CN113509205A - Mammary gland ultrasonic method and system for quickly selecting scanning body position - Google Patents

Abstract

The invention belongs to the technical field of ultrasonic diagnosis, and particularly relates to a mammary gland ultrasonic method and a system for quickly selecting a scanning body position, wherein the related method comprises the following steps: s1, selecting a 3D probe preset to enter a real-time scanning interface through scanning station equipment; s2, acquiring a body position scanning protocol according to the body position scanner, scanning the body position scanning protocol, and judging whether the body position scanning protocol exists in a body position view; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol; s3, determining the scanning direction of the 3D probe according to the selected body position scanning protocol, scanning the 3D probe corresponding to the preset body position, and generating a corresponding scanning image; the invention can select the required body position scanning protocol according to the examination requirement of the patient, and adjust the direction of the probe through the probe mark, thereby facilitating the doctor to quickly position the scanning body position.

Description

Mammary gland ultrasonic method and system for quickly selecting scanning body position

Technical Field

The invention belongs to the technical field of ultrasonic diagnosis, and particularly relates to a mammary gland ultrasonic method and a system for quickly selecting a scanning body position.

Background

Breast cancer becomes one of common malignant tumors of women, breast cancer patients are increasing in China and even all over the world at present, early discovery and treatment are effective methods for preventing disease deterioration, breast ultrasound is taken as a compact breast screening means, can make up for some defects of molybdenum target screening, and is widely applied clinically; when the three-dimensional breast ultrasonic scanning system is used, a technician or a clinician can quickly and accurately position a breast scanning body position by selecting the body position scanner, and the probe direction is positioned according to the scanning body position and the patient body position, so that the technician and the clinician are conveniently and quickly helped to complete the examination, the screening efficiency is improved, and more women can be subjected to the examination.

The current scanning method cannot meet the requirement of quickly selecting the scanning body position, and misdiagnosis is caused by different operation methods of doctors or technicians, so that improvement is needed to overcome the defects in practical application.

Disclosure of Invention

Based on the above-mentioned shortcomings and drawbacks of the prior art, it is an object of the present invention to at least solve one or more of the above-mentioned problems of the prior art, in other words, to provide a breast ultrasound method and system for rapidly selecting a scanning position, which satisfies one or more of the above-mentioned requirements.

In order to achieve the purpose, the invention adopts the following technical scheme:

a mammary gland ultrasonic method for quickly selecting a scanning body position comprises the following steps:

s1, selecting a 3D probe preset to enter a real-time scanning interface through scanning station equipment;

s2, acquiring a body position scanning protocol according to the body position scanner, scanning the body position scanning protocol, and judging whether the body position scanning protocol exists in a body position view; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol;

and S3, determining the scanning direction of the 3D probe according to the selected body position scanning protocol, scanning the 3D probe corresponding to the preset body position, and generating a corresponding scanning image.

Preferably, the step S3 is followed by:

and S4, transmitting the scanned image to a workstation, and completing three-dimensional image reconstruction by the workstation according to the body position identification.

Preferably, the step S2 specifically includes:

s21, acquiring a body position scanning protocol through a body position scanner on the real-time scanning interface, responding the body position scanning protocol by the processor, and scanning the body position scanning protocol;

and S22, adding the body position scanning protocols in the body position view through the body position scanner, selecting the corresponding body position scanning protocols to drag the body position scanning protocols to the body position view, and sequentially finishing scanning of all the body position scanning protocols.

As a preferred scheme, the body position scanner scans a plurality of body position scanning protocols one by one or repeatedly scans the same body position scanning protocol.

As a preferred scheme, the body position scanner drags the body position scanning protocol to the body position view, the position of the body position scanning protocol is moved and switched, and automatic page turning is achieved through the left-right sliding body position view.

Preferably, in step S3, the scanning direction is changed according to the probe direction identifier on the response TUI.

As a preferable scheme, the body position scanning protocol includes position information of the scanned body position and scanning sequence information.

