step S13. S1
Proceed to 4.

In step S13, the amplification gain of the B-mode processing unit 13 corresponding to the sampling point is set to a normal gain. Then, the process ends.

In step S14, the amplification gain of the B-mode processing unit 13 corresponding to the sampling point is set to a value lower than a normal gain. For example, the higher the power and the higher the speed, the lower the gain. If the drop condition can be set by the operator,
Usability can be improved. Then, the process ends.

In the B-mode image displayed by the ultrasonic diagnostic apparatus 200, even when an artefact extends over a wide range of B-mode data, a blood vessel can be depicted as being blackened out. Further, a thin blood vessel that cannot be drawn with a conventional B-mode image can be drawn.

-Other Embodiments- In the above embodiment, the description has been made assuming that flow information is acquired by a CFM (Color Flow Mapping) processing unit.
DI (Power Doppler Imaging), B flow (B Flo
w; imaging of blood flow using B-mode image) and PFD (Pull
(Satile Flow Detection; discrimination between arterial flow and venous flow focusing on the pulsatile / non-pulsatile nature of the Doppler component) and obtains flow information. The B-mode data generation gain may be adjusted.

[0022]

According to the method for generating a B-mode image and the ultrasonic diagnostic apparatus of the present invention, even when the B-mode data over a wide area is affected by an artifact, it is possible to depict a blood vessel as black. Further, a thin blood vessel that cannot be drawn with a conventional B-mode image can be drawn. In other words, blood vessels can be more clearly depicted than before.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a first embodiment of the present invention.

FIG. 2 is a flowchart showing a B-mode image display process by the ultrasonic diagnostic apparatus of FIG. 1;

FIG. 3 is an exemplary view showing a B-mode image displayed by the ultrasonic diagnostic apparatus of FIG. 1;

FIG. 4 is a configuration diagram showing an ultrasonic diagnostic apparatus according to a second embodiment of the present invention.

5 is a flow information processing in the ultrasonic diagnostic apparatus of FIG.
It is a flowchart which shows a gain control process.

FIG. 6 is an explanatory diagram showing a B-mode image displayed by a conventional ultrasonic diagnostic apparatus.

[Explanation of symbols]

 100, 200 Ultrasound diagnostic apparatus 1 Ultrasonic probe 2 Beam former 3, 13 B-mode processing unit 4 Flow information processing unit 6, 16 Scan converter 14 Flow information processing / gain control unit

 ────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kazumi Hayasaka 4-7, Asahigaoka, Hino-shi, Tokyo 127 G-F Yokogawa Medical System Co., Ltd. F term (reference) 4C301 CC02 DD01 DD02 DD04 EE20 GB02 HH52 HH60 JB06 JB11 JB22 JB23 JB27 JB28 JB36 JB50 JC01 JC11 KK02 KK22 LL04 5B057 AA09 BA05 CA08 CB08 CE11

Claims (4)

[Claims] 1. A B-mode that scans the inside of a subject with ultrasonic waves to obtain a received signal, generates B-mode data from the received signal, and generates a B-mode image based on the B-mode data.
In the mode image generation method, the inside of the subject is scanned with ultrasonic waves to acquire flow information, a blood vessel region is determined based on the flow information, and pixels corresponding to the blood vessel region are displayed in black on a screen. Adjusting the pixel value of the B-mode image. 2. A B-mode that scans the inside of a subject with ultrasonic waves to acquire a received signal, generates B-mode data from the received signal, and generates a B-mode image based on the B-mode data.
A mode image generating method, wherein flow information is acquired by scanning the inside of a subject with ultrasonic waves, and B-mode data generation is performed so that pixels corresponding to a blood vessel region are displayed in black on a screen based on the flow information. B characterized by adjusting the gain for
Mode image generation method. 3. An ultrasonic probe, transmitting / receiving means for scanning an inside of a subject using the ultrasonic probe, receiving an echo and generating a reception signal, and generating B-mode data from the reception signal. B-mode processing means, a flow information processing means for generating flow information from the received signal, and a B-mode image generated from the B-mode data and a pixel corresponding to the blood vessel area determined by the flow information. An ultrasonic diagnostic apparatus comprising: a B-mode image generation unit that adjusts a pixel value of a B-mode image so that is displayed in black on a screen. 4. An ultrasonic probe, transmitting / receiving means for scanning an inside of a subject using the ultrasonic probe, receiving an echo and generating a reception signal, and generating B-mode data from the reception signal. B-mode processing means for generating flow information from the received signal, and for generating B-mode data of the B-mode processing means so that pixels corresponding to a blood vessel region are displayed in black on a screen based on the flow information. An ultrasonic diagnostic apparatus comprising: flow information processing / gain control means for adjusting a gain; and B-mode image generation means for generating a B-mode image from the B-mode data.