The invention also provides a breast ultrasound system for quickly selecting a scanning body position, which comprises:

the selection module is used for selecting the 3D probe to preset into a real-time scanning interface through scanning station equipment;

the acquisition module is used for acquiring a body position scanning protocol according to the body position scanner, scanning the body position scanning protocol and judging whether the body position scanning protocol exists in a body position view or not; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol;

and the scanning module is used for determining the scanning direction of the 3D probe according to the selected body position scanning protocol, scanning the 3D probe corresponding to the preset body position and generating a corresponding image.

Preferably, the method further comprises the following steps:

and the reconstruction module is used for transmitting the scanned three-dimensional reconstructed image to a workstation, and the workstation finishes editing the three-dimensional image according to the body position identification.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, a doctor or a technician can be helped to quickly position a scanning body position through the body position scanning protocol, a 3D probe is selected and then enters a real-time scanning interface, a required body position scanning protocol is selected in a current body position view or a body position scanner according to the examination requirement of a patient, and the direction of the probe is adjusted through the probe identification, so that the doctor can conveniently and quickly position the scanning body position.

According to the invention, a proper three-dimensional reconstruction image is scanned according to the scanned body position, the three-dimensional reconstruction image is checked and sent to the workstation, and the workstation edits the three-dimensional image according to the current body position so as to ensure the correctness of the reconstruction image.

Drawings

Fig. 1 is a flowchart of a breast ultrasound method for quickly selecting a scanning body position according to a first embodiment of the present invention;

FIG. 2 shows the posture names and corresponding views in the posture scanner according to the first embodiment of the present invention;

FIG. 3 is a schematic diagram of a body position scanner according to a first embodiment of the present invention;

FIG. 4 is a scan flow of the body position selector according to the first embodiment of the present invention;

fig. 5 is a structural diagram of a breast ultrasound system for quickly selecting a scanning position according to a second embodiment of the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention, the following description will explain the embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

The first embodiment is as follows:

as shown in fig. 1 to 4, the present embodiment provides a breast ultrasound method for quickly selecting a scanning body position, including the following steps:

s1, selecting a 3D probe preset to enter a real-time scanning interface through scanning station equipment;

s2, acquiring a body position scanning protocol according to the body position scanner, scanning the body position scanning protocol, and judging whether the body position scanning protocol exists in a body position view; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol.

Specifically, a scanning body position scanning protocol is selected in a scanning body position view device through TUI, wherein the body position scanning protocol comprises position information and scanning sequence information of a scanned body position; acquiring a body position scanning protocol through a body position scanner on a real-time scanning interface, responding the body position scanning protocol by a processor, and scanning the body position scanning protocol; and adding the body position scanning protocol in the body position view through the body position scanner, selecting the corresponding body position scanning protocol and dragging the corresponding body position scanning protocol to the body position view, and sequentially finishing scanning of all the body position scanning protocols.

Selecting a scan posture view through the TUI; if the required body position scanning protocol exists in the current body position view, the selection can be directly carried out; if the required body position scanning protocol does not exist in the current body position view, the body position view is required to be expanded, namely, the body position scanner is opened, the required body position scanning protocol is added into the body position view in the body position selector, and then the required body position scanning protocol is selected for scanning.

The body position scanner scans a plurality of body position scanning protocols one by one or repeatedly scans the same body position scanning protocol, so that the working efficiency is improved, and misdiagnosis caused by different operation methods of doctors or technicians is avoided.

Specifically, a default probe identification direction is given after a body position scanning protocol is selected, a user can also change the probe direction identification on the interface TUI, and the probe processor automatically switches the direction of the probe after receiving an instruction, so that the scanning direction is changed; with open left and right "U" denoting probe orientation, e.g.

If the probe is oriented in the direction of

The operator should stand on the right side of the patient, and the scanning direction is 'right handle → left handle'; if the probe is oriented in the direction of

The operator should stand on the left side of the patient with the scan direction "left handle → right handle".

In this embodiment, the default body position in the body position view can be set from the setting, the type of the scanning body position that can be set at present and the corresponding schematic diagram (as shown in fig. 2); the scanning is started from the right side, when the scanning is started from the left side after the scanning is finished on the right side, the probe is automatically switched to the left side, an operator needs to stand to the left side of a patient for operation, and a body position scanning protocol for scanning from the right side is as follows:

the scanning is started from the left side, when the scanning of the left side finishes and the scanning of the right side is started, the probe is automatically switched to the right side, an operator needs to stand to the right side of a patient for operation, and a body position scanning protocol for scanning from the left side is as follows:

only scan at the right side, the probe need not switch over, and the operator also need not the conversion position, and the position scanning agreement of only scanning at the right side does:

only the body scanned on the left side, the probe does not need to be switched, the operator does not need to switch the position, and the body scanned only on the left sideThe bit scanning protocol is as follows:

scanning all body position scanning protocols in the body position scanner one by one, marking views with scanning results by using a square root, displaying 7 views at most in the body position views, and highlighting the views being scanned; and if the current views are scanned completely, automatically jumping to the current view page and highlighting the current view page to display the next view to be scanned, and sequentially finishing scanning of all body position scanning protocols.

Deleting the unscanned body position scanning protocol, and automatically selecting a first unscanned body position scanning protocol if the current body position scanning protocol is deleted; if all the scanning body positions are scanned after the current body position scanning protocol is deleted, automatically selecting a first scanning body position scanning protocol; the body position scanning protocol cannot be deleted completely, and at least one body position scanning protocol is reserved; the scanned body position scanning protocol cannot be deleted, so that a doctor can conveniently check the scanned body position result.

The user moves the body position scanning protocol through the body position scanner, the position in the body position view can be changed by selecting one body position scanning protocol to drag, and automatic page turning can be realized by moving the body position view leftwards or rightwards.

The user can add a body position scanning protocol through the body position scanner, the body position scanning protocol which is required to be added is selected from the body position scanner, the body position scanning protocol is added into the body position view, the body position scanning protocol cannot be added repeatedly, and the same measuring position can be screened conveniently by repeatedly scanning the same body position scanning protocol.

And S3, determining the scanning direction of the 3D probe according to the selected body position scanning protocol, scanning the 3D probe corresponding to the preset body position, and generating a corresponding scanning image.

Specifically, the user determines the scanning direction of the 3D probe according to the selected body position scanning protocol, changes the scanning direction by changing the probe direction identification, so as to adjust the scanning direction of the body position to be scanned, scans the 3D probe direction to a preset body position correspondingly, and generates a corresponding scanning image.

Further, the method also comprises the following steps:

and S4, transmitting the scanned three-dimensional reconstructed image to a workstation, and finishing three-dimensional image editing by the workstation according to the body position identification, thereby ensuring the correctness of the reconstructed image.

Specifically, the 3D probe responds to an instruction of a scanning part to scan according to the selected body position scanning protocol and the probe direction, sends out an ultrasonic signal, and the processor receives the ultrasonic signal, obtains an echo signal of the body position scanning protocol and further processes the echo signal into a three-dimensional reconstruction image.

Compared with the prior art, the embodiment has the following beneficial effects:

according to the embodiment, the body position scanning protocol is quickly selected through the body position scanner, after the body position scanning protocol is determined, a doctor can adjust the direction of the probe according to needs to scan the body position scanning protocols in the body position scanner one by one, so that the working efficiency is improved, and misdiagnosis caused by different operation methods of the doctor or a technician is avoided; the method can also keep the uniformity with the three-dimensional reconstruction of the workstation, thereby saving the scanning time and increasing the uniformity and maintainability of the images.

Example two:

as shown in fig. 5, the present embodiment provides a breast ultrasound system for quickly selecting a scanning position, including:

the selection module 11 is used for selecting the 3D probe preset to enter a real-time scanning interface through scanning station equipment;

the acquisition module 12 is configured to acquire a body position scanning protocol according to the body position scanner, scan the body position scanning protocol, and determine whether the body position scanning protocol exists in a body position view; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol;

and the scanning module 13 is configured to determine a scanning direction of the 3D probe according to the selected body position scanning protocol, scan the 3D probe corresponding to a preset body position, and generate a corresponding image.

Further, the system of this embodiment further includes:

and the reconstruction module 14 is used for transmitting the scanned three-dimensional reconstructed image to a workstation, and the workstation finishes editing the three-dimensional image according to the body position identification.

The breast ultrasound system for quickly selecting a scanning body position provided by the embodiment corresponds to the method of the first embodiment, and details are not repeated here.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, a doctor or a technician can be helped to quickly position a scanning body position through the body position scanning protocol, a 3D probe is selected and then enters a real-time scanning interface, a required body position scanning protocol is selected in a current body position view or a body position scanner according to the examination requirement of a patient, and the direction of the probe is adjusted through the probe identification, so that the doctor can conveniently and quickly position the scanning body position.

According to the invention, a proper three-dimensional reconstruction image is scanned according to the scanned body position, the three-dimensional reconstruction image is checked and sent to the workstation, and the workstation carries out three-dimensional reconstruction editing according to the current body position so as to ensure the correctness of the reconstruction image.

The foregoing has outlined rather broadly the preferred embodiments and principles of the present invention and it will be appreciated that those skilled in the art may devise variations of the present invention that are within the spirit and scope of the appended claims.

Claims (9)

1. A mammary gland ultrasonic method for quickly selecting a scanning body position is characterized by comprising the following steps:

s1, selecting a 3D probe preset to enter a real-time scanning interface through scanning station equipment;

s2, acquiring a body position scanning protocol according to the body position scanner, scanning the body position scanning protocol, and judging whether the body position scanning protocol exists in a body position view; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol;

and S3, determining the scanning direction of the 3D probe according to the selected body position scanning protocol, scanning the 3D probe corresponding to the preset body position, and generating a corresponding scanning image.

2. The breast ultrasound method for rapidly selecting a scanning body position according to claim 1, wherein the step S3 is further followed by:

and S4, transmitting the scanned image to a workstation, and completing three-dimensional image reconstruction by the workstation according to the body position identification.

3. The breast ultrasound method for rapidly selecting a scanning body position according to claim 1, wherein the step S2 specifically comprises:

s21, acquiring a body position scanning protocol through a body position scanner on the real-time scanning interface, responding the body position scanning protocol by the processor, and scanning the body position scanning protocol;

and S22, adding the body position scanning protocols in the body position view through the body position scanner, selecting the corresponding body position scanning protocols to drag the body position scanning protocols to the body position view, and sequentially finishing scanning of all the body position scanning protocols.

4. The breast ultrasound method for rapidly selecting a scanned body position according to claim 3, wherein the body position scanner scans a plurality of body position scanning protocols one by one or scans the same body position scanning protocol repeatedly.

5. The breast ultrasound method for rapidly selecting the scanning body position according to claim 1, wherein the body position scanner drags the body position scanning protocol to the body position view, the position of the body position scanning protocol is moved and switched, and automatic page turning is realized by sliding the body position view left and right.

6. The breast ultrasound method for rapid selection of scanning body positions according to claim 1, wherein in step S3, the scanning direction is changed according to the probe direction identification on the response TUI.

7. The breast ultrasound method for rapidly selecting the scanning body position according to claim 1, wherein the body position scanning protocol comprises position information and scanning sequence information of the scanning body position.

8. A breast ultrasound system for rapid selection of scanning positions, comprising:

the selection module is used for selecting the 3D probe to preset into a real-time scanning interface through scanning station equipment;

the acquisition module is used for acquiring a body position scanning protocol according to the body position scanner, scanning the body position scanning protocol and judging whether the body position scanning protocol exists in a body position view or not; if yes, selecting a corresponding body position scanning protocol; if not, adding the required body position scanning protocol to the body position view through the body position selector, and selecting the corresponding body position scanning protocol;

and the scanning module is used for determining the scanning direction of the 3D probe according to the selected body position scanning protocol, scanning the 3D probe corresponding to the preset body position and generating a corresponding image.

9. The breast ultrasound system for rapid selection of scanning positions of claim 8, further comprising:

and the reconstruction module is used for transmitting the scanned three-dimensional reconstructed image to a workstation, and the workstation finishes editing the three-dimensional image according to the body position identification.

Images